Laundry treatment device

FIELD: personal use articles.

SUBSTANCE: laundry treatment device may ensure laundry articles charging and discharging. The laundry treatment device may include a door that may selectively open and close the hole into the accommodation compartment formed in the body where laundry articles to be treated can be accommodated. The door may be used as a laundry guiding element when positioned at an angle relative to the body for directing laundry articles into the accommodation compartment and may be used as a shelf for retaining laundry articles thereon when positioned at a different angle relative to the body.

EFFECT: design improvement.

20 cl, 28 dwg

 

The technical field to which the invention relates

The present invention relates to a device for processing of linen, which ensures washing and/or drying of one or more Laundry items.

Background of the invention

The device for processing linen can be, for example, a washing machine for washing Laundry, a drying machine for drying clothes or combined washing machine/tumble dryer for Laundry and drying clothes. The housing may form an external view of the device for processing of linen, and a compartment to accommodate may be formed in the housing to accommodate the linen to be processed. The inlet may be formed in the housing to provide access to the interior of the compartment to accommodate, and the door can open and close the inlet.

In the device for processing linen top loading compartment to accommodate can be oriented in the direction perpendicular to the bottom of the housing, and the door may be located on top of the body. In the apparatus for treatment of Laundry with front loading compartment for receiving can be oriented in a direction parallel to the bottom of the housing and the door can be located in front of the body. In such a device for the treatment of Laundry with front loading can be difficult to adjust the angle p�gate door and/or the degree of opening of the inlet. In addition, the position of the door may require that the user bend for a load of Laundry in the office to accommodate or remove the linen from the Department to accommodate.

Disclosure of the invention

Technical problem

Accordingly, the present invention relates to a device for processing of linen, which essentially eliminates one or more problems due to limitations and disadvantages of prior art.

One purpose of the present invention is to provide a device for processing linen for easy loading and unloading of linen.

Another objective of the present invention is to provide a device for processing of linen in which the door has the function of adjusting the degree of opening of the inlet, thus, using the direction input of clothes in the office to accommodate.

Another objective of the present invention is to provide a device for processing linen, with a door that can function as a shelf for keeping underwear when I remove it from offices to accommodate.

Another objective of the present invention is to provide a device for processing sheets, having at least two doors, which have different directions of rotation.

Another objective of the present invention is to provide a device for processing linen, and�housego, at least two doors, which have different maximum angles of rotation.

Another objective of the present invention is to provide a device for processing sheets, having a single door, the direction of rotation of which varies, and, furthermore, the angle of which is adjustable.

The solution to the problem

To achieve these objectives and other advantages and in accordance with the present invention, as embodied and broadly described herein, the device for processing linen includes a housing having a hole formed therein to accommodate formed inside the housing and configured to accommodate the linen through the hole formed in the housing, and at least two doors connected to the housing for selectively opening and closing the openings formed in the housing.

In accordance with another aspect of the present invention, the device for processing linen includes a housing having a hole formed therein to accommodate formed inside the housing and configured to accommodate the linen through the hole formed in the housing, the first door that is connected rotatably with the housing, wherein the first door includes a through hole of the first door corresponding to the hole formed in the housing, the second door�, connected rotatably to the first door for selectively opening and closing the through holes of the first door and the locking mechanism includes a holder, a second door, which secures the second door to the first door, so that the first and second doors are rotated together during the rotation of the first door.

In accordance with another aspect of the present invention, the device for processing linen includes a housing having a hole formed therein to accommodate formed inside the housing and configured to accommodate the linen through the hole formed in the housing, the first door that is connected rotatably with the housing, wherein the first door includes a through hole of the first door formed therein, in communication with the hole formed in the housing, the second door that is connected rotatably with the first door for selectively opening and closing the through holes of the first door and the mechanism angle adjustment, which regulates the rotation angle of the first door.

In accordance with another aspect of the present invention, the device for processing linen includes a housing having a hole formed therein to accommodate formed inside the housing and configured to accommodate the linen through the hole, images�TES in the housing, the first door that is connected rotatably with the housing for selectively opening and closing the openings formed in the housing, and a mechanism for adjusting the angle which regulates the rotation angle of the first door.

Favorable results of the invention

The described device for processing linen for easy loading and unloading of linen.

The described device for processing of linen in which the door can adjust the degree of opening of the inlet for the direction of the load of clothes in the office to accommodate.

The described device for processing linen, with a door that can function as a shelf for keeping underwear when I remove it from offices to accommodate.

The described device for processing sheets, having at least two doors, which have different directions of rotation.

The described device for processing sheets, having at least two doors, which have different maximum angles of rotation.

The described device for processing sheets, having a single door, the direction of rotation of which varies and, in addition, the angle of which is adjustable.

Brief description of the drawings

Fig.1-3 are a perspective views of a device for processing linen with a door having an adjustable angle of rotation in accordance with the variants of implementation, as widely OPIE�ANO in this document;

Fig.4-6 - perspective views of the device for processing sheets, having two doors that have the same direction of rotation, but have different maximum angles of rotation in accordance with the variants of implementation, as broadly described in this document;

Fig.7-9 - perspective views of the device for processing sheets, having two doors, which have different directions of rotation in accordance with the variants of implementation, as broadly described in this document;

Fig.10A and 10B depict another embodiment of the device for processing sheets, having two doors, which have different directions of rotation;

Fig.11 and 12 is a perspective view with a spatial separation of elements and perspective view, respectively, of a door device for processing linen, shown in Fig.10;

Fig.13, 14A and 14B depict the hinge of the first door;

Fig.15A and 15B depict a supporting ledge for the door to maintain the first door;

Fig.16 depicts the lid hinge;

Fig.17 depicts another embodiment of a hinge of the first door;

Fig.18, 19 and 20A-20C depict another embodiment of a hinge of the first door;

Fig.21-23 depict another embodiment of a hinge of the first door;

Fig.24-26 depict the holder of the second door; and

Fig.27 and 28 depict the holder of the first door.

The best option TSR�of estline of the invention

The device 100 for processing linen, as embodied and broadly described herein may include a housing 1 forming the external appearance of the device 100 for processing linen, the housing 1 has an inlet 11, the separation S to be formed in the housing 1 to accommodate linen (object, subject to washing and/or drying) and the 3 door for selectively opening and closing the inlet opening 11.

As shown, for example, Fig.1-3, the inlet 11 may be formed in the front of the housing 1. In alternative embodiments, the inlet 11 may be formed on top of the body 1. For convenience of description the following detailed description is based on the assumption that the inlet 11 is formed at the front of the housing 1.

In a variant implementation, in which the device 100 for processing linen is used only for the purpose of drying, the separation S to accommodate may include only a drum mounted rotatably in the housing 1. However, in a variant implementation, in which the device 100 for processing linen also carries out the function of washing, separation S to accommodate may include a tank mounted in the housing 1, for keeping water for washing, and a drum mounted rotatably in the tank.

The device 100 for processing linen can also include process�'or which controls the execution of specific processes (e.g., washing and drying) processing linen, housed in the Department's to fit, using, for example, a drive system that rotates the drum, a water supply system that delivers water to the tank, pumping and drainage system, which empties the water from the tank to the outer side of the tank. The processor may also control the supply system of hot air, which delivers the heated air in linen, placed in the Department's to accommodate, for drying clothes, and the steam system, which removes odors and wrinkles from the clothes by supplying steam to the Laundry, or which can heat the water in the branch S to fit through the steam flow to the branch S to accommodate.

In specific locations, the door can be rotated left or right around a vertically oriented rotating axis fixed perpendicularly to the lower part of the housing 1, for the selective opening and closing of the inlet 11, prompting the user to lean forward for a load of Laundry in the branch of S for receiving and unloading of Laundry from the Department S to accommodate. In a variant implementation, shown in Fig.1-3, the door can be rotated around a horizontally oriented rotating shaft H, mounted parallel to the bottom of the housing 1, and the rotation angle of the door relative to the housing 1 m�may be regulated. In specific embodiments, the door can be rotated around a rotating axis H on at least two different rotation angle, thus adjusting the degree of opening of the inlet 11.

In the device 100 for processing linen, as embodied and broadly described in this document may have different number of doors, and each includes the above-described function. For example, a device 100 for processing linen can include only one door, as shown in Fig.1-3, or may include two or more doors, as shown in Fig.4-10.

The door, for example, the first door 38 in the specific embodiments as broadly described herein may include a transparent plate 395, so that the inner part of the branch S to be visible from the outside of the device 100 for processing linen. The door 38 may have at least two rotation angle. Fig.2 shows a case in which the door 38 is tilted away from the inlet 11 to the first angle A1, which may be the angle at which the door 38 may send underwear into the inlet 11, and Fig.3 shows a case in which the door 38 is tilted away from the inlet 11 to the second angle A2, which may be the angle at which the door 38 can keep your underwear on.

The device 100 for processing linen can also�locate the device to maintain a constant position of the door 38, which is tilted away from the inlet 11 to the first angle A1 and second angle A2. Examples of such devices may include, for example, the locking mechanism located on the door 38, and the receiving mechanism located on the body 1 for connecting the locking mechanism.

The locking mechanism can be connected with door 38, for example, rods, wire, springs (elastic element), or other means if necessary, and the housing 1 can contain at least two receiving mechanism for receiving the locking mechanism. When connecting the locking mechanism to foster mechanisms of the rotation angle of the door may be adjusted and held.

Device for keeping the position of the door 38 at the first angle A1 and second angle A2 may include a first door hinge.

As shown in Fig.2, in the case in which the door 38 is tilted away from the inlet opening 11 around a rotating axis H at the first angle A1, the user can put Laundry into the compartment S to fit, no bending, using the door 38 and the angle at which the door 38 is oriented, as a guide that directs linen to the inlet 11. Specifically, if the user directs underwear in a region formed between the inlet 11 and the door 38, which is located under the first angle A1, linen is moved to the input hole� 11 along the door 38, thus, supplied to the Department's to fit without the need to let the user down.

The first angle A1 can be set at different values if necessary for a specific device for processing linen and installation conditions. For example, the second angle A2 may be set in the range of approximately 30-60 degrees. If the angle of rotation of the door 38 is less than 30 degrees, the area between the door 38 and the inlet 11 is relatively narrow, causing difficulty for a load of Laundry in the branch S to accommodate. On the other hand, if the rotation angle of the door 38 is greater than 60 degrees, underwear, directed into the area between the door 38 and the inlet 11, it can be difficult to navigate to the inlet 11. In specific embodiments, the first angle A1 can be set in the range of 20-50 degrees, or other angles as needed for a particular application.

As shown in Fig.3, in the case in which the position of the door 38 is held at a second angle A2, the user can use the door 38 as a shelf for the unloading of the linen from the Department S to accommodate. In this case, the second angle A2 may be larger than the first angle A1 and therefore allows the user to place the linen removed from the Department's to fit on the door 38.

The second angle A2 can be set at different values� if necessary for a specific device for processing linen and installation conditions. For example, the second angle A2 may be set in the range of 60-90 degrees. If the second angle A2 is less than 60 degrees, linen can navigate back to the inlet 11. If the second angle A2 is greater than 90 degrees, the door can not support underwear, and underwear to fall to the floor.

In an alternative embodiment of the device 100 for processing linen, as embodied and broadly described herein may include two or more doors. In this case, the respective doors may have a difference from the point of view of at least one of the rotation direction and/or the maximum angle of rotation. Fig.4-6 shows a device for processing linen, with two doors that have the same direction of rotation, but have different maximum angles of rotation, and Fig.7-9 shows a device for processing sheets, having two doors, which have different directions of rotation.

The device 100 for processing linen, shown in Fig.7-9, may include a second door 39, mounted rotatably on the body 1 and the first door 38, mounted rotatably on the second door 39. The second door 39 can be rotated around a horizontally oriented rotating axis H2, as shown in Fig.6 mounted parallel to the bottom of the housing 1, and may include a through hole 393 W�Roy door, as shown in Fig.5 communication with the inlet 11. The first door 38 may be mounted rotatably on the second door 39 for selectively opening and closing the through-hole 393 second door. The first door 38 can be rotated around a horizontally oriented rotating axis H1, as shown in Fig.5, installed parallel to the rotating axis H2 of the second door 39, and may include a transparent plate 395, so that the inner part of the branch S to be visible from the outside of the device 100 for processing linen. The orientation of a rotational axis H1 of the first door 38 and the orientation of the rotating axis H2 of the second door 39 are parallel to each other, provides the same direction of rotation of the second door 39 and the first door 38.

When the rotation of the first door 38 through hole 393 second door is open and thus open the inlet 11. Since the first door 38 is mounted on the second door 39, the inlet 11 is open to the outside, even when the second door 39 is rotated. Essentially, the user can open the inlet 11 by means of rotation or of the first door 38 or the second door 39.

The second door 39 may have a maximum angle corresponding to the angle required for maintaining the linen when the Laundry is removed from the branch S to accommodate (i.e., the second angle A2), and the first �trust 38 may have a maximum angle of rotation, corresponding to the angle required for the direction of travel of linen to the inlet 11 when the supply of linen to the Department S to accommodate (i.e., the first angle A1).

That is, the maximum angle of rotation of the second door 39 may be set in the range of 60-90 degrees, and the maximum angle of rotation of the first door 38 may be set in the range of 30-60 degrees (or in some embodiments in the range of 20-50 degrees).

It should be noted that the above maximum angles of rotation of the first door 38 and the second door 39 is given as an example and, thus, may be set differently from the above ranges if necessary for a particular application.

Although Fig.4-6 illustrate a case in which the second door 39 is fixed rotatably on the body 1 and the first door 38, which has an angle smaller than the angle of rotation of the second door 39, mounted rotatably on the second door 39 may also be possible to first door 38 was mounted rotatably on the body 1 and the second door 39 was mounted rotatably on the first door 38. However, in this case, the size of the second door 39 may be less than the size of the first door 38, and, thus, the area available for holding clothes on her, may be adversely reduced.

The device 100 for clicks�processing linen can include a device (e.g., the first hinge door), which provides the rotation of the first door 38, which holds the position of the first door 38.

Fig.7-9 depict another variant implementation, in which the device 100 for processing linen includes at least two doors having different directions of rotation.

As shown in Fig.7-9, the door 3 may include a first door 38 having a horizontally oriented rotating axis H that is installed parallel to the bottom of the housing 1, and the second door 39 having a vertically oriented rotating axis V, mounted perpendicular to the bottom of the housing 1. In this case, the second door 39 may be mounted rotatably on the body 1 and the first door 38 may be mounted rotatably on the second door 39. Accordingly, when the rotation of the first door 38 through hole 393 second door is open, and therefore, the inlet 11 is open to the outside. Since the first door 38 is mounted on the second door 39, the inlet 11 is open to the outside, even when the second door 39 is rotated. Essentially, the user can open the input opening 11 through rotation of any one of the first door 38 and/or the second door 39 to ensure the loading and unloading of Laundry.

The first door 38 may be rotated through the angle necessary to direct the linen in the input resp�rsta 11, and angle required to maintain the linen on it when the Laundry is removed from the Department's to fit, and the second door 39 may be rotated by the angle necessary to ensure removal of underwear from the Department S to accommodate.

For example, the position of the first door 38 may be retained under the first angle A1 (30-60 degrees, or in some embodiments, the implementation of 20-50 degrees), and at a second angle A2 (60-90 degrees), and the second door 39 may be rotated by an angle that is less than the second angle A2.

It should be noted that the rotation angle of the first door 38 and the rotation angle of the second door 39 is given as an example and, thus, the rotation angles of the respective doors may be set differently from the above-described ranges.

The device 100 for processing linen can also comprise a device (for example, the first hinge door) for the rotation of the first door 38 and the retention of the first door 38 at a constant angle/position (i.e., at the first angle or the second angle) from the inlet opening 11.

As shown in Fig.10, the door 3 may include a first door 38, mounted rotatably on the body 1 and the second door 39, mounted rotatably on the first door 38. In this case, the first door 38 can be rotated around a horizontal rotating axis H, and the second door 39 can be rotated around the vertical�th rotary axis V.

Door handle can be provided to facilitate easy opening or closing each of the doors described above. In the case where there are two doors, the first door 38 may include a handle 387 of the first door and the second door 39 may include a handle 397 second door. Handle 387 of the first door and the handle 397 second door can be located in different positions.

For example, the handle 387 of the first door may be positioned in a direction parallel to the bottom of the housing 1, or the direction perpendicular to the bottom of the housing 1. Handle 397 second door can be positioned in a direction different from the direction parallel to the bottom of the housing 1, or the direction perpendicular to the bottom of the housing 1. The location of the handles 387 and 397 of the first and second doors, thus, allows the user to easily identify the door to be opened.

In the example implementation depicted in Fig.10, the handle 387 first door located on the first door 38, is mounted parallel to the bottom of the housing 1, and the handle 397 a second door, located on the second door 39, is mounted perpendicular to the bottom of the housing 1. This provides a convenient twist each door because the handle 387 of the first door and the handle 397 second door is parallel to the rotating axes of the doors 38 and 39.

The number of installed�x handles 387 and 397 of the first and second doors may vary. Although Fig.10 depicts two handles 387 of the first door and two handles 397 second door, the first door 38 may contain a single handle 387 of the first door and the second door 39 may contain a single knob 397 second door. Other locations may also be suitable. However, it should be noted that the relative position of the two handles 397 second door on two opposite sides of the second door 39 may eliminate the need to change the configuration of the second door 39, if the direction of rotation of the second door 39 is changed.

The direction of rotation of the second door 39 may be set in accordance with the user's choice. For example, although Fig.10 shows a configuration in which the second door 39 is turned to the right of the first door 38 to open the inlet opening 11, the second door 39 may be rotated to the left of the first door 38 to open the inlet opening 11 as needed. Accordingly, the relative position of the two handles 397 second door on two opposite sides of the second door 39 may facilitate the rotation of the second door 39, grip 397 second door regardless of the direction of rotation of the second door 39.

Below will be described a device for adjusting rotation and angle of rotation of the first door 38 and a device for the rotation of the second door 39.

Ustroystva 100 for processing linen, shown in Fig.1-3, in use, the hinge 8 of the first door to adjust the rotation and angle of rotation of the first door 38, whereas in the device 100 for processing linen, shown in Fig.4-10, use the hinge 9 with a second door to rotate the second door 39 in addition to the hinge 8 of the first door to adjust the rotation and angle of rotation of the first door 38.

In the device 100 for processing linen in Fig.1 the hinge 8 of the first door is located between the first door 38 and the housing 1. In the device 100 for processing linen in Fig.4 and 7, the hinge 8 of the first door is located between the first door 38 and the second door 39 and the hinge 9 of the second door is located between the second door 39 and the housing 1. In addition, the device 100 for processing linen in Fig.10 of the hinge 8 of the first door is located between the first door 38 and the housing 1, and the hinge 9 of the second door is located between the second door 39 and the first door 38.

Below, for convenience of description will be described the configuration of the hinge 8 of the first door hinge 9 and the second door on the base of the device 100 for processing linen, shown in Fig.10.

As shown in Fig.11, the door 3 according to this variant implementation, as broadly described in this document, includes the first door 38, which has a through hole 385 of the first door corresponding to the inlet 11, and is fixed rotatably on the body 1 and in�which the door 39, which is fixed rotatably on the first door 38 to open or close the through holes 385 of the first door.

The first door 38 may include a frame 381 of the first door, forming the appearance of the first door 38, and the cover of 383 first door frame 381 of the first door. In this case, a through hole 385 of the first door may include a through hole 3851 frame, drilled in the frame 381 of the first door, and a through hole 3853 cap, drilled in the lid 383 of the first door.

In addition, cap 383 of the first door may include a handle 387 first door, which is formed or in a direction parallel to the bottom of the housing 1 or in the direction perpendicular to the bottom of the housing 1. Fig.10 shows a case in which the handle 387 first door is in a direction parallel to the bottom of the housing 1.

The second door 39 may include a frame 391 second door, forming the appearance of the second door 39, the handle 397 a second door, located on at least one of opposite ends of the frame 391 of the second door, and a through hole 393 second door, drilled in the frame 391 second door. Transparent plate 395 can be inserted into the through-hole 393 second door.

The second door 39 may be secured to the first door 38 by a hinge 9 second door. The hinge 9 of the second door,as shown in Fig.10A, may include a mounting plate 91 of the first door mounted on the first door 38, the mounting plate 95 a second door mounted on the second door 39, and a rotary shaft 93 of the second door, mounted perpendicular to the bottom of the housing 1, and a rotary shaft 93 of the second door connects rotatably mounting the cover plate 91 of the first door and the mounting plate 95 of the second door.

It should be noted that the above configuration of the hinge 9 of the second door is given only as an example, and the hinge 9 of the second door may have various other configurations that can provide rotation of the second door 39.

As shown in Fig.12 and 13, the hinge 8 of the first door may include a rotary shaft 81 of the first door located between the frame 381 of the first door and lid 383 first door to position parallel to the bottom of the housing 1 and supporting element 83 of the rotary shaft, one end of which is fixed to the case 1 and the other end is connected with a rotation shaft 81 of the first door. A rotary shaft 81 of the first door can be connected to the first door 38 to facilitate rotation of the first door 38. Accordingly, the first door 38 can be rotated around a rotational axis 81 of the first door.

The hinge 8 of the first door may also include an elastic support element 82 of the door, which provides a slow turn� the first door 38, when a user tries to open the input opening 11, and facilitates the user to rotate the first door 38 with a little effort, when the user tries to close the input opening 11. Elastic support element 82 doors can have various shapes to provide the above functions. Fig.13 shows one example in which the elastic supporting member 82 is a torsion spring.

In this case, the torsion spring may be arranged to circle the outer periphery of the rotary shaft 81 of the first door. One end of the torsion spring may be secured to the first door 38 and the other end of the torsion spring can be fixed to the support element 83 of the rotating axis. For this purpose, the supporting element 83 of the rotary shaft may have a mounting hole 835 for spring, which is inserted in one end of the torsion spring, and the lid hinge 86 may be located on the first door for a secure grip the other end of the torsion spring.

The device 100 for processing linen can also comprise a device F for angle adjustment to adjust the angle of the first door 38. The device F for angle adjustment may include adjusting element 84 located on the supporting element 83 of the rotary shaft or the rotary shaft 81 of the first door, and a detachable element 85, located� on the first door 38 for connection with the possibility of disconnection with the adjusting element 84. In the example implementation depicted in Fig.13, the adjusting element 84 is located on the supporting element 83 of the rotary shaft, and a detachable element 85 is located on the first door 38 for connection with the possibility of disconnection with the adjusting element 84. In the example implementation depicted in Fig.17, the adjusting element 84 is located on a rotational axis 81 of the first door, and a detachable element 85 is located on the first door 38 for connection with the possibility of disconnection with the adjusting element 84.

Although Fig.13 depicts the adjusting element 84 in the form of a plurality of notches formed on the outer periphery of the support element 83 of the rotary shaft, the adjusting element 84 may have a plurality of protrusions protruding from the outer periphery of the support element 83 of the rotating axis. Other locations may also be suitable.

Assuming that the adjusting element 84 has a plurality of protrusions protruding from the outer periphery of the support element 83 of the rotary shaft, it should be noted that the detachable element 85 may be in the shape of the recess accommodating one of a plurality of protrusions formed on the supporting element 83 of the rotary shaft, when the rotation of the first door 38.

Specifically, the adjusting element 84 may include a first recess 841 and the second recess 843 formed on the outer periphery of�ornago element 83 of the rotary shaft, which are arranged at a predetermined distance from each other. The first recess 841 may be disposed for detachable connection element 85 when the first door 38 closes the inlet 11 and the second recess 843 can be located from the first recesses 841 on the distance of the first angle (e.g., 30-60 degrees, or 20 to 50 degrees).

Detachable element 85 may include a housing 851 detachable element, located on the first door 38 and is arranged to insert into the first notch 841 or second recess 843, and an elastic support element 853 of the housing, one end of which is fixed to the case 851 detachable element and the other end secured to the first door 38.

Below will be described with reference to Fig.14 method of adjustment of the angle of rotation of the first door using the adjusting element 84 and a detachable element 85.

When the first door 38 closes the inlet 11, building 851 detachable element is located in the first recess 841, thereby preventing unintentional rotation of the first door 38 in the position in which the external force is not applied.

However, when the user applies external force to the first door 38 by handle 387 first door, the first door 38 is rotated around a rotational axis 81 of the first door. Because the body 851 detachable element elastically supports the� first door 38 by a resilient support member 853 of the housing, case 851 detachable element moves from the first recess 841 second recess 842 of the adjusting element 84, when the first door 38 is rotated.

If the housing 851 detachable element was inserted into the second recess 843, the position of the first door 38 may be retained under the first angle A1, as shown in Fig.14A. In this position, the first door 38 may send linen to the inlet 11 and the branch S to accommodate.

When the user applies an additional external force to the first door 38, the first door 38 may additionally be rotated from the housing 1 at the second angle A2 (60-90 degrees), as shown in Fig.14B and 14C.

If the first door 38 is rotated to the second angle A2, the user can place the linen removed from the Department's to fit, on the first door 38. That is, the first door 38 may be used as a shelf when removing linen from the Department S to accommodate. For this purpose, the supporting element 83 of the rotary shaft can be configured to maintain the first door 38 when the first door 38 is rotated by the second angle A2.

Support element 83 of the rotary shaft may include a first stop 832 to prevent further rotation of the first door 38 at the upper limit of the second angle A2. The first door 38 may include a second stop 834, made with the possibility of entering into contact with feathers�th emphasis 832, when the first door 38 is rotated by the second angle A2.

The rotation of the first door 38 from the housing 1 at the second angle A2 can be carried by a resilient support member 82 of the door. The elastic supporting member 82 of the door may be, for example, a tension spring or a torsion spring. If the elastic supporting member 82 of the door is a tension spring, tension spring not stretched further, when the first door 38 is rotated by the second angle A2, the position of the first door 38 may be maintained at a second angle A2. If the elastic supporting member 82 of the door is the torsion spring, the inner periphery of the torsion spring is in contact with the outer periphery of the rotating shaft 81 of the first door when the first door 38 is rotated to the second angle A2, the position of the first door 38 may be retained when the second angle A2.

As shown in Fig.15, the support ledge 13 for door can be located on the housing 1 and the notch 3855 to accommodate the support protrusion may be formed on the lid 383 of the first door. The support ledge 13 for door may come in contact with the corresponding section of the first door 38 when the first door 38 is rotated by the second angle A2, thereby preventing rotation of the first door 38 at the second angle A2. Notch 3855 to accommodate the support protrusion forms a region in which fits the support ledge 13 for the door when the first door thakral inlet 111.

In addition, the elastic support element 82 of the door hinge 8 of the first door can provide sufficient elastic force for fixing the position of the first door 38 between the first angle A1 and second angle A2, as shown in Fig.14B, and thus, the first door 38 may be held in a position tilted away from the housing 1 at a third angle A3, as shown in Fig.14C.

The hinge 8 of the first door may also include the cover 86 of the hinge for securing the rotary shaft 81 of the first door frame 381 of the first door. Alternatively, if the elastic supporting member 82 of the door is the torsion spring, lid hinge 86 may be configured to consolidate as a rotational axis 81 of the first door, and an elastic support member 82 of the door frame 381 of the first door.

As shown in Fig.16, the cover 86 of the hinge may include a hole 861 for passage of the fastening element, which accommodates a fastening member, such as, for example, the bolt and the edge 863, made with the possibility of connection with the frame 381 of the first door. Rib 863 can be inserted into a slot 3815 formed on the lower section of the frame 381 is the first door to ensure the Assembly of the cover 86 of the hinge and reliable connection between the rotating axis 81 of the first door and the frame 381 of the first door.

Since a plurality of elements including a rotary shaft 81 of the first door and the elastic supporting element door, can be placed on the lid hinge 86, the position of the hole 861 for the adventures of the fastening element can be to some extent limited by the position of the rotary shaft 81 of the first door. In this situation, the rib 863 can securely fasten the above-mentioned elements arranged on the lid 86 of the hinge on the frame 381 of the first door without colliding with the inner elements of the cover 86 of the hinge.

As shown in Fig.13, if the hinge 8 of the first door includes a cover 86 of the hinge, the elastic support element 82 of the door can be secured to the first door 38 with the holder 862 springs, located on the cover 86 of the hinge, and an elastic support element 853 of the housing, located on the detachable element 85 may be secured to the first door 38 through the cover 86 of the hinge.

Fig.17 depicts another embodiment of a hinge 8 of the first door. In the hinge 8 of the first door shown in Fig.13, the adjusting element 84 is located on the outer periphery of the support element 83 of the rotary shaft and, under certain circumstances, may not provide sufficient force for detachable connection element 85, if the supporting element 83 of the rotary shaft is relatively thin. On the contrary, the adjusting element 84, shown in Fig.17, includes a casing 845 adjusting member mounted on the rotary shaft 8 of the first door and separated from the support member 83 of the rotating axis.

Case 845 adjusting element may include a first recess 846 and a second recess 847 formed on its outer periphery, wherein the first notch 846 and the second recess 847 located at a predetermined distance from each other.

In a variant implementation, shown in Fig.17, the thickness t2 of the housing 845 adjusting element may be greater than the thickness t1 of the support element 83 of the rotating axis. However, in alternative embodiments, the housing 845 adjusting element may be formed so that only the area on which is formed a first groove 846 and the second recess 847, has a thickness, the greater thickness t1 of the support element 83 of the rotating axis.

Case 845 of the adjusting element can also include a hole 848 for insertion of the spring into which is inserted one end of the elastic support member 82 of the door. Accordingly, the elastic support element 82 of the door can be fixed on the rotary shaft 81 of the first door by inserting at least one of the openings 835 for insertion of a spring formed on the supporting element 83 of the rotary shaft or hole 848 for insertion of a spring formed on the housing 845 of the adjusting element.

Detachable element 87 may include a housing 871 detachable element, located on the first door 38 and is arranged vstavkov the first viemu 846 or second recess 847, and the elastic supporting element 873 housing, one end of which is fixed to the first door 38 and the other end fixed on the casing 871 detachable element.

Accordingly, when the casing 871 detachable element is inserted into the first recess 846, the first door 38 may be retained in a closed position relative to the inlet opening 11. When the housing 871 detachable element is inserted into the second recess 847, the first door 38 may be retained under the first angle relative to the housing 1.

The position of the first door 38 may be maintained at a second angle with the support member 83 of the rotary shaft or the elastic support member 82 of the door. In addition, the position of the first door 38 may be retained under the third angle using the elastic forces of the elastic support member 82 of the door. In this document, the third angle may be defined as the angle between the first angle and the second angle. Signs of support element 83 of the rotary shaft and an elastic support member 82 of the door that hold the first door 38 at a second angle or the third angle, have been described above, and thus, their detailed description will be omitted below.

Fig.18 and 19 show another embodiment of a hinge 8 of the first door. In a variant implementation, shown in Fig.18 and 19, the hinge 8 of the first door can prevent the collision of the lower portion of the first door 38 to�cusom 1, when the first door 38 is rotated around a rotating axis installed parallel to the bottom of the housing 1. The housing 1 of the device for processing linen, as embodied and broadly described herein may include an outer casing 1a that forms appearance of the body 1 and the inner shell 1b, located at a predetermined distance from the outer casing 1a. In this case, the hinge 8 of the first door may include a fastening element 811 of the housing or bracket 811 housing fixed to the inner casing 1b, the fastening element 812 door or the bracket 812 door mounted on the first door 38, the base plate 813, protruding from the fastening element 811 of the housing to the outer housing 1a, and a lever mechanism 815, 816 and 817 for fastening with the possibility of rotation of the first door 38 on the base plate 813. A lever mechanism shown in Fig.18 and 19, includes a first lever 815, mounted rotatably on the base plate 813, the second lever 816, mounted rotatably on the first lever 815, with one end of the second lever 816 is fixed to a fixing element 812 door, and the third lever 817, one end of which is fixed to the first lever 815, and the other end fixed to a fixing element 812 doors. The free end of the second lever 816 is supported by a spiral spring 814. Coil spring 814 wound on kre�foreign axis 8135 springs located on the base plate 813, so that one end of a spiral spring 814 is mounted on the free end of the second lever 816.

Accordingly, with application of an external force to the first door 38 to open the inlet opening 11, as shown in Fig.19, the first lever 815 connected to the base plate 813, rotated clockwise, and the second arm 816 and the third lever 817 fixed on the first lever 815 is moved from the inner housing 1b. Because the second arm 816 and the third lever 817 is moved from the inner housing 1b, the first door 38, mounted on the first arm 816 and the third lever 817, moves from the outer shell 1a, which can prevent the collision of the lower end of the first door 38 with the outer casing 1a.

This effect of preventing collisions may be more apparent when the outer body 1a includes a region 17 to accommodate a door adapted to fit the 3 door in it. Specifically, if the outer body 1a includes a region 17 to accommodate a door adapted to fit in the door 3, the lower end of the door 3 may face region 17 to accommodate the door when rotating the first door 38 due to the thickness of the door 3. This embodiment of the hinge 8 of the first door can reduce the problem of collision.

The hinge 8 of the first door may also include � the device F for angle adjustment to adjust the angle of the first door 38. The device F for angle adjustment may include adjustment lever 818 for connecting the base plate 813 and the second lever 816 with each other, and a detachable element 819, located on the base plate 813, for connection with the possibility of disconnection with the adjustment lever 818.

As shown in Fig.20A-C, the adjustment lever 818 may be in the form of a rod. One end of the adjusting lever 818 may be mounted rotatably on the base plate 813, and the other end of the adjusting lever the lever 818 may be mounted rotatably on the second lever 816. In particular, one end of the adjusting lever 818 can be fixed on the base plate 813 in position between the fastening element 811 of the housing and the first lever 815.

The adjustment lever 818 may include a first recess 8181, second donation 8182 located at a predetermined distance from the first recess 8181, and the second recess 8182 has a diameter, the larger diameter of the first recesses 8181, and a third recess 8183 located at a predetermined distance from the second recesses 8182, and the third recess 8183 has the same diameter as the diameter of the second recesses 8182.

Detachable element 819 may include a housing 8191 detachable element and the elastic supporting element 8194, one end of which is fixed to the base plate 813 and the other end of sacral�n on the case 8191 detachable element. For this purpose, the base plate 813 may also include a mounting ledge for 8131 springs, which can be attached to the elastic support element 8194.

Case 8191 detachable element may include a first fixing protrusion 8192, having, for example, a disk shape, and the second protrusion 8193 formed on the surface of the first mounting ledge 8192. The second fixing protrusion 8193 can have the size to insert with the possibility of disconnection in the first recess 8181, and the first fixing protrusion 8192 may have a size for insertion with the possibility of disconnection in the second recess 8182 and the third recess 8183. When the first door 38 closes the inlet 11, the second fixing protrusion 8193 fitted into the first recess 8181 adjustment lever 8181, thereby preventing unintentional rotation of the first door 38 to open the inlet opening 11 until such time as there is no applied external force to the first door 38.

With application of an external force to the first door 38 so that the first door 38 is rotated from the inlet opening 11 in the housing 1, the adjustment lever 818 is rotated clockwise. When turning the adjusting lever 818 clockwise second mounting ledge 8193 is detached from the first recess 8181, and the first fixing protrusion 8192 is inserted into the second recess 8182. Thus, the position of the first door 38 m�may be withheld under the first angle (such as, for example, 30-60 20-50 degrees or degrees) to the direction of bedding in the compartment S to accommodate.

When the application of another external force to the first door 38, which is located under the first angle to rotate the first door 38 is farther from the housing 1, the adjustment lever 818 is additionally rotated clockwise, and the first fixing protrusion 8192 is inserted into the third recess 8183. If the first fixing protrusion 8192 was inserted into the third recess 8183, the position of the first door 38 is held at a second angle (60-90 degrees), as shown in Fig.19. Thus, the first door 38 may function as shelves to keep clothes when the Laundry is removed from the branch S to accommodate.

Detachable element 819 may also include supporting the fixing protrusion 8195, made with the possibility of connection with the supporting plate 813. In this case, the base plate 813 may also include a recess 8133 to accommodate the mounting tabs, as shown in Fig.19, in which can fit the reference mounting ledge 8195. In this case, the reference mounting ledge 8195 may protrude from one surface of the first mounting ledge 8192. Notch 8133 to accommodate the fixing protrusion may be formed in the base plate 813 a variety of ways, including, for example, cutting.

Fig.21 and 22 depict another embodiment of a hinge 8 of the first door of the mouth�STS for processing linen, as embodied and broadly described in this document. The door 3 may be the only door, or door 3 may include a first door 38, mounted rotatably on the body 1 and the second door 39, mounted rotatably on the first door 38. Assuming that secured the door 3, which includes the first door 38 and the second door 39, as shown in Fig.22, the first door 38 has a through hole 385 of the first door corresponding to the inlet 11, and the second door 39 is arranged to open or close the through holes 385 of the first door. Accordingly, the user can open the input opening 11 and through the first door 38 or can open the input opening 11 and through the second door 39.

In addition, as described above, the first door 38 and the second door 39 may have a difference from the point of view of at least one of the rotation direction and/or the maximum angle of rotation. For example, the first door 38 and the second door 39 may, respectively, include a rotating shaft, parallel to each other, and the maximum angle of rotation of the first door 38 may be greater than the maximum angle of rotation of the second door 39. In addition, the first door 38 and the second door 39 may have different directions of rotation. In this case, the first door 38 can be rotated around a rotating axis installed steam�lelno the lower part of the housing 1, and the second door 39 may be rotated around the rotating axis fixed perpendicularly to the lower part of the housing 1.

Thus, the device for processing linen, as embodied and broadly described herein may include a hinge 8 of the first door to secure the first door 38 on the housing 1, and a second hinge 9 of the door for securing the second door 39 on the first door 38. The hinge 9 of the second door may have a different shape, fixing the second door 39 so that the second door 39 rotates about the rotating axis fixed perpendicularly to the lower part of the housing 1. One example of a configuration of the hinge 9 of the second door has been described above with reference to Fig.10.

The hinge 8 of the first door may include a fastening element 821 of the housing or bracket 821 body mounted on the body 1, the fastening element 825 a door or bracket 825 door mounted on the first door 38, and a rotary shaft 823 of the first door, located parallel to the bottom of the housing 1, and a rotary shaft 823 connects the first door with the possibility of rotation of the fastening element 825 door and the fastening element 821 of the housing with each other. The fastening element 821 of the housing may include a mounting plate 8211 casing mounted on the body 1 and the fastening rib 8213 axis, located on the mounting plate 8211 corps, so rotating the OS� 823 of the first door mounted on the mounting rib 8213 axis. The fastening element 825 doors may take the form of, for example, cylindrical base, to which may be assigned to the first door 38. In this case, the rotating axis 823 of the first door may protrude from one end of the fixing part 825 of the door.

The device for processing linen can also comprise a device F for angle adjustment to adjust the angle of the first door 38. The device F for angle adjustment may include a guide element 827, located on the housing 1 and the connecting element 829, one end of which is fixed to a fixing element 825 door and the other end connected to the guide element 827. The connecting element 829 may include a housing 8291 connecting element having, for example, a bar shape, and the protrusion 8292 connecting element located on the housing 8291 connecting element for connection with the guide element 827.

Case 8291 connecting element can be fastened rotatably to a fixing element 825 door with the fastening element 828 of the connecting element. The fastening element 828 of the connecting element may include a housing 8281 mounting element connected with the fastening element 825 door, and the connecting axis 8282 connecting element for connecting the housing 8281 fastening element and the housing 829 connecting element with each other.

The guide element 827 may include a housing 8271 guiding element mounted on the body 1 and the first guide groove 8272, the second guide groove 8274 and a third guide groove 8276 formed on the casing 8211 guiding element. The first guidance groove 8272, the second guide groove 8274 and the third guide groove 8276 can be connected to each other to the moving direction of the protrusion 8292 connecting element located on the housing 8291 connecting element.

The second guide groove 8274 can pass in the direction of the height of the housing 1, i.e., vertically, and may include a second support section 8275 in its lower end. The lower portion of the second guide grooves 8274 can be bent to the first door 38 for the rotation of the first door 38.

The third guide groove 8276 can pass from the upper end of the second guide grooves 8274 to the first door 38 can be connected with the second guide groove 8274. The third guide groove 8276 can be separated from the second guide grooves 8274 first supporting section 8273, located between them. Guide 8277 may direct the movement of the protrusion 8292 connecting element by adjusting the width of the first guide grooves 8272 and third rail to�grooves 8276. The protrusion 8292 connecting element is in position S3, when the first door 38 closes the inlet 11. If the user applies the external force to the first door 38, the first door 38 is rotated around a rotating axis 823 of the first door, and the protrusion 8292 connecting element is moved from the third guide grooves 8276 first guide groove 8272 through guide 8277.

The protrusion 8292 connecting element, fitted into the first guide groove 8272, supported by the first supporting section 8273. When the protrusion 8292 connecting element is located at position S1, the position of the first door 38 is held under a first angle (e.g., 30-60 degrees, or 20 to 50 degrees), providing direction underwear first door 38 to the inlet 11.

If the user again pushes the first door 38 to further rotation of the first door 38, the protrusion 8292 connecting element is separated from the first support section 8273 and after this fit into the second guide groove 8274 under the action of gravity. If the protrusion 8292 connecting element was housed in the second guide groove 8274, the first door 38 is rotated up until the protrusion 8292 connecting element will not be supported on the second supporting section 8275 (i.e., as long as the protrusion 8292 not connecting element b�children is in position S2). Then, if the protrusion 8292 connecting element is in position S2, the position of the first door 38 may be maintained at a second angle (60-90 degrees), so that the first door can function as a shelf for keeping linen, remote from the branch S to accommodate.

If instead the user wants to rotate the first door 38 from the position at the first corner back to the body 1 to close the first door 38, and no further rotation of the first door 38 to position at a second angle, the user can simply push the first door 38 to the body 1 to move the protrusion 8292 connecting element from position S1 to position S3.

Similarly, if the user wants to rotate the first door 38 from the position under the second angle returning to the body 1 to close the inlet opening 11, the user can simply push the first door 38 to the body 1 to move the protrusion 8292 connecting element from position S2 to position S3.

As shown in Fig.23, when the first door 38 is located below the first angle, the protrusion 8292 connecting element may inadvertently move out of position S3 to S1 in the trajectory or D2 can be moved from position S3 to S2 sweep, D3, and do not roam from position S3 to S1 path D1. To solve this problem, the housing 8291 connective elements�TA may also include a ledge 8293 for fixing the position, which comes into contact with the fastening element 828 of the connecting element when the first door 38 closes the input opening 11, thereby temporarily fixing the position of the housing 8291 connecting element.

The ledge 8293 for fixing the position may protrude from one end of the housing 8291 connecting element. The ledge 8293 for fixing the position may face housing 8281 fastener when the first door 38 closes the inlet 11, but is not facing a housing 8281 fastener when the first door 38 begins to turn. Accordingly, when the first door 38 begins to rotate, the position of the body 8291 connecting element is temporarily fixed, and the protrusion 8292 connecting element located on the housing 8291 connecting element is moved from position S3 to S1 in the trajectory D1 through guide 8277. Case 8281 fastening element may include an elastic support element 8283 connecting element made with the possibility of a collision with a ledge 8293 for fixing the position, located on the body 8291 connecting element, thus elastically supporting ledge 8293 to maintain the position.

Although the above-described case 8271 guide element may be formed as a separate element, as shown in Fig.22, cor�us 8271 guiding element may include a guide groove and guide, formed on the inner peripheral surface of the housing 1.

Although the different embodiments of the hinge 8 of the first door shown in Fig.13, 17 and 18, have been described on the basis of a case in which the device for processing linen contains at least two doors, the hinge 8 of the first door, as embodied and broadly described herein, may be used in the device for processing sheets, having a single door, as shown in Fig.1.

Furthermore, although a device for angle adjustment described above on the basis of a case in which a device for adjusting the angle adjusts the angle of rotation of the first door, a device for angle adjustment can adjust the rotation angle of the second door.

In the device for processing sheets, comprising two doors, as embodied and broadly described herein, the user can open the input opening 11, using any of the two doors. Therefore, the device for preventing unintentional rotation of one of the two doors at the time of the alleged rotation of another door can be a top priority.

Below will be described the locking mechanism that prevents rotation of the second door 39 during the rotation of the first door 38, and which prevents rotation of the first door 38 during the rotation of the second door 39.

As shown in Fig.24 � 27, the locking mechanism may include a holder 45 of the second door to prevent disconnection of the second door 39 of the first door 38 during rotation of the first door 38, and the holder 47 of the first door to prevent disconnection of the first door 38 from the main body 1 during rotation of the second door 39.

More specifically, as shown in Fig.24, the holder 45 of the second door may move to connect with the second door 39, when the first door 38 is rotated to open the inlet opening 11, and can be moved to detach from the second door 39, when the first door 38 is rotated to close the inlet opening 11.

For this purpose, the holder 45 of the second door may include a second holder 453, located between the first door 38 and the second door 39 and coupled with the possibility of disconnection with the second door 39, the slot 451 for the second holder, located on the surface of the first door 38 to the direction of movement of the second holder 453, support element 455 of the second holder, one end of which is fixed to the second holder 453, and the other end fixed to the slot 451 of the second holder, and a clamping element 456 holder, located on the housing 1 to move the second holder 453.

The slot 451 of the second holder may include a housing 4511 nests located parallel to the surface of the first door 38,�voznoi hole 4513, drilled into the frame 4511 socket, the guide rib 4515, located on the rear surface of the housing 4511 nests for the formation of the gap to accommodate the second holder 453 and a mounting hole 4516, into which is inserted a fastening element for fastening the housing 4511 nests on the first door 38.

In this embodiment, the first door 38 may have a mounting hole 386 formed in a position corresponding to the fastening hole 4516.

The second holder 453 may include a housing 4531 second holder adapted to fit in the gap formed by the guide rib 4515 for reciprocating movement in the slot 451 of the second holder, hooks 4535 4533 and that protrude from the hull 4531 second holder for the insert in the through holes 4513 and the ledge 4537 holder, located on the housing 4531 second holder projection to the first door 38.

In this embodiment, the first door 38 may also include a hole 382 to accommodate the protrusion of the holder, which can fit the ledge 4537 holder. Hole 382 to accommodate the protrusion of the holder and a mounting hole 386 may be formed at opposite ends of the first door 38 with a through hole 385 of the first door located between them.

In particular, a mounting hole 386, formed�th at the first door 38, may be located in a position corresponding to the fastening hole 911 is formed on the hinge 9 of the second door. This can help modify the provisions of the second hinge 9, the doors, the holder 45 of the second door as needed.

Assuming that the hinge 9 of the second door is located on the left side in the example arrangement shown in Fig.24, the second door 39 can be rotated around the left side of the first door 38. Similarly, assuming that the hinge 9 of the second door is located on the right side in the example arrangement shown in Fig.24, the second door 39 can be rotated around the right side of the first door 38. Therefore, it is possible to change the direction of rotation of the second door 39 in the case of the need to adapt to the specific installation environment.

The hooks placed on the second holder 453, may include a first hook 4533 and the second hook 4535, each of which can be inserted with the possibility of taking in the field of 398 to accommodate the hooks formed on the second door 39, as shown in Fig.25. The first hook 4533 and the second hook 4535 may protrude from the housing 4531 second holder to the through holes 4513 and have curved distal ends. Through hole 4513, drilled into the frame 4511 nests can be made with the possibility of not only the education space to move� first hook 4533 and the second hook 4535, but also to the direction of movement of the first hook 4533 and the second hook 4535.

The presser element 456 holder may include a mounting plate 4561, mounted on the body 1, and a clamping ledge 4563, protruding from the mounting pads 4561, to insert into the hole 382 to accommodate the protrusion of the holder of the first door 38. When the first door 38 is rotated to close the inlet opening 11, the presser ledge 4563 may apply pressure to the ledge 4537 holder inserted through the opening 382 to accommodate the protrusion of the holder. To ensure the connection between the lip 4537 holder and the clamping ledge 4563, at least one of the clamping ledge 4563 and/or protrusion 4537 holder may have an inclined surface.

Support element 455 of the second holder may be, for example, by a spring, one end of which can be fixed to the body 4531 second holder and the other end, which can be fixed on the guide rib 4515.

Below with reference to Fig.25 will be described a method of operating the above-described holder 45 of the second door.

When the first door 38 is located on the housing 1 to close the inlet opening 11, the protrusion 4537 holder, the second holder 453, placed in the hole 382 to accommodate the protrusion of the holder of the first door 38, thereby supporting at the expense of the clamping ledge 4563 clamping �the item 456 holder. Since the first hook 4533 and the second hook 4535, respectively, placed in the field of 398 to accommodate the hooks of the second door 39, the second door 39 is fixed to the first door 38.

If the first door 38 is rotated from the main body 1 in response to the external force, for example, in the clockwise direction to facilitate the discussion, the holder 453 a second door, located on the first door 38 is also rotated clockwise, causing the ledge 4537 holder to separate from the clamping ledge 4563. If the ledge 4537 holder was detached from the clamping ledge 4563, building 4531 second holder is moved down through the support member 455 of the second holder. Since the support element 455 of the second holder is moved down, the first hook 4533 and the second hook 4535 securely linked to areas of 398 to accommodate the hooks of the second door 39, thereby preventing rotation of the second door 39 during the rotation of the first door 38.

Thus, when the first door 38 is in a closed position relative to the inlet opening 11, the protrusion 4537 holder moved up the first door 38 through the clamping ledge 4563, and thus the first hook 4533 and the second hook 4535 moved to detach from the areas of 398 to accommodate the hooks.

In specific embodiments, it is preferable that the first hook 4533 and the second hook 4535 were not painotuotteiden from areas of 398 to accommodate the hooks of the second door 39, even when the first door 38 is fully closed inlet 11 of the housing 1. This can prevent unintentional rotation and unintentional movement of the second door 39 from the housing 1 to the unintentional opening of the inlet 11 in the position in which no applied external force.

To allow easy disconnection of the first hook 4533 and the second hook 4535 from areas of 398 to accommodate the hooks when the applied external force to the second door 39, the first hook 4533 and the second hook 4535 may include an inclined surface.

Fig.26 depicts another embodiment of the holder 45 of the second door, which includes a sinker 4581, which connects the second door 39 and the first door 38.

The holder 45 of the second door in accordance with this variant implementation may include a second holder 457, located on the second door 39, the lever 458, one end of which is connected to the second holder 457, and the other end is fixed to the sinker 4581, and a rotary shaft 459 to maintain with the possibility of rotation of the lever 458. The second holder of 457 may include a housing 4571 second holder, made with the possibility of reciprocating movement of the second door 39, and the first hook 4573 and the second hook 4575 located on the body 4571 second holder, for inserts with opportunity then disconnect�texts in the field of 398 to accommodate the hooks of the first door 38.

When the first door 38 is rotated, the second trust 39, secured to the first door 38 is also rotated in the appropriate position, and sinker 4581, located on the second door 39, is rotated in the corresponding direction around the rotary shaft 459. When the sinker 4581 rotated in the corresponding direction, a second holder 457 is moved down to the second door 39, and the first hook 4533 and the second hook 4535 inserted in the field of 398 to accommodate the hooks of the first door 38. Thus, disconnecting the second door 39 of the first door 38 during rotation of the first door 38 can be prevented.

Below will be described the configuration of the holder 47 of the first door, which prevents the detachment of the first door 38 from the main body 1 during rotation of the second door 39.

As shown in Fig.27, the holder 47 of the first door may include a slot 471 of the first holder fixed to the housing 1, the first holder 473, made with the possibility of making reciprocating movement in the slot 47 of the first holder, for fixing the first door 38 on the housing 1, the support element 475 of the first holder located in the slot 475 of the first holder, to maintain elastic first holder 473, and a clamping element 476, located on the second door 39 for the application of pressure to the first holder 473.

The first door 38 may include�ü in the region 3811 to accommodate the hook configured to accommodate the hook 4733 of the first holder 473, and the hole 3813 to accommodate the clamping element and the hole 3831 to accommodate the hook to connect the field 3811 to accommodate the hook on the outer side of the first door 38. Region 3811 to accommodate the hook can be located on the frame 381 of the first door 38, the hole 3813 to accommodate the clamping element may be drilled in the frame 381 of the first door, and the hole 3831 to accommodate the hook may be drilled in the lid 383 of the first door 38.

The slot 471 of the first holder may include a housing 4713 socket holder mounted on the body 1, region 4711 to be formed in the housing 4713 socket holder, and a through hole 4712 socket for the connection region 4711 to fit with the outer side of the housing 4713 holder seat. Through hole 4712 nests can be located to match the hole 3831 to accommodate the hook, drilled in the lid 383 of the first door.

In specific embodiments, the housing 4713 socket holder can be fixed to the case 1 so as not to be open to the outer side. In alternative embodiments, the housing 4713 socket holder can be fixed on the surface of the body 1 to open on the outer side.

In the case in which the body 4713 holder seat fixed in the housing 1, cor�the condition 1 may be provided with a hole 15 for receiving the first holder, formed therein for connecting the through holes 4712 socket with hole 3831 to accommodate the hook.

The first holder 473 may include a housing 4731 first holder located in the area 4711 to fit the slot 471 of the first holder, and the hook 4733, located on the housing 4731 of the first holder. The hook 4733 can be opened to the outer side of the slot 471 of the first holder via the through hole 4712 nests and can be located in the field 3811 to accommodate the hook by means of passing through the opening 15 to accommodate the first holder and the hole 3831 to accommodate the hook.

In this case, the reference element 475 of the first holder may be located in the area 4711 to fit, thus elastically supporting the body 4713 first holder.

The presser element 476 may be positioned on the second door 39 to the ledge to the first door 38. In the case in which the second door 39 closes the input opening 11 (i.e., the second door 39 is fixed to the first door 38), the clamping element 476 is located in 3811 to accommodate the hook by means of passing through the hole 3813 to accommodate the clamping element. When the presser element 476 is inserted in the 3811 to accommodate the hook, a clamping element 476 applies pressure to the hook 4733 of the first holder 473, causing the first holder 473 to move to detach about� the first door 38.

To facilitate the connection between the clamping element 476 and hook 4733, at least one clamping element 476 and/or the hook 4733 may have an inclined surface.

Under certain circumstances, the hook 4733 not completely detached from the field 3811 to accommodate the hook, even if the clamping element 476 and the hook 4733 connected to each other to permit movement of the first holder 473-up of the housing 1. For this purpose, cap 383 of the first door may also include a bent section 3833, which is bent from the hole 3831 to accommodate the hook to the field 3811 to accommodate the hook, so that the bent section 3833 constantly in contact with the hook 4733, even if the hook 4733 moves the clamping element 476.

However, if the bent section 3833, and the hook 4733 reliably come into contact with each other, the bent section 3833 may interfere with the rotation of the first door 38. Thus, the hook 4733 may have an inclined surface to allow easy disconnection from the bent section 3833 upon rotation of the first door 38.

Accordingly, if the second door 39 is rotated in response to the external force, the clamping element 476, located on the second door 39 is removed from the field 3811 to accommodate the hook, thus causing the hook 476 disconnect from the clamping element 476. If the hook 4733 was disconnected from prizemnog� element 476, case 4731 of the first holder is moved down the field 4711 to accommodate the supporting member 475 of the first holder, such as, for example, a spring or the like.

As the case 4731 of the first holder is moved down the field 4711 to accommodate the hook 4733 moved down the field 3811 to accommodate the hook, thus securely coupling and preventing the first door 38 from detaching from the main body 1 during rotation of the second door 39.

Fig.28 shows another embodiment of the holder 47 of the first door includes a hook 477, located on the housing 1, the locking element 478, located rotatably on the handle 387 of the first door so that the hook 477 is connected with the possibility of disconnection with a locking element 478, and an elastic support element 479 locking elastic element for maintaining the locking element 478 while rotating the locking element 478. The first door 38 may include a hole 3831 to accommodate the hook to hold the hook 477, and the locking element 478 may include a hole 4781 to accommodate the hook being configured to accommodate the hook 477.

Accordingly, in the position in which the first door 38 is located on the housing 1 to close the inlet opening 11, the above-described holder 47 of the first door can prevent disconnection of the first door 38 from the housing 1, d�if the user rotates the second door 39, fixed rotatably on the first door 38.

If the pressure is applied to the locking element 478 for rotating the locking element 478 on the handle 387 first door, 477 hook may separate from the holes 4781 to accommodate the hook, which ensures the rotation of the first door 38.

1. The device for processing sheets, containing:
a housing having a hole formed therein;
the Department to accommodate, formed in the housing and configured to accommodate the linen through the hole formed in the housing; and
at least two doors connected to the housing for selectively opening and closing the openings formed in the housing.

2. The device according to claim 1, wherein at least one of the rotation direction or the rotation angle, at least two doors are different from each other.

3. The device according to claim 2, wherein at least two doors contain:
the first door having a first direction of rotation and the first maximum rotation angle; and
a second door having a first direction of rotation and a second maximum rotation angle which differs from the first maximum angle.

4. The device according to claim 3, in which the first door is connected rotatably with the housing and the second door are connected rotatably with the first door.

5. The device according to claim 2, wherein, �about least two doors contain
the first door having a first direction of rotation; and
a second door having a second direction of rotation that is different from the first direction of rotation.

6. The device according to claim 5, further comprising:
the first rotating axis, which connects with the possibility of rotation of the first door with the housing; and
the second rotating axis, which connects with the possibility of rotation of the second door with the first door, and the first rotating axis and the second rotating axis perpendicular to each other.

7. The device for processing sheets, containing:
a housing having a hole formed therein;
the Department to accommodate, formed in the housing and configured to accommodate the linen through the hole formed in the housing;
the first door that is connected rotatably with the housing, wherein the first door has a through hole of the first door corresponding to the hole formed in the housing;
the second door that is connected rotatably with the first door for selectively opening and closing the through holes of the first door; and
the locking mechanism includes a holder, a second door, which secures the second door to the first door, so that the first and second doors are rotated together during the rotation of the first door.

8. The device according to claim 7, in which, according to m�Nisha least one of the rotation direction and the maximum angle of rotation of the first and second doors is different.

9. The device according to claim 7, in which the holder of the second door is connected with the second door when the first door is rotated in the first direction to an open position relative to the opening in the housing and is moved in the direction to detach from the second door when the first door is rotated in a second direction to a closed position relative to the opening in the housing.

10. The device according to claim 7, in which the locking mechanism further comprises a first holder door, which secures the first door on the housing when the second door is rotated in the first direction to an open position relative to the opening in the housing.

11. The device according to claim 10, in which the holder of the first door includes:
the first holder coupled with the possibility of reciprocating movement with the housing, and the first holder connects with the possibility of disconnecting the first door with the housing; and
a clamping element located at the second door, and a clamping element moves the first holder in a direction to detach from the first door when the second door is rotated in a second direction to a closed position relative to the opening in the housing.

12. The device for processing the be�rd, contains:
a housing having a hole formed therein;
the Department to accommodate, formed in the housing and configured to accommodate the linen through the hole formed in the housing;
the first door that is connected rotatably with the housing, wherein the first door has a first through hole of the door, formed in it in communication with the hole formed in the housing;
the second door that is connected rotatably with the first door for selectively opening and closing the through holes of the first door; and
mechanism angle adjustment, which adjusts the rotation angle of the first door.

13. The device according to claim 12, further comprising:
the hinge of the first door that contains
the axis of the first door located on the first door and mounted parallel to the bottom of the housing; and
support element axis, one end of which is attached to the housing and a second end fixed to the axis of the first door,
moreover, the mechanism of adjusting the angle contains
the adjusting device located on one of the support member axis or the axis of the first door; and
device to disconnect, located on the first door and coupled with the ability to detach from the adjusting device, wherein the device to detach adjust the rotation angle of the first door.

14. The device according to claim 12, dopolnitelnaja hinge of the first door, contains:
mounting bracket housing connected to the body;
the bracket on the door connected to the first door;
a supporting plate located on the mounting bracket of the housing;
the first lever connected rotatably with the supporting plate;
second lever, a first end of which is connected rotatably with the first lever and the second end is connected with a fixing bracket door;
the third lever, the first end of which is connected rotatably with the first lever and the second end is connected rotatably with the fastening element doors; and
the spring first end of which is connected to the carrier plate and its other end connected to the second lever
moreover, the mechanism angle adjustment includes the adjustment lever, the first end of which is connected rotatably with the second lever and the other end is connected rotatably with a support plate, wherein the device for disconnection is located on the base plate and is made for connection with the possibility of disconnection with the adjustment lever.

15. The device according to claim 14, in which the device is to disconnect contains:
removable body supported by the support plate;
the first fixing projection disposed on the detachable body, the first fixing protrusion has a FD�Moo disk; and
the second fixing projection disposed on a surface of the first fixing protrusion, and wherein the adjustment lever contains
the first recess being configured to accommodate a second mounting ledge;
a second recess at a predetermined distance from the first recess and configured to accommodate the first fixing protrusion; and
a third recess at a predetermined distance from the second recess and configured to accommodate a first mounting ledge.

16. The device for processing sheets, containing:
a housing having a hole formed therein;
the Department to accommodate, formed in the housing and configured to accommodate the linen through the hole formed in the housing;
the first door that is connected rotatably with the housing, wherein the first door has a first through hole of the door, formed therein, in communication with the hole formed in the housing;
the second door that is connected rotatably with the first door for selectively opening and closing the through holes of the first door; and
mechanism angle adjustment, which adjusts the angle of rotation of the second door.

17. The device for processing sheets, containing:
a housing having a hole formed therein;
the Department to accommodate, formed in the housing and is arranged in�zmoznostjo fit linen through hole, formed in the housing;
the first door that is connected rotatably to the body for selective opening and closing of the hole formed in the housing; and
mechanism angle adjustment, which adjusts the rotation angle of the first door.

18. The device according to claim 17, further comprising:
the hinge of the first door that contains:
the axis of the first door located on the first door and mounted parallel to the bottom of the housing; and
support element axis, a first end of which is connected with the housing and the other end connected to the axle of the first door,
moreover, the mechanism of adjusting the angle contains:
the adjusting device located on one of the support member axis or the axis of the first door; and
device to disconnect, made for connection with the possibility of disconnection with the adjusting device, wherein the device to detach adjust the rotation angle of the first door.

19. The device according to claim 17, further comprising:
the hinge of the first door, wherein the hinge of the first door contains
mounting bracket housing connected to the body;
the bracket on the door connected to the first door;
a supporting plate located on the mounting element of the body;
the first lever connected rotatably with the supporting plate;
second lever, a first end of which is connected to at�the possibility of rotation with the first lever and the other end is connected rotatably with the mounting bracket of the door;
the third lever, the first end of which is connected rotatably with the first lever and the other end is connected rotatably with the mounting bracket of the door; and
the spring first end of which is connected to the carrier plate and its other end connected to the second lever
moreover, the mechanism of adjusting the angle contains
the adjustment lever, the first end of which is connected rotatably with the second lever and the other end is connected rotatably with the supporting plate; and
device to disconnect, located on the base plate and is made for connection with the possibility of disconnection with the adjustment lever.

20. The device according to claim 19, in which the device is to disconnect contains:
removable body supported by the support plate;
the first fixing projection disposed on the detachable body, the first fixing protrusion is disk-shaped; and
the second fixing projection disposed on a surface of the first fixing protrusion, and wherein the adjustment lever contains
the first recess being configured to accommodate a second mounting ledge;
a second recess at a predetermined distance from the first recess and configured to accommodate the first fixing protrusion; and
a third recess at a predetermined distance�research Institute from the second recess and configured to accommodate a first mounting ledge.



 

Same patents:

FIELD: personal use articles.

SUBSTANCE: invention relates to a household appliance such as a dishwashing or washing machine with a door (1) that contains a control panel (3) with a handle (17) consisting of at least the handle lower part (19) and he handle cover (21). The handle cover (21) contains a side wall (29) turned to the control panel (3) and forming, together with the control panel (3), a structure with two walls and an intermediate mounting space (33).

EFFECT: design improvement.

9 cl, 5 dwg

FIELD: textiles, paper.

SUBSTANCE: invention relates to a device for laundry processing, which comprises a housing which forms its appearance and comprises an opening for loading laundry, a door made with the ability of opening and closing the opening for loading laundry, a guide part mounted on the housing and comprising a guide groove recessed to a predetermined depth, and a connecting part mounted on the door and comprising a guide ledge placed in the guide groove which directs its movement path, and the angle of opening the opening is changed based on the positions of the guide ledge.

EFFECT: increased operational reliability.

20 cl, 49 dwg

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

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: 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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