Device for laundry processing

FIELD: textiles, paper.

SUBSTANCE: device for laundry processing is proposed, comprising a housing (3) defining its appearance, at that the housing (3) comprises an opening (37) for loading the laundry, formed in it, a door (4) made with the ability to open and close the opening (37) for loading laundry, a hinge assembly (5, 6, 7) having a first axis (A) of rotation to rotate the door (4) in a first direction of rotation and a second axis (B) of rotation to rotate in a second direction of rotation, which differs from the first direction of rotation and a fixing element (1000, 1100) made with the ability to secure the door (4) on the first axis (A) of rotation and the second axis (B) of rotation when rotating the door (4).

EFFECT: improvement of device.

20 cl, 45 dwg

 

The technical field to which the invention relates.

Embodiments of relate to a device for processing sheets, and more particularly to a device for processing sheets, which includes the door, turn in different directions to open and close the holes for the load of Laundry.

Background of the invention

Typically, the device for processing linen can be subdivided into a device only for washing, having only the function of washing, the device only for drying, having only the function of drying, and a device for washing/drying with functions like washing, and drying. In addition, based on the design and type of device for the processing of linen can be subdivided into a device for processing linen drum type, which dries linen while turning the sheets through the use of a rotating drum, and a device for processing linen Cabinet-type, which dries linen when hanging the linen in it.

In a known device for washing/drying a hole load of Laundry is formed in the front housing for download through his underwear.

In addition, the door can be installed on the front side of the housing for opening and closing the holes for the load of Laundry. In this paper, the door includes a single axis, rotating in the direction of the left and right to open and secretionary.

The device for processing linen, which is a device only for drying, can be located near the side of the device only for washing on a line. For drying clothes, washed in the device only for washing, the user should be able to unload the washed linen from the device only for washing, and it can load it into the device only for drying through hole load of Laundry.

Door, located in the known device for processing sheets, comprising well-known washing machine having a drying function, and a drying device can be rotated in a horizontal direction from the opening to open and close the holes. Consequently, when the sheets loaded in the compartment to fit through the hole, it happens that the clothes fall to the floor next to the hole.

If lingerie falls to the floor, foreign substances on the floor, can stick to lingerie and underwear could be more dusty.

The user must raise lingerie to fit into the hole.

Thus, when the device for processing linen is rotated in a horizontal direction for opening, can be spatial restriction when installing the device for processing linen, remote from the wall to provide space for the chief is the door.

Disclosure of inventions

Technical problem

To solve the problems the purpose of embodiments is a device for processing sheets, comprising a hole load of Laundry, which can provide convenience for the user by providing selective opening and closing of the door in a vertical or horizontal direction.

Another objective of embodiments is a device for processing sheets, which can steadily to open the door, because the door does not open in the other direction of rotation, when the user rotates the door in the selected direction of rotation.

Another objective of embodiments is a device for processing sheets, which can reduce the spatial limitations when installing for providing the space for opening the door when using the device for processing linen.

Another objective of embodiments is a device for processing sheets, which ensures smooth loading sheets in the compartment to fit through the hole after colliding with the surface of the door when linen is loaded through the opening.

Technical solution

To achieve these objectives and other advantages of the device for processing at CDF the us, made with the possibility of formation of its appearance, and the housing contains an opening for a load of Laundry, formed therein, a door configured to open and close the openings to the Laundry load, articulated the node containing the first axis of rotation to rotate the door in the first direction of rotation and the second axis of rotation to rotate in the second rotation direction, which is different from the first direction of rotation, and the fixing element configured to secure the door to the first rotation axis or the second axis of rotation when the door is rotated.

Hinge may further include a first hinge that includes a first axis forming a first axis of rotation, and a portion for separating the first axis, having a first receiving groove formed therein. The fastening element may include a first arm is configured to open and close the first receiving groove.

Hinge may further include a third hinge comprising a fourth axis, forming a second axis of rotation, and the fourth part with the second receiving groove formed in it, to detach the fourth axis from her.

The fastening element may include a second arm is configured to open and close the second receiving groove.

Nab is alausa groove may be formed in part to detach the fourth axis direction of the end of the second rod to rotate.

The limiter can be formed in the second receiving groove for stopping the rotation of the fourth axis.

The cross-sectional area of the fourth axis may include a first flat surface, and the stopper may include a second flat surface corresponding to the first flat surface.

In another aspect, a device for processing at the enclosure with the option of establishing its appearance, and the housing contains an opening for a load of Laundry, formed therein, a door configured to open and close the hole load of Laundry, and articulated the node containing the first axis of rotation to rotate the door in the first direction of rotation and the second axis of rotation to rotate in the second rotation direction, which is different from the first direction of rotation, the securing element configured to secure the door to the first rotation axis or the second axis of rotation when the door is rotated, and a clamping element is arranged to move the fastening element.

Device for handling sheets may optionally include a safety rod to limit movement of the clamping element.

A through hole may be formed in prijemnom element for insertion of the safety rod in arigatou position of the clamping element.

The supporting protrusion may be formed on prijemnom element for support of the safety rod in the position when the presser member is not pressed, to limit movement of the clamping element.

The protruding element can be formed on the safety bar and safety bar may further include a first pin, made with the possibility of pressing the speaker element, to move the safety bar, and a second pin configured to contact the first pin.

The first pin may be mounted on the door, and the second pin can be installed on the body.

The first pin may be embedded so as not to open on the outer side of the door.

In another aspect, a device for processing at the enclosure with the option of establishing its appearance, and the housing contains an opening for a load of Laundry, formed therein, a door configured to open and close the hole load of Laundry, and articulated the node containing the first axis of rotation to rotate the door in the first direction of rotation and the second axis of rotation to rotate in the second rotation direction, which is different from the first direction of rotation and the tilting element is inclined at a given angle, is formed at the lower end of the door.

The tilting element may come in contact with the housing and pivoting door when the door is rotated at a given angle in the second direction of rotation.

Device for handling sheets may further include a damping part, designed to absorb shock generated when the tilting element is in contact with the body.

Many of the damping parts may be positioned on the inclined element or body.

The spring washer may be installed on the second axis of rotation.

Favorable results

Options for implementation have the following favorable results. In accordance with the variants of the implementation of the device for processing linen can provide convenience for the user by selective opening and closing of the door in a vertical or horizontal direction.

In addition, in the device for processing linen door can stably be opened because the door does not open in the other direction of rotation, when the user rotates the door in the selected direction of rotation.

Moreover, the device for processing sheets can reduce the limitation in providing a space for the horizontal opening of the door when using the device for processing sheets, because the door located on the device to access ODI linen, can be opened not only horizontally, but also vertically.

Moreover, the device for processing linen ensures smooth loading sheets in the receiving compartment through the hole after the collision with the surface of the door when linen is loaded through the opening.

Brief description of drawings

Devices and options for implementation may be described in detail with reference to the following drawings, in which similar reference position refer to similar elements and in which

Fig.1 is a perspective view of the device for processing sheets in accordance with the exemplary embodiment;

Fig.2 is a schematic view of the door shown in Fig.1 which is rotated in the first direction of rotation;

Fig.3 is a schematic view of the door shown in Fig.1 which is rotated in the second direction of rotation;

Fig.4 is a schematic view of the second hinge, which is rotated in the first direction of rotation;

Fig.5 is a schematic view of the second hinge, which is rotated in the second direction of rotation;

Fig.6 is a schematic view of the inner part of the outer frame located on the door depicted in Fig.1;

Fig.7 is a front view of the configuration of the first rod located on the outside of the door frame;

Fig.8-10 are schematic views specifically illustrating key parts when the first bar in Fig.7 is contained in f is f;

Fig.11 is a schematic view of the United position of the third joint;

Fig.12 is a schematic view of a second rod of Fig.11, which moves down;

Fig.13 is a schematic view of the door shown in Fig.12, which is rotated in the second direction of rotation;

Fig.14 is a conceptual schematic view of a modified example of Fig.11;

Fig.15 is a schematic view of the configuration of the safety rod;

Fig.16 is a schematic view of the disconnected condition of Fig.15 from the casing;

Fig.17 is a schematic view of the safety rod, the first pin and the second pin of Fig.16;

Fig.18 and 19 are schematic views of the United States of the safety rod and the clamping element of Fig.16;

Fig.20 is a view in section, illustrating the position of the door in accordance with the embodiment, it is rotated in the second direction of rotation;

Fig.21 is a schematic view of the damping portion in Fig.20;

Fig.22 is a conceptual schematic view of the damping portion in accordance with another embodiment;

Fig.23 is a conceptual schematic view of the damping portion in accordance with another embodiment;

Fig.24 is a conceptual schematic view of the damping portion in accordance with another embodiment;

Fig.25 is a conceptual schematic view of the damping portion in accordance with another variant of the m implementation;

Fig.26 is a conceptual schematic view of the first rod in accordance with another embodiment;

Fig.27 is a perspective view of a drying device in accordance with another embodiment and a washing machine having a drying device;

Fig.28 is a perspective view, partially illustrating the door, located on the drying device shown in Fig.27, which is opened and closed in a vertical direction;

29a is a perspective view illustrating the connected state between the second SitePlayer element and the second axis of the second hinge located on the door;

Fig.29b is a perspective view illustrating the position of the vertical rotation of the second SitePlayer element depicted in Fig.28;

Fig.29c is a view in section of the mounting of the speaker element, elastically inserted into the installation hole and detachable from him;

Fig.30a is a perspective view illustrating the hinge connected state between the rotating element of Fig.28 and the rotating element on the door;

Fig.30b is a perspective view illustrating the position of the vertical rotation of the rotating element, shown in Fig.30a;

Fig.31 is a perspective view illustrating the connected state between the first SitePlayer element located on the housing of the drying device of briennon in Fig.28, and the first hinge element located on the door;

Fig.32 is a perspective view of a drying device having a door that opens in a horizontal direction, as shown in Fig.27, and a washing machine having a door;

Fig.33 is a perspective view of the door of the drying device shown in Fig.32, which is opened and closed in a horizontal direction;

Fig.34 is a perspective view illustrating the position of the second SitePlayer element and the second hinge element when the door is shown in Fig.33, is opened in a horizontal direction;

Fig.35 is a perspective view illustrating the position of the first SitePlayer element and the first hinge element when the door is shown in Fig.33, is opened in a horizontal direction;

Fig.36 is a perspective view illustrating the hinge connected state between a rotating element, shown in Fig.33, and the rotating element on the door;

Fig.37 is a perspective view of the device for processing sheets in accordance with another embodiment;

Fig.38 is a schematic view of the door and the pivot point located in the device for processing sheets in accordance with the embodiment depicted in Fig.41;

Fig.39 is a schematic view illustrating the displacement of the first hinge in compliance and with the embodiment;

Fig.40-42 - schematic views illustrating the movement of the second and third hinges comprising hinge part;

Fig.43 is a schematic view of another variant implementation of the second and third hinges;

Fig.44 is a schematic view of another variant of implementation of the part for adjusting the height of the door, located in the device for processing sheets in accordance with this embodiment; and

Fig.45 is a conceptual schematic view of the part for fastening doors, located in the device for processing sheets in accordance with the embodiment of Fig.41, to prevent movement of the door down.

The best option implementation

Below will be described in detail embodiments of including objectives, with reference to the accompanying drawings.

Fig.1 is a perspective view of the device for processing sheets in accordance with the example implementation of Fig.2 is a schematic view of the door shown in Fig.1 which is rotated in the first direction of rotation, Fig.3 is a schematic view of the door shown in Fig.1 which is rotated in the second direction of rotation. Below the device for processing sheets in accordance with this embodiment will be described with reference to Fig.1-3.

Device for handling sheets in accordance with this embodiment may include cor is condition 3, with separation (R) to accommodate linen, and a hole 37 for Laundry load that loads the lingerie Department to accommodate linen, 4 door mounted for opening and closing the openings 37 and hinge 5, 6 and 7, is made to rotate the door 4 for opening and closing holes in different directions.

Case 3 can determine the appearance of the device for processing sheets, and a hole 37 for the Laundry load may be formed through the outer panel 33, located on the side of the hull, for a message with the office (R) to accommodate the linen.

Part 39 to accommodate the locking protrusion may be located on the outer panel 33 to accommodate the locking projection 47, which is located on the door 4. The locking protrusion 47 of the door 4 can fit in the part 39 to accommodate the locking protrusion located on the housing, so that the door 4 can open and close the opening to the Laundry load.

While the panel 31 of the control can be located on the housing 3 to provide user input commands in device for processing linen.

Hinge 5, 6 and 7 may form the first axis (A) of rotation for rotation of the door for opening and closing the openings 37 and the second axis (B) rotate to rotate the door 4 for opening and closing the openings 37 in the direction different from napravlenie.info axis (A) of rotation. The first axis (A) of rotation can be vertical with respect to the housing 3, and a second axis (B) of rotation may be horizontal with respect to the housing 3.

The first axis of rotation can be formed through the first hinge 5 and the second hinge 6. The second axis of rotation can be formed due to the second hinge 6 and the third hinge 7.

In Fig.2 and 3, the first axis (A) of rotation can be formed in the longitudinal direction of the housing 3 (the vertical axis of rotation)and the second axis (B) of rotation can be formed in the direction of the width of the chassis (horizontal axis of rotation). However, the location of the first axis of rotation and the location of the second axis of rotation may not necessarily be limited to those depicted in Fig.2. In other words, the first axis of rotation and the second axis of rotation can be located in different positions of the body, only if they provide rotation of the door in different directions for opening and closing hole (only if the first axis of rotation and the second axis of rotation to form a predetermined angle). In this paper, the direction of the first axis of rotation (the first direction) may be different from the direction of the second axis of rotation (the second direction).

In this document, as shown in Fig.3, the second axis of rotation can be located in the direction of the width of the hull to provide tilt doors from SyteLine the lower end of the hole 37. In this case, it may be a result of the effective load of Laundry caused by regulating the angle of the door as will be described below.

Hinge may include a first hinge 5 having a first axis, consisting of the first axis (A) of rotation for connecting the door and the enclosure 3, and detach the door from the housing 3, the second hinge 6 having a second axis, consisting of the first axis (A) rotate together with the first axis and the third axis, consisting of the second axis (B) of rotation, and the third joint 7 having a fourth axis, consisting of the second axis (B) rotate together with the third axis for connecting door 4 from the housing 3, and detach the door 4 from the housing 3.

The first hinge 5 may include a first axis 51, which forms a first axis of rotation, and the portion 53 to disconnect the first axis, having a first receiving groove formed therein, to accommodate the first axis 51. The first axis 51 can be mounted on the housing 3, and the portion 53 to disconnect the first axis may be located on the door 4. Alternatively, the first axis 51 can be mounted on the door 4, and the portion 53 to disconnect the first axis can be mounted on the housing 3.

The third hinge 7 may include a fourth axis 713 for the formation of a second axis (B) and rotate part 73 to disconnect the fourth axis, with the second receiving groove formed therein, in which edenia fourth axis 713. The fourth axis 713 can be mounted on the door 4, and part 73 to disconnect the fourth axis can be mounted on the housing 3. Alternatively, the fourth axis 713 can be installed on the main body 3, and part 73 to disconnect the fourth axis can be mounted on the door 4.

As shown in Fig.2, when the door is rotated in the first direction, the first hinge 5 and the second hinge 6 may be connected to rotate the door 4 from the housing 3. In this third hinge 7 can disconnect the door 4 from the housing 3.

On the contrary, as shown in Fig.3, when the door is rotated in the second direction, the second hinge 6 and the third hinge 7 can connect to rotate the door 4 from the housing 3. The first hinge 5 can disconnect the door 4 from the housing 3.

In other words, when the door 4 is rotated in one of the first and second directions, the second hinge 6 may be fixed relative to both directions, and the first hinge 5 and the third hinge 7 can connect the door 4 from the housing 3 or detach it from the housing 3.

The door 4 may include an inner frame 43 located relative to the outer panel 33, and the outer frame 41 that is connected with the inner frame for the education of the General form of the door 4.

The door may further include a transparent portion 45 located with the possibility of inserting into the hole 37. Transparent is part 45 can prevent lingerie, located in the Department (R) to accommodate linen, from entering through the opening to the Laundry load, and it can also enable the user to see the office (R) to accommodate the linen during operation of the device for the processing of linen.

As shown in Fig.3, a recessed portion 992, sunk by a preset distance in the longitudinal direction, can be located on the upper end of the door 4.

Recessed portion 992 can be carried longitudinally in the direction of the width of the door 4, and it can be carried on the distance of the horizontal length of the door 4.

The presser element 990, which can be captured by the user can be located in the center of the recessed portion 992. The presser element 990 can be installed in the center of the door 4 to support the pressing by the user of the door 4 when turning it in the second rotation direction. When the user presses the presser element 990, the door 4 can stably be rotated in the direction of rotation, which the user selects by using the number of elements installed on the door, which will be described below.

The user can capture a recessed portion 992 to rotate the door 4 without capture clamping element 990, located in the center of recessed portion 992. When you try to rotate the door 4 in the first direction of rotation, not the second direction of rotation, the user is spruce may not capture the presser element 990, and other parts of recessed portion 992, which is not the presser element 990, to rotate the door 4. For example, when trying to rotate the door in the first direction of rotation, the user can capture the area located opposite the first axis (A) of rotation of the first rotation direction, and then he can open the door 4.

Fig.4 is a schematic view of the second hinge, which is rotated in the second direction of rotation, Fig.5 is a conceptual schematic view illustrating the open position of the door. Below will be described an implementation option with reference to Fig.4 and 5.

The second hinge 6 may be connected to the housing 3 with the 4 door for securing the door 4 is in position for selective rotation in first and second directions of rotation. The second hinge 6 can provide the connection can be rotated 4 door with the case 3, when the door 4 is rotated on both the first and second axes of rotation.

The second hinge 6 may include a mounting portion 61 of the housing, fixed to the body 3, and the fixing part 65 of the door mounted on the door 4.

The second axis 651, consisting of the first axis of rotation may be located in the mounting part 65 of the door. The door 4 may be rotated on the second axis 651 in the first direction of rotation, and it can rotate on the second axis 651 relative to the mounting part 65 of the door.

Mounting of the door 65 and the mounting portion 61 of the housing can be rotated on the third axis 63. The third axis 63 may consist of a second axis of rotation, and the door 4 may be rotated on the third axis 63 rotate in the second direction of rotation.

As shown in Fig.4, the fixing part 65 of the door and the mounting portion 61 of the housing can not be bent on the third axis 63, when the door 4 is rotated in the first rotation direction. When the door 4 is rotated in the first rotation direction, the relative movement does not occur between the mounting part 65 of the door and the mounting part 61 of the housing. As a consequence, the connection between the mounting part 65 of the door and the mounting part 61 of the housing can be maintained without changes.

The recess 42 is recessed at a preset depth, may be formed on the lower end of the door 4, and the recess 42 may form a given space, in which fit the mounting portion 61 of the housing. As shown in Fig.5, the recess 42 may form a sufficient space so as not to create a clash between the mounting part 61 of the casing and the lower end of the door 4 and the door 4 is rotated in the second direction of rotation.

When the door is rotated in the second direction of rotation, the lower end 4 of the door can be moved to the housing 3. In the specified space should be formed between the door 4 and the housing 3 to rotate the door 4 in the second direction of rotation. For this purpose, the recess 42 may be about risovana at the lower end of the door 4, and the door 4, respectively, can be rotated, since the space formed by the recess 42. As shown in Fig.5, when the door 4 is rotated in the second direction of rotation, the mounting part 65 of the door and the mounting portion 61 of the body can be bent at the third axis 63. In other words, when the door 4 is rotated in the second direction of rotation, the door 4 may be rotated in the first direction of rotation and, accordingly, the door 4 may be rotated on the second axis 651.

Fig.6 depicts the inner part of the outer frame located in the door, is shown in Fig.1. Below will be described an implementation option with reference to Fig.6.

In Fig.6, the inner frame 43 excluded from door 4 for opening the various elements mounted on the outer frame 41.

The line in the perpendicular direction relative to the door 4 on the left side, it could mean the first axis (A) of rotation, and the line in the horizontal direction on the lower end of the site, could mean a second axis (B) of rotation. In other words, the first hinge 5 can be located on the upper left end section and the second hinge 6 can be located on the lower left end of the plot, and the third hinge 7 can be located on the lower-end segment. In this paper Fig.6 depicts only the elements that are installed on the door. In the later of this from the first hinge 5, the second hinge 6 and the third hinge 7 any, installed in the housing 3, can not be shown.

Fasteners 1000 and 1100 may be located on the door 4 for fixing the door 4 on the first rotation axis or the second axis of rotation when the door 4 is rotated at the first rotation axis or the second axis of rotation.

Fasteners 1000 and 1100 may include the first 1000 bar and the second bar 1100, which can be moved by operation of the clamping element 990. In short, when the user moves the presser element 990 after grabbing him by the arm, the first bar 1000 may move to the left, and the second bar 1100 may move down.

The first coupling element 1140, passing longitudinally, can be located on the end of the first rod 1000 and the second coupling element 1142 may be located on the end of the first connecting element 1140, so that horizontal movement of the first bar 1000 may be transmitted to the first connecting element 1140 and the second connecting element 1142.

The first coupling element 1140 and the second coupling element 1142 may have limited trajectory to move only in the horizontal direction. As a result, the distance of horizontal movement of the first bar 1000 may be transmitted to the first connecting element 1140 and the second is the connecting element 1142, the way it is.

Inclined surface 1101 may be formed on the upper end of the second rod 1100, and the second bar 1100 may move down relative to the distance of horizontal movement of the second coupling element 1142. Inclined surface 1101 may have a conical shape, which is already up and wider down. When the second coupling element 1142 moves to the right, the second bar 1100 may move down.

In other words, the horizontal displacement of the second coupling element 1142 may change to vertical movement of the second bar 1100. In the first bar 1000 may be moved horizontally, and the second rod can be moved vertically relative movement of the clamping element 990.

When the safety bar 1200 may be located on the door 4 to limit movement of the clamping element 990. The safety bar 1200 can record the present position of the clamping element 990 to maintain the clamping element 990 pressed position or nepryamogo position.

The first 1000 bar, the second bar 1100 and the safety bar 1200 will be described in detail with reference to other drawings. Fig.7 is a front view illustrating the configuration of the first rod located on the outside of the door frame. Below will be described first W the Anga with reference to Fig.7.

The first bar 1000 may secure the door 4 and the housing 3 to maintain their connection status with the first axis of rotation when the door is rotated to the first rotation axis. Particularly, the first bar 1000 may secure the door 4, is connected to rotate with the casing 3, the first hinge 5, when the door 4 is rotated in the first direction of rotation.

The first bar 1000 may be located at the end of the clamping element 990, and the first bar 1000 may move when you move the clamping element 990. The first elastic element 1030 may be located on a given section of the first rod 1000 to return the first bar 1000 to its original position when the force is removed, attached to the first bar 1000. The first elastic element 1030 may be a torsion spring. In other words, the first elastic element 1030 can be stretched, because the first bar 1000 moves in the right direction if the force that moves the first rod 1000 right attached to the first elastic element 1030. If the force applied to the first bar 1000, shot, the first bar 1000 may move to the left to return to its original position.

The particular form of the first bar 1000 may be changed in accordance with the internal configuration of the door 4. However, the first bar 1000 may have a configuration that transmits the force generated in primn the m element 990, the first hinge 5.

Fig.8-10 illustrate key parts during operation of the first rod.

When the user tries to rotate the door 4 on the second axis of rotation, the door 4 will be released from the housing 3 on the first hinge. To rotate the door 4 in the second direction to rotate the door 4 is to be mounted can be rotated on the housing 3 on the first hinge 7.

First of all, the user can capture the presser element 990 recessed portion 992, shown in Fig.8, and he can push the lower end of the clamping element 990 to rotate the clamping element 990 in the clockwise direction. In other words, when the user applies force to the lower end of the clamping element 990, the lower end of the clamping element 990 can be moved towards the left as shown in Fig.8.

As shown in Fig.9, the end of the clamping element 990 may be pressed against the first bar 1000. The left direction of the arrow shown in Fig.8 may be identical to the direction of the arrow shown in Fig.9. When this protruding element 1002, the speaker tilted, can be formed on the end of the first rod 1000. When the end of the clamping element 990 presses the protruding element 1002, the end of the clamping element 990 should move down, and the protruding element 1002 may move to the right. In other words, peremeshany down clamping element 990 may change to move to the right of the first rod, 1000 due to the speaker element 1002.

As shown in Fig.10, the first bar 1000 may move to the right. As a result, the first receiving groove 531, containing the first axis 51 may be open, and the first axis 51 may be disconnected from the first receiving groove 531. As schematically illustrated in Fig.10, not shown, the first axis 51 is connected to the housing 3. However, the portion 53 to disconnect the first axis can be mounted on the door 4, and the first axis 51 can be mounted on the housing 3 for insertion into the first receiving groove 531 or disconnected from the first receiving groove 531.

When the first bar 1000 closes the first receiving groove 531, as shown in Fig.10, the first axis 51 can not detach from the first receiving groove 531, and, accordingly, the door 4 may be rotated on the first axis 51 relative to the housing 3. However, when the first bar 1000 is moved to the right by the action mentioned above, the first axis 51, placed in the first receiving groove 531, can be disconnected from the first receiving groove 531, and she can't connect with the door 4 and the housing 3 through the first hinge 5, which has a first axis 51.

In contrast to the steps mentioned above, when the presser element 990 is not pressed, the first axis 51 may be placed in the first receiving groove 531, and the end of the first receiving groove 531 can be closed by the first bar 1000.

In other words, when the user bytessent door 4 in the first direction of rotation, the door 4 is rotated on the first axis 51, partially located on the first axis of rotation. As a result, fixed position between the door 4 and the first axis 51 must be supported. In this case, the user can capture a recessed portion 992 hand, without pressing the presser element 990. Consequently, the presser element 990 is unable to move. In this case, since the presser element 990 is not pressed, the first bar 1000 may maintain a locked position and a closed position of the first receiving groove 531. As a result, the first axis 51 may form the first axis of rotation without disconnecting from the first receiving groove 531 to rotate the door 4 in the first direction of rotation.

Fig.11 illustrates a United position of the third hinge.

The third hinge 7 may include a fourth axis 713, forming a second axis of rotation, and the portion 73 to disconnect the fourth axis, with the second receiving groove 731 formed in it, to detach the fourth axis 713 from it. The fourth axis 713 may be located on the door 4, and part 73 to disconnect the fourth axis may be located on the housing 3, so that the fourth axis 713 can be disconnected from the portion 73 to disconnect the fourth axis.

In Fig.11 the door 4 closes the opening 37. Consequently, the fourth axis 713 can be completely absorbed in the second reception ka is avce 731. In this case, when the user rotates the door 4 in the first direction of rotation, the fourth axis 713 can be disconnected from the second receiving groove 731 in the horizontal direction. The second bar 1100 may not be close to the horizontal input of the second receiving groove 731. Consequently, the fourth axis 713 may not be faced with the second bar 1100, and it can be moved horizontally from the second receiving groove 731.

The cross-sectional area of the fourth axis 713 may have a first flat surface 714. The upper surface of the fourth axis 713 may have a first flat surface 714 formed in the shape of a 'D'. Alternatively, two flat surfaces may be located on both opposite areas of the cross section of the fourth axis 713.

Without the stop 74 may be formed in the second receiving groove 731 to stop rotation of the fourth axis 713 at a predetermined angle or more. In addition, the second flat surface 741 may be formed on the limiter 74 corresponding to the first flat surface 714. When the fourth axis 713 is rotated, the first flat surface 714 may come in contact with the second flat surface 741, and the rotation of the fourth axis 713 may be terminated.

Fig.12 illustrates that the second bar in Fig.11 moved down. Below will be described the second rod with Ref the Oh in Fig.12.

When the user tries to rotate the door 4 in the second direction of rotation, the user can press the pressing element 990, as shown in Fig.8 and 9. If the presser element 990 is pressed, the first bar 1000 may be moved to the right. The first coupling element 1140 and the second coupling element 1142 can be moved to the right along the first rod 1000, so that the second bar 1100 may be moved downward (see Fig.6).

If so, then the second bar 1100 may be moved to a lower position, shown in Fig.12, from the position shown in Fig.11. In the second bar 1100 may close the second receiving groove 731, and the fourth axis 713 can be prevented from detaching from the second receiving groove 731.

When the fourth axis 713 disconnected horizontally, this means that the door 4 is rotated in the first direction of rotation mentioned above. As a result, the door 4 can be prevented from simultaneous rotation in the first direction while it is rotated in the second direction of rotation.

In this case, the presser element 990 may be powered, and the first bar 1000 may also be moved to the right. The first axis 51 can be detached from the first receiving groove 531, as shown in Fig.10, and the door and the housing 3 can be disconnected from the first hinge . As a result, the door 4 may be rotated in the second direction of rotation.

Alternatively, when the user tries to rotate the door 4 in the first rotation direction, the presser element 990 is not able to snuggle up by the user. As a result, the first 1000 bar and the second bar 1100 may maintain its original position without actuation. In other words, the second bar 1100 may be moved down, as shown in Fig.12, but be placed in position as shown in Fig.11. Consequently, the fourth axis 713 can be detached from the second receiving groove 731 and the door 4 may be rotated in the first direction of rotation.

Fig.13 shows that the door of Fig.12 rotated in the second direction of rotation. Below will be described the door is rotated in the second direction of rotation with reference to Fig.13.

As shown in Fig.13, when the door 4 is rotated in the second direction of rotation, the fourth axis 713 and the second bar 1100, which are mounted on the door 4 may be rotated by the same angle after the door 4.

Thus, when the first flat surface 714 fourth axis 713 is in contact with the second flat surface 741 of the limiter 74, rotation of the fourth axis 713 can be prevented. The reason is that the first flat surface 714 and the second flat surface 741 are flat for preventing the treatment of rotation of the first flat surface 714 at a given angle relative to the second flat surface 741.

As a result, the door 4 can no longer be rotated and stopped.

The angle of rotation in the second direction to rotate the door 4 may be approximately 30 degrees. The angle may be changed in accordance with the convenience to the user.

Fig.14 is a conceptual schematic view illustrating a transformed example of Fig.11. Below will be described the converted example with reference to Fig.14.

In contrast to Fig.11, Fig.14 depicts the guide groove 732, which may be formed to the rotation direction of the end of the second bar 1100. Guide groove 732 may have a slightly curved surface. In other words, the portion 73 to disconnect the fourth axis may include a second receiving groove 731 and the guide groove 732.

When the door 4 is rotated in the second direction of rotation, the second bar 1100 may be limited to move along the guide groove 732. As a result, the end of the second bar 1100 may move freely without fixation, and noise or vibration can be reduced.

While the end of the guide groove 732 may send the second bar 1100 to move into position, providing a door stop 4 after turning in the second direction of rotation. In other words, the second bar 1100 may be stopped at the end of the guide groove 732 when p is pout flat surface 714 fourth axis 713 is in contact with the second flat surface 741.

Fig.15 depicts a configuration of the safety rod, and this configuration will be described with reference to Fig.15.

The safety bar 1200 may be located on the door 4 to limit movement of the clamping element 990. The end of the safety bar 1200 may be located adjacent to the clamping element 990. Spring 1204 compression can be located on the given section of the safety bar 1200 for the elastic support of the safety bar 1200. This spring 1204 compression may elastically support the safety bar 1200, moving to the right until the force will not be applied to the safety bar 1200.

The safety bar 1200 may include a protruding element 1202, protruding to a predetermined height for the formation of the inclined surface.

The first pin 1210 may be fixed to the inner frame 43 with the possibility of vertical movement. Auxiliary guide element can be located on the inner frame 43 to the first pin 1210 only for vertical movement.

The first pin 1210 may maintain contact with the speaker element 1202, and the position of the safety bar 1200 may move in accordance with the position of the first pin 1210 in contact with a protruding element 1202.

The first pin 1210 may h is partially protrude to the inner side of the door 4, and it can realize the vertical movement of the door 4 relative to Fig.15. In Fig.15 the first pin 1210 may move upward to contact with the protruding element 1202 to limit the safety bar 1200 from moving to the right.

The second pin 1220 may be located on the outer panel 33 of the housing 3 to compress the first pin 1210. The second pin 1220 may be at a predetermined height from the outer panel 33.

The first pin 1210 and the second pin 1220 may be independent elements. However, as shown in Fig.15, the first pin 1210 and the second pin 1220 can be in contact in the position of the door connected to the housing 3.

In the position shown in Fig.15, the safety bar 1200 may be moved to the left, and it cannot come in contact with the clamping element 990. As a result, the presser element 990 can move freely without collision with safety bar 1200.

Fig.16 is a schematic view of the disconnected position shown in Fig.15 from the housing. Fig.17 is a schematic view of the safety rod, the first pin and the second pin, shown in Fig.16.

In Fig.16 and 17, the distance between the outer panel 33 and the inner frame 43 of the door may be larger than the distance between them in Fig.15. In Fig.16 this means that the door 4 is rotated at a given angle in the second rotation direction, or the first example is the implementation of turn.

In the position shown in Fig.16 and 17, the second pin 1220 may be removed from the first pin 1210 to the second pin 1220 is not pressed, the first pin 1210. Because the second pin 1220 can't push the first pin, the first pin 1210 may be moved to its original position. The original position of the first pin 1210 may be located near the inner frame 43 in a downward direction relative to Fig.16.

The force that moves the first pin 1210 up, may be withdrawn, and the first pin 1210 may be moved down. The safety bar 1200 may be moved to the right under the action of the return force of the spring 1204 compression.

The safety bar 1200 may be moved to the right in the position shown in Fig.16, compared with the position shown in Fig.15. Consequently, the safety bar 1200 may come in contact with the clamping element 990. Specific examples of the safety bar 1200, which is connected with the clamping element 990 will be described below with reference to Fig.18 and 19. In the position shown in Fig.18 and 19, the movement of the clamping element 990 may be limited by the safety bar 1200.

In other words, when the door 4 is rotated at a given angle or more in the first rotation direction or the second direction of rotation when disconnected from the casing 3, as shown in Fig.16, the presser cell battery (included) is t 990 can be pressed through the efforts of the user, and the safety bar 1200 may limit the movement of the first rod 1000 and the second bar 1100.

The first pin 1210 may be embedded so as not to be open on the outer side of the door 4. When the first pin 1000 is on the outer side of the door 4, particularly, the inner frame 43, the first pin 1210 can catch the first pin 1210, when the user loads the linen into the hole 37.

If linen is engaged with the first pin 1210, the first pin 1210 can snuggle up to move left safety bar 1200, and, accordingly, the presser element 990 can move.

Fig.18 and 19 are schematic views illustrating a connected position between the safety bar and the clamping element shown in Fig.1. Below will be described the United position with reference to Fig.18 and 19.

As shown in Fig.18, the support ledge 996 can be formed on a given area of the clamping element 990, which is not pressed, and the safety bar 1200 can rely on the support ledge 996, configured to restrict movement of the clamping element 990. Fig.18 illustrates the safety bar 1200, which is displaced to the right by a specified distance from the position of Fig.16, and, accordingly, the safety bar 1200 can rely on the support ledge 996.

When the safety rod 120 rests on the supporting ledge 996, the presser element 990 can be restricted from moving relative to the direction of the arrow. The safety bar 1200 may be configured to move only the left and right (horizontally).

As shown in Fig.19, a through hole 998 may be formed to insert the safety bar 1200 in the depressed position of the clamping element 990.

In Fig.19 presser element 990 is rotated at a given angle in comparison with Fig.18. Fig.19 illustrates the position of the safety bar 1200, moved to the right by a specified distance from the position of Fig.16. Consequently, the safety bar 1200 can be inserted into the through hole 998.

When the safety bar 1200 rests on the supporting ledge 996 or inserted into a through hole 998, the presser element 990 is unable to move, even if pressed by the user.

In other words, the presser element 990 cannot be fixed in the position shown in Fig.15, and the user is free to press the presser element 990.

However, the door 4 can be opened from the housing 3 in the position shown in Fig.16, and the safety bar 1200 may be moved in the right direction.

Consequently, the user cannot press the presser element 990.

The presser element 990 is unable to move due to config the purpose of the safety bar 1200 in the position of the second pin 1220, not clamping the first pin 1210 after a partial rotation of the door 4 in the first rotation direction or the second rotation direction from the housing 3, even if the user applies force to the clamping element 990. As a result, the door can be prevented from simultaneous rotation in first and second directions of rotation, when the user actuates the presser element 990.

Fig.20 is a view in section, illustrating the position of the door in accordance with the embodiment, it is rotated in the second direction of rotation. Below will be described the position of the door with reference to Fig.20.

The tilting element 431 may be formed on the lower end of the door 4.

Especially, the tilting element 431 may be formed on the lower end of the inner frame 43, which is located on the door 4. The recess 42, mentioned above, may be formed on the area where is located the second hinge 6. On the contrary, the tilting element 431 may be formed approximately at the lower Central part of the door 4.

In other words, as shown in Fig.20, when the door 4 is rotated at a given angle in the second direction of rotation, an inclined element 431 may come in contact with the housing 3. That is, the tilting element 431 may come in contact with the outer panel 33 of the housing 3, and rotate the door 4 may be terminated. In other words, the door 4 may be rotated in the WTO is the first direction of rotation until while the tilting element 431 will not contact with the outer panel 33.

The lower end of the door 4 may be inclined element 431, tilted at a given angle, with non-rectangular corner, only to rotate the door 4 at a given angle in the second direction of rotation.

When, however, the damping part 1240 may be located on an inclined element 431 to absorb the impact generated by the door 4 and the housing 3. The damping part 1240 may be made of rubber, and she may have a flat surface, which is similar to the inclined element 431. However, the damping part 1240 may take various forms, only if it does not prevent the rotation of the door in the second direction of rotation.

Fig.21 is a schematic view illustrating the damping part, shown in Fig.20. Below will be described the damping part with reference to Fig.21.

Many of the damping parts 1240 may be positioned in the longitudinal direction of the inclined element 431. In contrast to Fig.21 of the damping part 1240 may be located on the housing 3, not on the inclined element 431. The damping part 1240 may be located in a position in which the tilting element 431 is faced with the casing 3, and the position of the damping part 1240 may vary.

Fig.22-25 - conceptual schematic views illustrating the damping portion in accordance with a variety of the options and implementation.

The damping part 1240 shown in Fig.22, may include a damping rod 433 made with the possibility of contact with the outer panel 33 of the case 3, when the door 4 is rotated in the second direction of rotation. Damping rod 433 may have a flat surface. In addition, the damping part 1240 may include a torsion spring 435, made with the possibility of the elastic support section between a sloped element 431 and the damping rod 433. When the rotational force applied to the torsion spring 435, torsion spring 435 can create a compressive force against the rotational force. Due to the speed of rotation of the door 4 can be reduced, while the door 4 is rotated.

In accordance with Fig.22, while the door 4 is rotated in the second rotation direction, the damping rod 433 may come in contact with the outer panel 33, and the impact generated by the collision between the door 4 and the housing 3 can be reduced due to the torsion spring.

The damping part 1240 shown in Fig.23, may be pneumatic or hydraulic spring. In other words, the gas or liquid that can be compressed or expanded, can be provided in the housing. When the damping part 1240 faces of the damping part 1240, gas or liquid, which is corpose, can be compressed, and the speed of rotation of the door 4 in the second direction of rotation can then be reduced. As a consequence, the shock generated between the door 4 and the housing 3 can be reduced.

The damping part 1240 shown in Fig.24, there may be a compression spring. Like the damping part 1240 in accordance with the variants of the implementation of the inclined element 431 may come in contact with the damping part 1240, when the door 4 is rotated in the second direction of rotation. After that, the tilting element 431 can compress the compression spring, and an inclined element 431 can compress the compression spring. Compression spring compression shock generated between the door 4 and the housing 3 can be absorbed.

The damping part 1240 shown in Fig.25, can be mounted on the second hinge 6 on the inclined element 431.

The second hinge 6 may include a fixing part 65 of the door mounted on the door 4, and the mounting portion 61 of the housing, fixed to the body 3. While flat washer 1244 and spring washer 1242 may be located at the end of the mounting part 61 of the housing.

In accordance with the embodiment depicted in Fig.25, the frictional force can be generated in the spring washer 1242, when the door 4 is rotated in the second direction of rotation. In other words, the frictional force can be generated in the second hinge 6 because fo what we spring washers 1242, when the door 4 is rotated, and the rotation speed of the door 4 may be reduced due to the generated friction force. As a result, the impact generated by the collision between the tilting element 431 and the housing 3, can be generated when the door 4 is rotated at high speed in the second direction of rotation.

Fig.26 is a conceptual schematic view illustrating the first rod in accordance with another embodiment, and the first rod in accordance with this embodiment will be described with reference to Fig.26.

In Fig.26, the frictional force generated in prijemnom element 990, can be transmitted to the first bar 1000 through the first connecting rod 1110 and the second connecting rod 1120.

The presser element 990 is rotatable on a horizontal axis of rotation, indicated by the dotted line at the bottom center. In other words, when the upper end of the clamping element 990 is moved to the outer frame 41, located in front of the door 4, the lower end of the clamping element 990 may be overcrowded to the rear surface of the door 4.

The first link 1110 can be rotated perpendicular to the axis of rotation, indicated by the dashed line, which is located on the door 4. At the end of the first scenes 1120 may be connected with the clamping element 990 is perpendicular to the horizontal axis of rotation, indicated by puncti the Noi line.

When the second connecting rod 1120 and the first bar 1000 may be connected to each other by the second connecting rod 1120, and moving the second scenes 1120 can be transmitted to the first bar 1000. The second connecting rod 1120 may be a bracket. The end of the second scenes 1120 may move during the movement of the first scenes 1110, and the other end of the second scenes 1120 can transmit the movement of the first bar 1000.

In accordance with the working version of the implementation depicted in Fig.26, when the user moves the presser element 990 along the arrow 'a', the lower end of the clamping element 990 can move on the axis of rotation along arrow 'b'. The presser element 990 may be mounted on a horizontal axis of rotation, indicated by the dotted line on the door 4, and an arrow 'a' may be opposite to the arrow 'b'.

Since the presser element 990 is connected with the first connecting rod 1110, the end of the first scenes 1110 can be moved along the arrow 'b' together with the lower end of the clamping element 990.

The first link 1110 may be mounted on a perpendicular axis of rotation, indicated by the dotted line on the door 4. When the end of the first scenes 1110 is moved along the arrow 'b', the other end of the first scenes 1110 can be moved along the arrow 'c'. The first link 1110 may be mounted on the door 4 to rotate on the axis of rotation, and consequently the direction of arrow 'b' prot is popolino direction of arrow 'c'. In other words, the direction of the arrow 'b' can mean the back side of the door 4, and the direction of the arrow 'c' can mean the front side of the door 4.

When the first connecting rod 1110 is moved along the direction of arrow 'c', the second connecting rod 1120 can be moved together with the first link 1110, and the first bar 1000 may move in the direction of arrow 'b'. When the presser element 990 is pressed, the first bar 1000 may move to the right, and the first receiving groove 531 may be open to disconnect the first axis 51 from the first receiving groove 531, as mentioned above.

If the presser element 990 is not pressed by the user, the first link 1110, the second connecting rod 1120 and the first 1000 bar can not be moved.

Various changes and modifications are possible in the items and/or locations under consideration of the combined device within the scope of the disclosure, drawings and appended claims. In addition to the changes and modifications of items and/or locations, alternative uses will also be clear to experts in the field of technology.

Below will be described the construction of drying device in accordance with another embodiment. With reference to Fig.27 and 28 of the drying device 2 in accordance with this embodiment may include a housing 21 of the drying device having su the safe compartment (20a), formed therein for drying items for drying (not shown). In this document drying section 20a may be given space in which is located a drum rotating at a rotation speed set in accordance with a predefined condition for drying, and the opening of a drying room can be opened to the outside through the holes 20 to load the items for drying, formed on the side surface of the housing 21.

Holes 20 to load the items for drying can be opened and closed by the door 200 is in the form of a rectangular plate. The window can be installed on the Central part of the door 200 to provide visibility into the drying compartment 20a on the outer side.

The door 200 may be pivotally connected to the housing 210 through the pivot point, and it can be selectively rotated to open and close in different directions.

As shown in Fig.27 and 28, the door 200 can be selectively opened and closed in the vertical (up and down) or horizontal direction (right and left).

This document will be described hinge made with the possibility of opening and closing with the possibility of rotation of the door 200 in a vertical or horizontal direction.

Hinge may include horizontal is Yu hinge part, made with a horizontal opening and closing doors, and a vertical hinge part is made with possibility of vertical opening and closing of the door 200. This area, located next to the hole 20 to load the items for drying formed in the housing 21 may be stepped from the outer peripheral surface of the housing 210, and a guide plate 22 may be formed on the stepped section to ensure tight contact with the inner surface of the outer side of the door 200.

With reference to Fig.28-31 vertical hinge part may include a second siteplease element 120 mounted on a predetermined area of the lower end next to the hole 20 to load the items for drying, a vertically rotatable and pivotally connected with the second hook 122 formed therein for inserting and detaching the second axis 221 of the second hinge 220 mounted on the lower end of the door, which will be described below in him and from him, the element 130 with an opening for rotation, mounted at the other lower end near the hole 20 to load the items for drying, with the housing 131 item with a hole for rotation for the formation of holes 132 for rotation therein, and a rotating element 230 installed at the other lower end of the door 200 with a spherical rotating ball 230, arr is used for insertion into the hole 132 for rotation, free rotation and the housing 231 of the rotating element mounted on the lower end of the door.

As shown in Fig.28 and 32, only tazapsidis ledge or many siteplease protrusions 250 may be formed on the door 200. The only groove for engagement or multiple grooves 23 for engagement may be formed on the guide plate 22 consisting of a body 21, near the hole 20 to load the items for drying, for engagement with the insert with only SitePlayer ledge or many saralaya protrusions 250.

The vertical angle of the opening/closing of the door 200 may form a right angle or less.

The horizontal angle of the opening/closing of the door 200 may be selectively pre-set a single value or multiple values.

In this case, referring to Fig.29a-29c, the second tazapsidis element 120 may include an axis 120a of rotation, having a fixing hole 120b formed on its outer peripheral surface located at a given distance from each other, the supporting element 121, pivotally connected with the axis 120a of rotation, surface, mounted on the guide plate 22, and the rotating element 120, pivotally connected with the axis 120a of rotation with locking protruding element 124 formed on its con is e for elastic insert in the locking hole 120b and detach from it, and with the second hook 123, jutting out from it.

In this document, referring to Fig.29b and 29c, the locking protruding element 124 may include a fixing hole 120b located at a given distance from each other in the circumferential direction of the axis 120a of rotation, hole 124c formed on the inner peripheral surface of the element 122a to insert formed on the rotating element 120 for insertion axis 120a of turning him in, spring 124b installed in the hole 124c, and the locking ball 124a connected to the spring 124b, for insertion into one of the locking holes 120b.

As a result, when the rotating element 122 is rotated, the locking ball 124a may be inserted into one of the locking holes 2120b, and the angle of the opening/closing of the door relative to the guide plate 22 can be supported.

Referring to Fig.33-35, the horizontal hinge part may include a first hook element 111 mounted on the upper end area of the guide plate 22 near the opening 20 to load the items for drying, and the first hook element 111 has a first hook 112 formed therein, the first hinge element 210 mounted on the upper end section of the door 200, with the first axis 211 turn, inserted into the first hook 112 and detachable therefrom, and the second fixed the element 220, mounted on the lower end section of the door 220 mounted on the lower end section of the door 200, with the second axis 221 of the rotation. Here the second axis 221 of the rotation can rotate when engaged with the second hook 123 of the second SitePlayer element 120 mentioned above.

Then will describe the process of opening/closing doors, turning in a vertical or horizontal direction with reference to the configuration described above.

Vertical opening/closing door

Referring to Fig.27-31, when the door is opened and closed vertically, the door 200 can be rotated for opening and closing at its lower end as the axis of rotation. In other words, both the lower end of the door can be rotated.

In detail, referring to Fig.28, 30a and 30b, rotating the ball 232 of the rotating element 230, which is located at the other end of the door 200, is inserted into the hole 132 for rotation, formed at the other end of the guide plate 22, can make free rotation. Referring to Fig.33a and 33b, the second axis 221 of the rotation of the second hinge element 220 located at the end of the door 200 can be hooked with the possibility of inserting the second hook 123 of the second SitePlayer element 120, pivotally connected to the end of the guide plate 22, and it can make vertical rotation.

The door 200 can be rotated OS is turning, passing through the lower end of the door for vertical opening and closing.

When the door 200, which may be vertically opened and closed hermetically closes the opening 20 to load the items for drying, the door 200 can maintain a sealed state (closed state).

In other words, as shown in Fig.31, the first axis 211 of the rotation of the first hinge element 210 is located on the upper end of the door 200 can be hooked with the possibility of inserting the first hook 112 of the first SitePlayer element 110 formed on the end of the guide plate 22. Referring to Fig.36, lots saralaya protrusions 250, located on the inner surface of the door 200 may be hooked with many grooves 23 for engagement formed on the guide plate 22, and the door 200 can maintain a closed position.

The horizontal process of opening/closing the door

Referring to Fig.32-36, when the door opens and closes horizontally lateral side of the door may be the axis of rotation of the door for horizontal opening and closing the door. More specifically, the first axis 211 of the rotation of the first hinge element 210 is located on the upper end of the door 200 can rotate in the engaged position with the possibility of inserting the first hook 112 of the first SitePlayer element 110 located on the top is the end of the guide plate 22. In addition, as shown in Fig.33a and 38, the second axis 221 of the rotation of the second hinge element 220 located at the lower end of the door 200 can rotate in the engaged position with the possibility of inserting the second hook 123 of the second SitePlayer element 120 located at the lower end of the guide plate. As a result, the first and second axis 211 and 221 of the rotation may form one and the same axis of rotation.

As a result, the door 200 can be rotated on the axis of rotation passing through the side door 200 to the horizontal opening and closing.

When horizontally opening and closing the door 200 is hermetically closes the opening 20 to load the items for drying, the door 200 can maintain a sealed state (closed position).

In other words, as mentioned above, the first axis 211 of the rotation of the first hinge element 210 is located on the upper end of the door 200 can be hooked with the possibility of inserting the first hook 112 of the first SitePlayer element 110 formed on the upper end of the guide plate 22. In addition, as shown in Fig.36, lots siteplease protrusions 250, located on the inner side surface of the door 200 may be hooked with many grooves 23 for engagement formed on the guide plate 22, so that the door 200 can support closed SOS is the right.

Below is described a device for processing sheets, comprising a drying device 2 having the configuration mentioned above, and the washing machine 1, connected to each other.

Referring to Fig.27, known washing machine 1 may include a housing 10 of a washing machine having a Laundry room with washing up in it. Hole 12 to load the items for drying may be formed on the upper section of the housing 10 to open the top outer side to the washing compartment, and the cover 11 may be connected with a hole 12 for loading items for drying for opening and closing the opening 12.

A drying device 2 in accordance with the embodiment mentioned above, can be installed next to the body 10 of the washing machine. In this document, the housing 10 of the washing machine and the housing 21 of the drying device can be made as one piece with each other or they can be connected to each other by means of auxiliary connecting means (not shown).

Referring to the configuration described above, the items of Laundry can be loaded into the compartment for Laundry through the opening 12 to load the items for washing. In other words, the items of Laundry can be loaded in the vertical (up and down) direction.

The items of Laundry can be unloaded through the hole at back is their 12 for loading items to be laundered in a vertical direction after the washing process, includes wash cycle and the cycle of rapid rotation.

Consequently, washed items of Laundry can be loaded into the drying device 2 as subjects for drying for drying.

Thus the subjects for drying can be loaded into the drying compartment through the opening 20 to load the items for drying, open on the outside by opening the door 200 that is connected to the side surface of the housing 21 of the drying device in accordance with the embodiment.

When the door 200 can be rotated for opening and closing at its lower end as the axis of rotation. When the items for drying load in the drying compartment 20a, the door can be opened at the position inclined downwards. In this paper the design and the way the vertical opening/closing of the door 200 described above, and therefore, their description will be omitted.

When the door 200 is rotated in the provision of education pre-set angle of the opening/closing down the inner surface of the door 200 may form a slope.

As a result, the items for drying washed in the washing machine 1, can fall from the top section is inclined at an angle open door 200, and falling objects for drying can be loaded into the drying compartment 20a through the hole 20 to download the predmetov for drying along the inner surface of the door 200, gently sloping towards the hole 20 to load the items for drying.

In other words, the reason why the door 200, a vertically open and close, turns down to form angle is to smoothly guide the items for drying to the hole 20 to load the items for drying along the inner inclined surface of the door 200.

Although not shown, the guide wall may be additionally formed on each lateral area of the inner surface of the door 200 to the sliding direction of the items for drying to the hole 20 to load the items for drying without falling on the outside. When closing the door 200, the hole for the insert may be formed on the guide plate 22 for insertion into it of the guide walls, protruding from each lateral area of the inner surface of the door 200.

After loading the items for drying in the drying compartment 20a in accordance with the method of sliding in a downward direction, the door 200 can be closed to seal the holes 20 to load the items for drying.

A drying device 2 can for drying objects to be dried, loaded into the drying compartment 20a in accordance with the conditions of drying.

After drying the items for drying may be uploaded to external CT is Ron through the hole 20 to load the items for drying.

Thus, referring to Fig.32, the door 200 in accordance with this embodiment can be rotated to open and close in a horizontal direction. As a result, the door can be opened in a horizontal direction in the case of unloading items for drying.

As a result, in the case of unloading items for drying the user can smoothly unload the items for drying, placed in a drying 20a, through the opening 20 to load the items for drying.

Below is described a device for processing sheets in accordance with yet another embodiment with reference to the accompanying drawings.

While the options for implementation were described with reference to some illustrative embodiments, it should be understood that numerous other modifications and embodiments can be carried out by specialists in the art that will fall within the essence and scope of the principles of the present disclosure.

Detail may be made reference to specific embodiments of, and examples of which can be illustrated in the accompanying drawings, where like reference position can be used on the drawings to refer to same or similar elements.

Fig.37 is a perspective view of the device for processing sheets in with the accordance with another embodiment. The device 100 for processing sheets in accordance with this embodiment may include a housing 3 having office (R) to accommodate linen, and a hole 37 for a load of Laundry, made with the possibility of the load of Laundry in the Department to accommodate linen, 4 door, configured to open and close the openings 37 and hinge 5, 6 and 7, is arranged to provide rotation of the door 4 for opening and closing holes in different directions.

Case 3 can determine the appearance of the device for processing sheets, and a hole 37 for the Laundry load may be formed through the outer panel 33, located on the side of the hull, for a message with the office (R) to accommodate the linen.

Part 39 to accommodate the locking protrusion may be located on the outer panel 33 to accommodate the locking projection 47, which is located on the door 4. The locking protrusion 47 of the door 4 can fit in the part 39 to accommodate the locking protrusion located on the housing, so that the door 4 can open and close the opening to the Laundry load.

While the panel 31 of the control can be located on the housing 3 to provide user input commands in device for processing linen.

Hinge 5, 6 and 7 may form the first axis (A) of rotation to rotate the door for QCD is itia and close the holes 37 and the second axis (B) rotate to rotate the door 4 for opening and closing the openings 37 in the direction other than the direction of the first axis (A) of rotation.

The first axis of rotation can be formed using the first hinge 5 and the second hinge 6. The second axis of rotation can be formed by means of the second hinge 6 and the third hinge 7.

In Fig.37 the first axis (A) of rotation can be formed in the longitudinal direction of the housing 3 (the vertical axis of rotation)and the second axis (B) of rotation can be formed in the direction of the width of the chassis (horizontal axis of rotation). However, the location of the first axis of rotation and the location of the second axis of rotation may not necessarily limited to those depicted in Fig.2. In other words, the first axis of rotation and the second axis of rotation can be located in various locations of the body, only if they provide rotation of the door in different directions to open holes (only if the first axis of rotation and the second axis of rotation to form a pre-determined angle).

In this document, as shown in Fig.37 (b), the second axis of rotation can be located in the direction of the width of the hull to ensure the tilt of the door relative to the lower end of the hole 37. In this case, it may be a result of the effective load of Laundry caused by the tilting of the door, which will be described below.

The door 4 may include an inner frame 43 located relative to the outer panel 33, and the outer frame 41 that is connected with the inner frame for the education profile of the door 4.

The door may further include a transparent portion 45 located with the possibility of inserting into the hole 37. Transparent portion 45 can prevent lingerie, located in the Department (R) to accommodate linen, from the exit holes for the Laundry load, and it may also allow the user to see the office (R) to accommodate the linen during operation of the device for the processing of linen.

Below will be described in detail, the connecting structure between the pivot node and a door in accordance with this embodiment with reference to Fig.38.

The inner frame 43 and the transparent part 45 are excluded from the doors, is shown in Fig.38 for a description of the connecting structure between the pivot node and the door.

Hinge may include a first hinge 5 having a first axis, consisting of the first axis (A) of rotation for connecting the door and the enclosure 3, and detach the door from the housing 3, the second hinge 6 having a second axis, consisting of the first axis (A) rotate together with the first axis, and third axis, consisting of the second axis (B) of rotation, and the third joint 7 having a fourth axis, consisting of the second axis (B) rotate together with the third axis for connecting door 4 from the housing 3 and detach the door 4 from the housing 3.

In other words, the second hinge may be secured to the frame and door. The first hinge 5 and the third hinge 7 can selectively connecting door 4 with the case.

As a result, the door 4 may be rotated by the first axis (A) of rotation based on selection by a user to open and close the openings 37 (see Fig.37(a)), or it can rotate on the second axis (B) of rotation for opening and closing the openings 37 (see Fig.37(b)).

The first hinge 5 may include a first axis located in any of the case 3 and door 4, and the portion 53 to disconnect the first axis, located on the other of the housing and the door, to detach the first axis.

Fig.38 depicts the first axis 51, located on the outer panel 33 of the housing, and the portion 53 to disconnect the first axis, located on the door.

The first axis 51 may be located on the right upper end of the outer panel 33 for the formation of the first axis (A) of rotation.

Part 53 to disconnect the first axis may include a groove 531 to accommodate the axis to accommodate the first axis 51, part 533 to open/close grooves for opening and closing grooves to accommodate the axis portion 535 to the elastic support portion for opening/closing for the elastic support portion for opening/closing the grooves. Part 535 to the elastic support portion for opening/closing can fit in the portion 533 for opening/closing the grooves in Fig.39. The first axis 51 and the portion 53 to disconnect the first of which will be described below with reference to Fig.39.

The second hinge 6 may include a second axis 651 provided corresponding to the first axis of the first hinge 5 for formation of the first axis (A) of rotation and a third axis 63, forming a second axis (B) of turn.

In detail, the second hinge 6 may be installed at the point of intersection of the first axis (A) of rotation and the second axis (B) of rotation. The second hinge 6 may include a mounting portion 61 of the housing, fixed to the outer panel 33, and the fixing part 65 of the door mounted on the door 4, connected to rotate with the mounting part 61 of the housing through a third axis 63.

The second axis 651 may be located in the mounting part 65 of the door and the door 4 may be mounted to rotate on the second axis 651.

As a result, the door 4 may be rotated by the first axis (A) of rotation formed by the first axis 51 and the second axis 651.

When this fixing part 65 of the door may be connected with the mounting part 61 of the housing with a third axis 63, forming a second axis (B) of turn.

The second hinge 6 may further include a supporting element 653 hinge, one end of which is located on the housing and the other end connected to the mounting part 65 of the door to move forward from the housing. Supporting element 653 hinge can be carried out from the mounting part 65 of the door back and down with the formation of small curvature.

Supporting element 653 is Amira can be made with the possibility of adjusting the angle of opening of the door, when the door 4 is rotated on the second axis (B) of rotation for opening holes 37, and it can be connected with the part to adjust the tilt of the door (8, see Fig.40), which will be described below.

While supporting element 653 hinge may include a flange 657 support element of the hinge to prevent disconnection of the support element 653 hinge from the body (outer panel), when the door 4 is rotated on the second axis (B) of turn.

The third hinge 7 may include part 71 for the formation of an axis fixed on any of the outer panel 33 and the door, and part 73 to disconnect axis located at the other of them, and some for the formation axis is detachable from it.

Fig.38 depicts a portion for the formation of the axis, located on the outer panel 33, and the portion 73 to disconnect axis located on the door 4. Below will be described the construction of the third hinge in accordance with the embodiment.

Part 71 for the formation of the axis may include a housing 711 mounted on the outer panel 33, and the fourth axis 713, protruding from the housing 711, for the formation of a second axis (B) rotate together with the third axis 63.

Part 73 to disconnect axis may include a groove 731 to accommodate the fourth axis located between the outer frame 41 and the inner frame 33, to accommodate the fourth axis, and a protrusion 733 for p is djergenia fourth axis, made with the possibility of maintaining the fourth axis 713, placed in the groove 731 to accommodate the fourth axis.

As a result, when the door 4 is rotated on the first axis (A) of rotation to the outer panel 33, the fourth axis 713 may fit in the groove 731 to accommodate the fourth axis and then be supported by the protrusion 733 to maintain the fourth axis.

Device for handling sheets having the above configuration can allow the user to rotate the door 4 on the first axis (A) of rotation or the second axis (B) of turn.

In other words, the position of the door, closing the hole 37, the first axis 51 of the first hinge may be inserted into the groove 731 to accommodate the axis formed in part for disconnecting the first axis and the fourth axis 713 third hinge can be inserted into the groove 731 to accommodate the fourth axis part to detach the axis.

As a result, when the user moves the side surface (S) of the door 4, the fourth axis 713 can be disconnected from the portion 73 to disconnect axis, and it is rotatable on the first axis (A) of rotation. When the user moves the top surface (T) of the door 4, the first axis 51 may be disconnected from the portion 53 to disconnect the first axis, and it can rotate on the second axis (B) of turn.

Thus, when the door is rotated to the second axis (B) of rotation, the third Sharn the R 7 may further include a supporting element 75 of the door to adjust the angle of the door opening 4.

The end of the support element 75 of the door may be located on the housing, and the other end can be located with the possibility of disconnection in part 73 to disconnect the axis.

The flange 754 may be formed on the end of the support element doors located on the frame, to prevent disconnection of the support element 75 of the door from the housing (outer panel), when the door is rotated to the second axis (B) of rotation. Detachable axle 751 may be located on the supporting element of a door, which is detachable from part 73 to disconnect the axis.

In this case, the portion 73 to disconnect axis may optionally include a groove 735 to accommodate the detachable axis to accommodate the detachable axis 751 and the support protrusion 737 detachable axis to maintain detachable axis 751 placed in the groove to accommodate the detachable axis.

In addition, part 73 to disconnect axis can optionally include a part for the elastic support of the support ledge (739, see Fig.40) for the elastic support of the support protrusion 733 fourth axis, and a support protrusion 737 detachable axis.

Supporting element 75 of the door and the support element 653 hinge can provide adjustment part 8 to adjust the tilt of the door, located on the frame 3, the opening angle of the door 4 when the door 4 is rotated on the second pivot axis.

the adjusting angle of the door opening, when the door 4 is rotated on the second axis (B) turn, can effect a smooth load of Laundry in the device 100 for processing linen, which is made with the possibility of drying clothes.

Will be described a device 100 for processing sheets in accordance with this embodiment, which is installed next to the device for processing linen only for washing.

Download lingerie in the office (R) to accommodate the linen will be very effective if the door is open at an angle of 30-60 degrees with the second axis (B) of rotation, when the user moves washed linen drying in a device for processing sheets in accordance with this embodiment. Especially, if the device for processing linen only for washing is a type of boot top, in which linen is loaded and unloaded through its upper part, the above effect can be maximized.

The protrusion 753 of the support element and the protrusion 655 supporting element hinge, detachable from part 8 to adjust the tilt of the door can be located on the supporting element 75 of the door and the supporting element 653 hinge, respectively, which must be connected with part 8 to adjust the tilt of the door to provide adjustment part 8 for tilt adjustment door opening angle of the door.

Fig.39 illustrates the displacement of the first hinge, the use of which has been created in this embodiment. Below will be described the displacement of the first hinge with reference to Fig.39.

In Fig.39(a) the door 4 is rotated on the second axis (B) of rotation. Consequently, the first axis 51 may not fit in the groove 531 to accommodate the axis, and it can be located on the outer side of the groove 531 to accommodate the axis, not in the groove 531 to accommodate the axis.

The first axis 51 can be supportive of circular cross section with a D-neck. In this document bearing a circular section with a D-shaped cut means that the cut surface is located on each of the opposite ends of the outer peripheral surface of the first axis or the end of the outer peripheral surface.

Fig.39(b) shows that the door 4 is hermetically closes the opening 37, and the first axis 51 can be fit in the groove 531 to accommodate the axis.

When the first axle 51 is placed in the groove 531 to accommodate the axis in the position shown in Fig.39(a), the cut surface of the first axis 51 can be pressed part 535 to the elastic support portion 533 for opening/closing the grooves. In other words, while the axle is inserted into the groove 531 to accommodate the axis portion 535 to the elastic support portion for opening/closing can be compressed. If the first axis 51 is fully inserted into the groove 531 to accommodate the axis portion 535 to the elastic support portion for opening/closing can be restored, and the first axis 51 can the t stop disconnecting from the grooves 531 to accommodate the axis under the action of a given force, as shown in Fig.43(b).

In other words, when the door is rotated to close the holes 37 in the position of opening the apertures 37 after turning on the second axis (B) rotation (see Fig.37(b) and Fig.39(a)), part 53 to disconnect the first axis, located on the door may be moved to the first axis 51, and the first axis can be inserted into the groove 531 to accommodate the axis part for disconnecting the first axis to change the position to the position shown in Fig.39(b).

In this case, the entrance grooves 531 to accommodate the axis, through which is inserted the first axis, can have a shape corresponding to the shape of the first axis 51. When the door 4 is rotated on the second axis (B) of rotation for closing the openings 37, the first axis 51 can be inserted into the groove 531 to accommodate the axis. However, when the door is rotated to the first axis (A) of rotation after insertion of the first axis in the groove 531 to accommodate the axis, the first axis 51 can be prevented from detaching from the grooves 531 to accommodate the axis. Fig.39(c) depicts the door 4 is rotated on the first axis (A) of rotation.

When the door 4 is rotated on the first axis (A) of rotation in the position of Fig.39(b), the first axis 51, mounted on the door 4, can't turn, but supports this provision. However, the portion 53 to disconnect the first axis can be rotated along the doors 4 and, respectively, the first axis 51 can be rotated to set the initial angle in the groove 531 to accommodate the axis. In this part 535 to the elastic support portion for opening/closing can elastically support portion 533 for opening/closing the grooves. Consequently, the first axis 51 can be rotated in the groove to accommodate the axle without removing it from the groove 531 to accommodate the axis.

In other words, when the door 4 is rotated on the second axis (B) of rotation of the first hinge 5 may be in the position shown in Fig.39(a). When the door 4 closes the opening 37, it can be moved to the position shown in Fig.39(b).

When the door 4 is rotated on the first axis (A) of rotation, it can be moved to the position shown in Fig.39(c).

Below will be described a specific construction of part 8 for tilt adjustment of the door with reference to Fig.40.

Fig.40 shows that the supporting element 75 of the door includes a part for tilt adjustment of the door with the supporting member 75 of the door, disconnect from it, and part of the tilt adjusting door with the control element 653 hinge, detachable from it (two for tilt adjustment of the door). Alternatively, one of the parts 8 to adjust the tilt of the door may be made detachable from the support element 75 of the door or of the support element 653 hinge.

For convenience of explanation in the description of designs parts for tilt adjustment of the door with a support element of a door, disconnect from it and parts for tilt adjustment of the door, with the control element 653 hinge, detachable from it, will be described piece design for angle adjustment of the door with the control element 653 hinge, detachable from it, as shown in Fig.40(b).

In other words, part 8 for tilt adjustment of the door used for the support element 653 hinge, can equally be used for part 8 to adjust the tilt of the door used for the support element 75 of the door. Part 8 to adjust the tilt of the door may be located on the housing 3 when mounted on the inner panel 35 located behind the outer panel 33. In this case, the part 8 to adjust the tilt of the door may include a locking element 81 fixed to the inner panel 35, detachable element 83, located with the ability to move in the locking element 81 and grooves 85a and 85b to accommodate the protrusion located on the detachable element, to accommodate the protrusion 655 supporting element hinge.

Many grooves 85a and 85b to accommodate the protrusion can be formed on the detachable element 83, which are located at a given distance from each other.

One of the grooves to accommodate the protrusion and the other of them can be located at a specified distance from each other to provide a pre-determined opening angle, when the protrusion 655 of the support element of the hinge, along the Yong-in grooves to accommodate the ledge.

Fig.40(b) depicts the groove 85a to accommodate the protrusion accommodating the protrusion 655 of the support element of the hinge when the door is closed, and the other groove 85b to accommodate the protrusion accommodating the protrusion 655 of the support element of the hinge when the door-opening angle of approximately 30 and 60 degrees.

This detachable element 83 may be supported in part 87 for elastic support relative to the locking element 81. This is intended to smooth disconnection of the protrusion 655 supporting element hinge from the detachable element 83.

Below will be described the movement of the support element 75 of the door, the support element 653 for hinge and part 8 to adjust the tilt of the door when the door 4 is rotated on the second axis (B) turning on the device for processing sheets with part 8 to adjust the tilt of the door.

First of all, referring to Fig.40(a)41(a) and 42(a)will be described movement of the third joint 7 and part 8 to adjust the tilt of the door. In Fig.41(a), the door 4 may be perpendicularly secured in the closed position of the hole 37. In Fig.42(a) the door can be rotated about 30 degrees on the second axis (B) of rotation. The door 4 is rotated approximately 85 degrees on the second axis (B) of turn.

As mentioned above, part 8 for tilt adjustment of the door can only be used for the support element 653 hinge, not on who I support element 75 of the door. However, the design using part 8 to adjust the tilt of the door even to the support element 75 of the door, will be described in Fig. 40(a)41(a) and 42(a).

When the door 4 closes the opening 37, as shown in Fig.40(a), the fourth axis 713 third hinge and detachable axle 751 of the support element doors can fit into the groove 731 to accommodate the fourth axis and the groove 735 to accommodate the detachable axis, respectively. The elastic force may be applied to the support protrusion 733 for the fourth axis, and a supporting protrusion 737 for detachable axis part 739 for the elastic support of the support ledge and the support protrusion 733 for the fourth axis and a support ledge for detachable axis can support a fourth axis, and detachable axis, respectively.

In addition, the protrusion 753 of the support element 75 of the door can fit into the groove 85a to accommodate the protrusion of part 8 to adjust the tilt of the door.

In this case, when the user moves the top surface (T, see Fig.38) the door, the door 4 may be rotated at the fourth axis 713, forming a second axis of rotation, and the end of the support element 75 of the door, attached to part 73 to disconnect the axis can be rotated.

When the end of the support element 75 of the door is rotated approximately 30 degrees, the protrusion 753 of the support element may fit into the groove 85b to accommodate the protrusion formed on the connected element when moving along the detachable element part 8 for tilt adjustment of the door (position, is depicted in Fig.41a). In other words, the protrusion 753 of the support element can be fixed in the groove 85b to accommodate the ledge, and then rotate the door 4 may be terminated.

Therefore, when the user rotates the door at a greater angle, in other words, when it applies a specified force sufficient to detach the protrusion 753 of the support element from the groove 85b to accommodate the protrusion, the protrusion 753 of the support element can be disconnected from the groove 85b to accommodate the protrusion, and the door 4 may be rotated. If the supporting element 75 of the door is disconnected from the part 8 to adjust the tilt of the door for opening the door, the flange 754 formed on the supporting element doors may come in contact with the rear surface of the outer panel 33 to maintain the door 4 (the position shown in Fig.42(a)).

In other words, when the user rotates the door on the second axis (B) of rotation, the protrusion 753 of the support element can consistently fit into grooves 85a and 85b to accommodate the protrusion or disconnect from them for fixing the angle of rotation of the door 4.

With reference to Fig.40(b)41(b) and 42(b) will be described movement of the second hinge 6 and part 8 to adjust the tilt of the door.

In Fig.40(b) the door 4 can be mounted perpendicular to and in the closed position of the hole 37. In Fig.41(b) the door can be rotated on the second axis (B) rotate the app is siteline 30 degrees. In Fig.42(b) the door 4 may be rotated on the second axis (B) rotation about 85 degrees.

When the door 4 closes the opening 37, the protrusion 655 supporting element hinge can hold the position fit into the groove 85a to accommodate the protrusion of part 8 for tilt adjustment of the door (the position shown in Fig.40(b)).

When the user moves the upper part (T) doors, the door 4 may be rotated on the third axis 63, forming a second axis (B) of rotation. When you rotate the door 4 tab 655 support element 653 joint may separate from the grooves 85a to accommodate the ledge, and, accordingly, it can move to the outer panel 33. After that, the protrusion 655 supporting element hinge can fit in the groove 85b to accommodate the protrusion (the position shown in Fig.41(b)). In this case, if established other grooves instead of the grooves 85b to accommodate the projection, the angle of rotation of the door can be fixed at different angles, and not approximately at 30 degrees.

When the user rotates the door 4 at a greater angle, that is, when the user applies a specified force sufficient to detach the protrusion 655 supporting element hinge groove 85b to accommodate the protrusion, the protrusion 655 support element joint may separate from the grooves 85b to accommodate the protrusion, and the door 4 may be rotated. If the protrusion 655 supporting ele is enta hinge detached from part 8 to adjust the tilt of the door for opening the door, flange 657 reference member formed on the supporting element doors may come in contact with the rear surface of the outer panel 33 to maintain the door 4 (the position shown in Fig.42(b)).

In other words, when the user rotates the door 4 on the second axis (B) of rotation, the protrusion 655 supporting element hinge can consistently fit into grooves 85a and 85b to accommodate the protrusion or detach from them, and the rotation angle of the door 4 can be fixed.

In addition, the device for processing sheets in accordance with this embodiment may further include a part for the elastic support of the support element for the application of effort to maintain the door flanges and 754 657 formed on the support elements, 653 and 75, respectively, when the door 4 is fully opened.

Fig.43 depicts only a portion for the elastic support of the support element located on the support element 75 of the door, and the part for the elastic support of the support element may be located on each support element of the door and the supporting element hinge.

Below will be described in part 771 and 773 for the elastic support of the support element located on the support element doors for ease of explanation.

Part for the elastic support of the support element may include an elastic portion 773 for the application reset Nalivayko efforts to the support element 75 of the door towards the inside of the housing, when the reference element 75 of the door detached from the outer panel 33.

In this case, the edge 771 may be additionally formed on the end of the support element 75 doors to connect the elastic part 773 with him. This should prevent a collision of the elastic part 773 with other devices located on the door, which can be generated when the elastic part 773 is connected to the supporting member 75 of the door.

When this part to adjust the tilt of the door can be changed in various ways.

Part for tilt adjustment of the door in accordance with this embodiment may include a fixing portion 82 located on the housing, and the groove 84 for receiving the locking part formed on the supporting element 75 of the door to accommodate the locking part 82.

The locking portion 82 may include a first fixing protrusion 821 having a given diameter, and the second locking tab 823, protruding from the first fixing protrusion having a smaller diameter than the diameter of the first fixing protrusion.

In addition, the first fixing protrusion 821 may be supported in part 825 for elastic support located in the gap formed between the outer panel 13 and the inner panel 15 of the housing 1.

The groove 84 for receiving the locking portion may include a groove 84 for the edenia first ledge for receiving the first locking protrusion 821 and groove 843 to accommodate the second ledge to accommodate the second fixing protrusion 821.

Groove 843 to accommodate the second protrusion may be configured to accommodate only the second fixing protrusion 823, and the groove 841 to accommodate the first protrusion may be configured to accommodate only the outer peripheral surface of the first fixing protrusion 821.

Additionally, at least, may be formed by grooves 42 841 to accommodate the first protrusion, and one of them may be located at a specified distance from each other.

The groove 84 to accommodate the fixing part shown in Fig.44, may include a groove 843 to accommodate the second protrusion to maintain the support element of the door, when the aperture is closed by the door, the groove 841a to accommodate the first protrusion to maintain the support element of the door when the door is open 30 degrees on the second axis of rotation, and the groove 841b to accommodate the first protrusion to maintain the support element of the door when the door 4 is opened at 90 degrees on the second axis (B) of turn.

The reason why the diameter of the second protrusion 823 smaller than the diameter of the first protrusion 821, is that it is difficult to form a groove that supports the weight of the door, in the gap between the groove 843 to accommodate the second protrusion and groove 841a to accommodate the first protrusion when the door-opening angle adjustable only the first protrusion 821.

Fig.44 shows that the groove 84 for vmeme the Oia fixing parts are formed only on the supporting element 75 of the door. However, in part for tilt adjustment of the door mentioned above, the groove 84 for receiving the locking part may be formed on the supporting element 653 hinge and the locking part 82 may be removable from the groove to accommodate the fixing part formed on the supporting element hinge.

A device for handling sheets having the above configuration, the door 4, is pivoted on a second axis of rotation, can be supported by the flange 754 and 657 formed on the supporting element of the door and the supporting element hinge, respectively. However, there may be a danger of detaching the detachable axis 751 of the support element for doors from part 73 to disconnect axis due to the weight of the door.

As a result, the device for processing sheets in accordance with this embodiment may optionally include a portion to lock the door to prevent detaching part 73 to disconnect axis and detachable axis 751 of the support element doors. Below will be described in part 9 to secure the door with reference to Fig.45.

Part 9 for fixing the door may include a connecting lug 93 to the support element, located at door 4, which is movable, which will be fixed on the supporting element of a door when the door is rotated to the second rotation axis.

While supporting portion 755 d is I the coupling protrusion may be located on the supporting element 75 of the door to support the connecting protrusion 93 to the support element on it. Reference part 755 for connecting protrusion may protrude from the support element 75 of the door, which will build on the part of 755 to support the connecting protrusion is in contact with the rotating doors.

During this movement of the connecting protrusion 93 to the support element may be provided with a Cam 91, which is located in the part 71 for the formation axis of the third hinge, and part 95 for the elastic support of the connecting protrusion located on the door 4 for the elastic support of the connecting protrusion 93 to the support element.

In other words, the connecting protrusion 93 to the support element may be located adjacent to the part 73 to disconnect axis, and it may be supported in part 95 for elastic support (see Fig.38). The Cam 91 may be located outside of the groove 731 to accommodate the fourth axis, formed in part 73 to disconnect axis, and it can be located below the connecting protrusion 93 to the support element, when the door 4 is closed.

In addition, the Cam 91 may be formed in a manner that provides the movement of the connecting protrusion 93 for the support element to the support element 75 of the door when the door 4 is rotated on the second pivot axis. When the Cam 9 cannot be rotated and still runs in the horizontal direction.

When the part 9 to lock the doors is the BOJ configuration, mentioned above, the door 4 may be rotated on the second axis (B) of rotation, and a connecting protrusion 93 to the support element can be moved along the outer peripheral surface of the Cam 91 inside the door 4 is nearly horizontal. As a result, when the part 95 for elastic maintain pressed, the connecting protrusion 93 to the support element can move to a supporting element 75 door

When the door is fully opened, the connecting protrusion 93 to the support element may come in contact with the supporting part 755 for connecting protrusion located on the supporting element of the door, and he can be stopped. As a result, the connecting protrusion 93 to the support element can prevent the rotation of the door 4 at a greater angle.

In addition, even when the door 4 is rotated on the second axis (B) rotation only for full opening of the hole 37, the device for processing linen can prevent detaching part 73 to disconnect axis located on the door, and detachable axis 751, located on the support element doors. The reason is that the door 4 can be disconnected from the device for processing sheets, when the door is rotated at a greater angle.

Thus, when the door 4 is rotated on the second axis (B) of rotation for closing the openings 37, the connecting protrusion 93 to the support element can move DNAs is ri doors part 95 for elastic support while maintaining contact with the outer peripheral surface of the Cam. When this external force applied outer peripheral surface of the Cam 91 may be removed from part 95 to the elastic support. As a consequence, part 95 for elastic support may recover under the action of the reducing efforts without compression. As a result, the connecting protrusion 93 to the support element can be disconnected from the supporting part of 755 for connecting ledge, and it can be changed.

The appearance of such phrases in various places in the description are not necessarily all refer to the same version of the implementation. In addition, when a particular feature, structure or characteristic described in connection with any embodiment, it is argued that a change to this feature, structure or characteristic in connection with other variants of implementation within the competence of the person skilled in the art. While the options for implementation were described with reference to some illustrative embodiments, it should be understood that numerous other modifications and embodiments can be carried out by experts in the field of technology, which are within the essence and scope of the principles of this disclosure. Any reference in this description to "one implementation", "option exercise", "example implementation", etc. means that concrete is the first sign, structure, or characteristic described in connection with the embodiment, it is included in at least one version of the implementation. More specifically, various changes and modifications are possible in the items and/or locations under consideration of the combined device in the scope of the present disclosure, drawings and appended claims. In addition to the changes and modifications of items and/or locations, alternative uses will also be clear to experts in the field of technology.

1. A device for processing sheets, containing
the casing is made with the possibility of the formation of its appearance, and the housing contains an opening for a load of Laundry, formed in it;
a door configured to open and close the openings to download underwear;
hinge containing the first axis of rotation to rotate the door in the first direction of rotation and the second axis of rotation to rotate in the second rotation direction, which is different from the first direction of rotation; and
the securing element configured to secure the door to the first rotation axis or the second axis of rotation when rotating the door.

2. A device for processing linen under item 1, in which the hinge further comprises a first hinge that includes a first axis forming a first axis of the surface to the company, and the part for disconnecting the first axis, having a first receiving groove formed in it.

3. A device for processing linen under item 2, wherein the fastening element includes the first arm is configured to open and close the first receiving groove.

4. A device for processing linen under item 1, in which the hinge further comprises a third hinge comprising a fourth axis, forming a second axis of rotation, and the portion to detach the fourth axis, with the second receiving groove formed in it, to detach the fourth axis from her.

5. A device for processing linen under item 4, in which the fastening element contains the second arm is configured to open and close the second receiving groove.

6. A device for processing linen under item 5, in which a guide groove is formed in part to detach the fourth axis direction of the end of the second rod to rotate.

7. A device for processing linen under item 6, in which the stopper is formed in the second receiving groove for stopping the rotation of the fourth axis.

8. A device for processing linen under item 7, in which the cross-sectional area of the fourth axis contains the first flat surface, and the stopper includes a second flat surface corresponding to the first flat surface.

9. A device for processing Belle is, contains
the casing is made with the possibility of the formation of its appearance, and the housing contains an opening for a load of Laundry, formed in it;
a door configured to open and close the openings to download underwear;
hinge containing the first axis of rotation to rotate the door in the first direction of rotation and the second axis of rotation to rotate in the second rotation direction, which is different from the first direction of rotation;
the securing element configured to secure the door to the first rotation axis or the second axis of rotation during rotation of the door; and
a clamping element is arranged to move the fastening element.

10. A device for processing linen under item 9, further comprising
the safety arm is configured to restrict movement of the clamping element.

11. A device for processing linen under item 10, in which a through hole is formed in prijemnom the element to insert the safety bar in the depressed position of the clamping element.

12. A device for processing linen under item 10, in which the supporting protrusion formed on prijemnom element to support the safety bars on it in napigator position of the clamping element to limit movement of the clamping element.

13. The device DL the processing of linen on p. 10, in which the protruding element formed on the safety bar, optionally containing
the first pin is made with the possibility of pressing the speaker element to move the safety bar; and
a second pin configured to contact the first pin.

14. A device for processing linen under item 13, in which the first pin mounted on the door and a second pin mounted on the body.

15. A device for processing linen on p. 14, in which the first pin is embedded so as not to be open on the outer side of the door.

16. A device for processing sheets, containing
the casing is made with the possibility of the formation of its appearance, and the housing contains an opening for a load of Laundry, formed in it;
a door configured to open and close the openings to the Laundry load; and
hinge containing the first axis of rotation to rotate the door in the first direction of rotation and the second axis of rotation to rotate in the second rotation direction, which is different from the first direction of rotation;
moreover, the tilting element is inclined at a given angle, is formed at the lower end of the door.

17. A device for processing linen under item 16, in which the tilting element is in contact with the housing, and rotation of the door stop when the door is rotated at a given angle in coronaridine of turn.

18. A device for processing linen on p. 17, further comprising
the damper part, designed to absorb shock generated when the tilting element is in contact with the body.

19. A device for processing linen under item 18, in which many of the damping parts are located on the inclined element or body.

20. A device for processing linen under item 16, in which the spring washer mounted on the second axis of rotation.



 

Same patents:

Washing machine // 2448208

FIELD: textiles, paper.

SUBSTANCE: washing machine is proposed comprising a housing open at the upper part, the upper closing element connected to the upper part of the housing and comprising an opening for loading and unloading of laundry through it, a cover node, coupled with the possibility of turning with the upper closing element for opening and closing the hole. The washing machine comprises a first hinge joint that connects the cover node with the upper closing element and reducing speed of closing the cover node. Also other versions of washing machines are proposed.

EFFECT: reduced speed of closing the cover node to mitigate the impact between the cover node and the upper closing element, which increases reliability of the washing machine.

37 cl, 18 dwg

FIELD: electricity.

SUBSTANCE: electric device contains body frame with working equipment installed in it and loading and unloading hole; door installed at body frame and used to close loading and unloading hole of working equipment; fixtures connecting door with body frame and providing door movement between close and open position. Connecting fixtures contain at least one first rail at the body frame; at least one first carrier sliding along the first rail and at least one second rail at the door of the same shape as the first rail; at least only second carrier connected to body frame and sliding along the second slide. Each rail includes the first curved section where the respective carrier can slide while the door approaches close position and the second section is directed tangentially to the first section at crossing point of sections; at that length of the second section is more than length of the first section.

EFFECT: ease of fabrication and use.

36 cl, 7 dwg

FIELD: consumer electronics.

SUBSTANCE: invention refers to the washing machines. Washing machine with upper loading contains the tub wheel rotating around horizontal axis placed inside the tank with the hole in the top, cover for opening/closing access to said tub wheel, outer frame with upper cover hinged in its rear part, locking unit for locking/unlocking the cover with upper surface of frame and outer control unit capable of controlling said locking unit. Outer control unit includes the button element located on front upper part of frame. Said cover is outfitted with elastic device for its lifting into open position at releasing and automatic braking device.

EFFECT: increased convenience of upper cover opening.

6 cl, 7 dwg

FIELD: textile, paper.

SUBSTANCE: laundry washer of drum type comprises cylindrical rotary drum, water tank, body and door arranged on front side of body. Door is made of door device having the first window, through which user may monitor inner space of rotary drum, and transparent cover of door installed at front side of door device to close door device. Door cover comprises multiple first engaging tabs protruding backwards on its back surface along external periphery of door cover. Door device comprises the first holes for tabs, which engage with the first protruding tabs by means of the first stops available at inner surface of door device. Decorative pad arranged between door device and door cover includes the second window, corresponding to the first window, and multiple second engaging tabs, protruding backwards at its back surface along external periphery of decorative pad. Door device comprises the second holes for tabs, which may engage with the second engaging tabs by means of the second stops available at inner surface of door device. Door cover on its surface and in area corresponding to at least first holes for tabs comprises parts of surface, through which light falling from inner space of door cover is scattered and transmitted.

EFFECT: simplified design and reduced cost of washing machine manufacturing.

7 cl, 8 dwg

FIELD: textile, paper.

SUBSTANCE: washing-drying machine comprises body, drum, loading hole to load and unload linen from drum, door to close loading hole, transparent part arranged in door to watch the linen, frame arranged around transparent part, and source of light installed in body or door. Washing/drying machine also comprises light guide arranged in frame and sending light from source of light to side surface of transparent part, and more than one points of optical wave guide, which are distributed along surfaces or in material of transparent part, sending light produced from light guide, providing for lighting of inner part of drum with the help of transparent part.

EFFECT: development of washing or drying machine, where inner part of drum is efficiently lit by low consumption of energy.

9 cl, 1 dwg

FIELD: textile, paper.

SUBSTANCE: tank for washing solution and washing drum rotated in washing solution tank are elastically suspended in machine body. Collar of elastic material provides for water-tight connection of edge of front loading hole of tank for washing solution with loading hole of body. Hatch that closes loading hole of body, has nozzle in the form of truncated cone at inner side, convex towards to inner part of drum. Surface of hatch nozzle has at least one cut, starting in the area of maximum diametre of truncated cone and forming increasing crescent-shaped surface, stretching along surface in direction of inner part of drum to area of minimum diametre of truncated cone.

EFFECT: increased reliability of washing machine operation.

8 cl, 10 dwg

FIELD: personal use articles.

SUBSTANCE: door of domestic electrical appliance, in particular washing, washing-drying or drying machine with frontal load includes several structural elements of thermoplastic. At least two of specified elements are connected to each other by means of welding. Door comprises back part made of ABS-plastic and provided with a hole surrounded with circular surface. Door may include the first, the second, the third and the fourth parts. At least the first, the second and the third parts are made of thermoplastic material. The first part has at least one hole and surrounding circular surface, and the fourth part has at least one circular surface. Method of door manufacturing includes the following stages, where: a) the fourth part is positioned inside hole of the first part so that circular surface of the fourth part contacts with circular surface of the first part; b) the second part is positioned relative to the first part; c) the second part is connected to the first part by means of welding of linear vibration type, and at the same time the fourth part is placed between the second part and the first part; d) the third part is positioned relative to the first part; e) the third part is connected to the first part by means of welding, at the same time the second part and the fourth part are placed between the third and the first parts.

EFFECT: elimination of deforming stresses generated in process of door unit assembly.

16 cl, 3 dwg

FIELD: textile industry.

SUBSTANCE: washing machine of drum type includes hatch, which is formed by unit of hatch having through opening. Using through opening user may observe washing process from outside. Besides washing machine comprises transparent cover of hatch, closing hatch unit. Multiple engagement eyes protruding backwards are arranged on back side of hatch cover periphery. Multiple stop holes of engagement for reception of engagement eyes and elastic engagement of eyes with engagement sections are arranged at hatch unit to prevent slippage of eyes. Eyes and openings form multiple fixed sections, which are tightly pressed, and hatch cover is fixed at hatch unit. Parts of hatch cover surface complying with fixed sections are arranged so that light is refracted or scattered inside, when light passes through hatch cover.

EFFECT: simplified design and reduced cost of washing machine manufacturing.

7 cl, 7 dwg

FIELD: private use articles.

SUBSTANCE: laundry washer of drum type consists of case, of washing drum functioning as drying hopper, of door block, of door opening button, of opening/closing actuating device and of locking device. The case has an aperture on its front side. The door block of a round shape closes the aperture of the case. The door opening button is equipped with the first pivoting shaft, the opening/closing actuating device is equipped with the second pivoting shaft and the device is designed to turn under hold down force applied to the door opening button. In the position of aperture case closing the locking device for fixation of the door block operates in interconnected motion with the opening/closing actuating device, and it releases the door block changing its closed state to an open one under hold down force applied the door opening button. The door block is oriented so, that normal of the first pivoting shaft is inclined relative to the second pivoting shaft and is directed to the centre of the door block.

EFFECT: facilitating high controllability of laundry washer due to decreased hold down force applied to control button.

2 cl, 9 dwg

FIELD: mechanics.

SUBSTANCE: door hinge is coupling member between door and front wall of washing machine. Hinge consists of boy and at least one lever, built-in into body. Body is connected to doorset of front wall at least by means of one lever, connected to door. Hinge is manufactured by method of casting of plastic material in corresponding mould.

EFFECT: creation of hinge durable enough, in order to withstand external action, and allowing low weight, that provides decreasing of total weight of washing machine.

7 cl, 7 dwg

FIELD: drying technique.

SUBSTANCE: locking unit is positioned in front panel of drying machine, on door of which machine hook is located, said hook being adapted for engagement with locking unit and disengagement therefrom. Locking unit has lock main body equipped with protrusions and retaining openings in its opposite sides, and lock cover having openings for accommodation of protrusions, and retaining openings provided at cover opposite sides. Protrusions are formed in active part protruding from carrier part of lock main body, and retaining openings are formed in carrier part, immediately under protrusions. Openings for accommodation of protrusions are provided in portion protruding from edge of cover lock planar portion, and retaining protrusions are formed at ends of lock cover protruding portion. On introducing of lock cover into main body of lock, protrusions become embraced with openings for accommodation of protrusions, and retaining protrusions are introduced into retaining openings. Such construction allows lock cover to be assembled with lock main body for one operation.

EFFECT: increased efficiency, simplified construction and reduced time for assembling of lock unit.

9 cl, 5 dwg

FIELD: personal demand item.

SUBSTANCE: washing/drying machine incorporates a complete set of doors capable of opening and closing for putting washing in and out. The complete set of doors includes a control card, which enables operating the washing/drying machine, one or more operating consoles connected with the operating control card, an external door, an inner door, there to the external door is attached, a transparent door arranged between the external and inner doors and a hinge, which is attached to the set of doors and provides its opening and closing by means of a cable from the source, which feeds the voltage, connected with the control card and/or operating console. The inner door contains a hinge slot, therein a hinge is placed, and at least two equiform slots disposed symmetrically on the both sides of the hinge slots for operating control card where operating control card and/or operating console is placed. The set of doors can be easily replaced to open and close the machine in required direction.

EFFECT: usability.

11 cl, 18 dwg

FIELD: mechanics.

SUBSTANCE: door hinge is coupling member between door and front wall of washing machine. Hinge consists of boy and at least one lever, built-in into body. Body is connected to doorset of front wall at least by means of one lever, connected to door. Hinge is manufactured by method of casting of plastic material in corresponding mould.

EFFECT: creation of hinge durable enough, in order to withstand external action, and allowing low weight, that provides decreasing of total weight of washing machine.

7 cl, 7 dwg

FIELD: private use articles.

SUBSTANCE: laundry washer of drum type consists of case, of washing drum functioning as drying hopper, of door block, of door opening button, of opening/closing actuating device and of locking device. The case has an aperture on its front side. The door block of a round shape closes the aperture of the case. The door opening button is equipped with the first pivoting shaft, the opening/closing actuating device is equipped with the second pivoting shaft and the device is designed to turn under hold down force applied to the door opening button. In the position of aperture case closing the locking device for fixation of the door block operates in interconnected motion with the opening/closing actuating device, and it releases the door block changing its closed state to an open one under hold down force applied the door opening button. The door block is oriented so, that normal of the first pivoting shaft is inclined relative to the second pivoting shaft and is directed to the centre of the door block.

EFFECT: facilitating high controllability of laundry washer due to decreased hold down force applied to control button.

2 cl, 9 dwg

FIELD: textile industry.

SUBSTANCE: washing machine of drum type includes hatch, which is formed by unit of hatch having through opening. Using through opening user may observe washing process from outside. Besides washing machine comprises transparent cover of hatch, closing hatch unit. Multiple engagement eyes protruding backwards are arranged on back side of hatch cover periphery. Multiple stop holes of engagement for reception of engagement eyes and elastic engagement of eyes with engagement sections are arranged at hatch unit to prevent slippage of eyes. Eyes and openings form multiple fixed sections, which are tightly pressed, and hatch cover is fixed at hatch unit. Parts of hatch cover surface complying with fixed sections are arranged so that light is refracted or scattered inside, when light passes through hatch cover.

EFFECT: simplified design and reduced cost of washing machine manufacturing.

7 cl, 7 dwg

FIELD: personal use articles.

SUBSTANCE: door of domestic electrical appliance, in particular washing, washing-drying or drying machine with frontal load includes several structural elements of thermoplastic. At least two of specified elements are connected to each other by means of welding. Door comprises back part made of ABS-plastic and provided with a hole surrounded with circular surface. Door may include the first, the second, the third and the fourth parts. At least the first, the second and the third parts are made of thermoplastic material. The first part has at least one hole and surrounding circular surface, and the fourth part has at least one circular surface. Method of door manufacturing includes the following stages, where: a) the fourth part is positioned inside hole of the first part so that circular surface of the fourth part contacts with circular surface of the first part; b) the second part is positioned relative to the first part; c) the second part is connected to the first part by means of welding of linear vibration type, and at the same time the fourth part is placed between the second part and the first part; d) the third part is positioned relative to the first part; e) the third part is connected to the first part by means of welding, at the same time the second part and the fourth part are placed between the third and the first parts.

EFFECT: elimination of deforming stresses generated in process of door unit assembly.

16 cl, 3 dwg

FIELD: textile, paper.

SUBSTANCE: tank for washing solution and washing drum rotated in washing solution tank are elastically suspended in machine body. Collar of elastic material provides for water-tight connection of edge of front loading hole of tank for washing solution with loading hole of body. Hatch that closes loading hole of body, has nozzle in the form of truncated cone at inner side, convex towards to inner part of drum. Surface of hatch nozzle has at least one cut, starting in the area of maximum diametre of truncated cone and forming increasing crescent-shaped surface, stretching along surface in direction of inner part of drum to area of minimum diametre of truncated cone.

EFFECT: increased reliability of washing machine operation.

8 cl, 10 dwg

FIELD: textile, paper.

SUBSTANCE: washing-drying machine comprises body, drum, loading hole to load and unload linen from drum, door to close loading hole, transparent part arranged in door to watch the linen, frame arranged around transparent part, and source of light installed in body or door. Washing/drying machine also comprises light guide arranged in frame and sending light from source of light to side surface of transparent part, and more than one points of optical wave guide, which are distributed along surfaces or in material of transparent part, sending light produced from light guide, providing for lighting of inner part of drum with the help of transparent part.

EFFECT: development of washing or drying machine, where inner part of drum is efficiently lit by low consumption of energy.

9 cl, 1 dwg

FIELD: textile, paper.

SUBSTANCE: laundry washer of drum type comprises cylindrical rotary drum, water tank, body and door arranged on front side of body. Door is made of door device having the first window, through which user may monitor inner space of rotary drum, and transparent cover of door installed at front side of door device to close door device. Door cover comprises multiple first engaging tabs protruding backwards on its back surface along external periphery of door cover. Door device comprises the first holes for tabs, which engage with the first protruding tabs by means of the first stops available at inner surface of door device. Decorative pad arranged between door device and door cover includes the second window, corresponding to the first window, and multiple second engaging tabs, protruding backwards at its back surface along external periphery of decorative pad. Door device comprises the second holes for tabs, which may engage with the second engaging tabs by means of the second stops available at inner surface of door device. Door cover on its surface and in area corresponding to at least first holes for tabs comprises parts of surface, through which light falling from inner space of door cover is scattered and transmitted.

EFFECT: simplified design and reduced cost of washing machine manufacturing.

7 cl, 8 dwg

FIELD: consumer electronics.

SUBSTANCE: invention refers to the washing machines. Washing machine with upper loading contains the tub wheel rotating around horizontal axis placed inside the tank with the hole in the top, cover for opening/closing access to said tub wheel, outer frame with upper cover hinged in its rear part, locking unit for locking/unlocking the cover with upper surface of frame and outer control unit capable of controlling said locking unit. Outer control unit includes the button element located on front upper part of frame. Said cover is outfitted with elastic device for its lifting into open position at releasing and automatic braking device.

EFFECT: increased convenience of upper cover opening.

6 cl, 7 dwg

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