Juicing device

FIELD: personal use articles.

SUBSTANCE: proposed invention relates to a device for production of a food product in the form of juice. The task of the invention is creation of a juicing device capable to increase juicing efficiency without increase of the drive means rotation rate. The juicing device contains a housing having a hole for release of juice and a hole for release of aw material remains ensuring communication of the housing inner space to the outer space, the juicing auger unit positioned inside the housing inner space and containing the auger blade formed on the outer peripheral surface of the said unit, the auger shaft connected to the drive shaft of the drive means via its bottom end whereon a sun gear wheel is mounted;: the rotary juicing mesh unit wherein the juicing auger unit is located. The above unit contains a cellular mesh corresponding to the auger blade and intended for filtration of raw material remains so that to ensure passage of juice through the said mesh and a ring gear wheel arranged in the bottom part of the said unit. The unit additionally contains a guiding release unit positioned in the bottom part of the rotary juicing mesh unit, having planetary gear wheels installed between the sun gear wheel and the ring gear wheel and transmitting force of the juicing auger unit to the rotary juicing mesh unit and ensuring direction of raw material remains generated after juicing. When the juicing auger unit and the rotary juicing mesh unit rotate in opposite directions relative to each other, juice expressed from the charged raw material is released from the release hole in the housing while the raw material remains are release to the outside through the hole for release of raw material remains.

EFFECT: creation of a juicing device capable to increase juicing efficiency without increase of the drive means rotation rate.

14 cl, 18 dwg

 

BACKGROUND of the INVENTION

1. The technical field

Aspects of this invention relate to a device for receiving the food product in the form of juice by squeezing fruit, vegetables or legumes products.

2. Description of the prior art

Device for squeezing juice is a device for extracting the juice by squeezing agricultural products and sea products, such as fruits, vegetables or legumes products.

The following describes the configuration and functions of a conventional device for squeezing juice.

Figure 1 is a schematic illustration of a conventional device for squeezing juice horizontal type.

As can be seen from figure 1, when the upper receiving hole 10 of the device of the horizontal type for squeezing juice impose such material as fruit or vegetables (hereinafter referred to as "raw materials"), incorporated raw material is cut as the rotation of the screw 11 when the engine 16.

Next, cut the raw material moves towards trimname tip 13 for subsequent crushing between the screw 11 and the node 12 to the dewatering mesh, and squeezed from raw juice flows out through a hole 15 for the production of juice. Moreover, the remains of the spent raw materials come to light through the release tip 13 and the cap 14 of the handpiece.

In addition, when the lay is very hard to guess what the structure of raw materials, it can stick to the node 12 to the dewatering mesh, so the number of pressed juice significantly reduced compared to the amount of raw materials.

Figure 2 is a schematic illustration of another example of a device for squeezing juice, which is the usual device of a vertical type for squeezing juice.

As can be seen from figure 2, the device for squeezing juice vertical type raw materials such as fruits or vegetables, lay at the top of the receiving hole 20, and the drive means 27 causes rotation of the grinding mechanism 23 connected with a drive means 27, the conveying screw 22 and grating plate 21. Accordingly, put the raw material is first cut in the MDF plate 21, and then transmitted auger 22 is fed to the shredding mechanism 23.

The juice obtained from the cut of raw materials, in process of transportation is available in the guide passage 26 for juice through the node 24 to the dewatering mesh, and the remainder of the raw material, which is formed between the grinding mechanism 23 and the node 24 to the dewatering mesh, are released to the outside through the guide passage 25 for the remainder.

Device for squeezing juice horizontal type and a device for squeezing the juice of a vertical type and is designed so that the push juice rotates the auger or chopping mechanism. Therefore, to improve the EF is aktivnosti pressed it is necessary to increase the number of revolutions of the engine. In this case, the driving means may be subjected to a load, which shortens its lifespan, increases the amount of heat produced and increases the power consumption.

In addition, if the rotation speed of the drive means exceeds the set limit value, the nutrients contained in the juice, can break down, therefore increasing the number of revolutions of the engine is limited. In other words, from the perspective of the nutritional value of the device to squeeze the juice should work preferably at low but not at high-speed rotation mechanism.

It is very difficult to perform high-quality washing device for squeezing juice horizontal or vertical type, made with a fixed set node to the dewatering mesh, when the clogging of protrusions or grooves of the specified device remains raw materials.

The INVENTION

According to aspects of the present invention, an apparatus for squeezing juice, which can increase the efficiency of extraction of juice without increasing the number of revolutions of the drive means.

In addition, according to aspects of the present invention, an apparatus for squeezing juice, which can provide easy cleaning of its parts, including site dewatering mesh, while minimizing tagenie or accumulation of residues of raw materials in/for details.

According to one aspect of the present invention, an apparatus for squeezing juice, comprising a housing having an aperture for the release of the juice and cut to release the residue of raw material which ensure that the message of the internal space of the housing with an outer, site dewatering screw, located in the inner space of the shell and comprising a screw blade that runs along the outer peripheral surface of the shaft of the screw, the lower end of which is connected to the drive shaft of the drive means, and a sun gear mounted at the lower end of the screw shaft, the node rotating the dewatering mesh, which is host to the dewatering screw and which contains the mesh grid, the corresponding blades the screw and serves to filter residue with ensuring the passage through it of juice, and a ring gear, made in the lower part of the specified node, and directing the discharge site located in the lower part of the site rotating the dewatering mesh, made with the planetary gears are mounted between the sun and ring gears and transmitting the rotational force of the node to the dewatering screw to the node rotating the dewatering mesh, and providing directional movement of residues resulting from the extraction, and the juice is squeezed out laying Ira during the rotation site dewatering auger and host rotating the dewatering mesh in opposite directions, flows from the outlet of the housing, and the remainder of the raw materials come out through the hole to release residue.

Screw the blade may have a thread, the step which gradually decreases from the upper end of the blade to its lower end.

Rotating the dewatering mesh can have at least one or more guides, passing down the inner surface and designed to supply laying of raw materials down when interacting with the screw thread of the auger blades.

The housing can further comprise a brush designed to remove residue from contacting and adhering to the outer peripheral surface of the rotating dewatering mesh fixed to the inner surface of the specified body and rotating.

Site rotating the dewatering mesh may further comprise a brush mounted on its outer peripheral surface and providing contact with the inner surface of the housing,

Site rotating the dewatering mesh can optionally have at least one rotating protrusion made on the outer peripheral surface of its lower end and providing a forced flow of juice in the bottom part of the site rotating the dewatering mesh, cut to release the juice.

Site rotating the dewatering mesh can the t further comprise a purifier, mounted on its outer peripheral surface and rotatably together with the specified node. Preferably, on the inner surface cleaner fixed rubber element held inside in accordance with the mesh grid node rotating the dewatering of the grid.

On the inner peripheral surface of the cleaner can be performed radial inner groove and the outer peripheral surface of the rotating node dewatering mesh can be performed in the outer radial protrusions, so that the external projections node rotating the dewatering mesh included in internal grooves of the cleaner, thereby providing directional rotation of the cleaner.

Moreover, on the outer peripheral surface of the cleaner can be mounted locking protrusion, and the outer peripheral surface of the shell can be formed of a gripping element, passing in the outer direction, so that when the locking protrusion and the gripping element are in contact with each other, the purifier stops rotation, and rotates only the node rotating the dewatering mesh, and rubber element purifier removes residue stuck to the mesh grid node rotating the dewatering of the grid.

Device for squeezing juice may further comprise a purifier, picral the config to the body and made of an elastic material, the cleaner is in contact with the host rotating the dewatering mesh and forcibly removes residues stuck to the mesh grid of the specified node.

The cleaner may have a coupling element corresponding to the gripping element formed on the housing, and the protruding element extending from the coupling element to the node rotating the dewatering mesh and in contact with the mesh part of the specified node.

The exhaust guide unit may further comprise a rubber guide fixedly installed at the lower end of the outlet and allowing the elastic opening or closing the exhaust holes with one of its sides.

Device for squeezing juice may further comprise a boot lid connected to the housing and having a receiving hole for laying of raw materials, the loading tube is made as a single unit with the receiving hole so that put the raw material is moved in a vertical direction, and the connecting protrusions, a radial manner in the lower part of the specified cover to communicate with the body.

Device for squeezing juice may further comprise a sensor that registers the current change depending on the load exerted on the drive shaft of the drive means, and the controller SV is deeply sensor and drive means, moreover, when the drive shaft is excessive, the controller controls the driving means is arranged to rotate in forward and reverse direction, providing for some time its reverse rotation, and then forward rotation.

As described above, in the device for squeezing juice made according to this invention, site dewatering auger rotates in the first direction, and the node rotating the dewatering mesh rotates in the second direction opposite the first direction, which rotates the node to the dewatering screw, which increases the efficiency of extraction of juice even when a small driving force (rotational force).

In addition, due to the fact that node to the dewatering screw and a host of rotating the dewatering mesh rotate in opposite directions, it is possible to minimize the amount of residue formed between these nodes, and to provide effective cleaning of the outer peripheral surface of the rotating node to the dewatering of the grid.

Additional aspects and/or advantages of the invention will be described in a subsequent part of the description and in part will become apparent from the description, or in the course of practical implementation of the invention.

BRIEF DESCRIPTION of DRAWINGS

The objectives, features and advantages of this invention will be understood from the C to the following detailed description, made with reference to the accompanying drawings, on which:

Figure 1 is a schematic drawing of a conventional device for squeezing juice horizontal type,

Figure 2 is a schematic drawing of another example of a conventional device for squeezing juice of the upright type,

Figure 3 is a view in the perspective view of the device for squeezing juice made according to the first variant implementation of the present invention,

Figure 4 is a view in the perspective view of the device for squeezing juice, is shown in figure 3, disassembled,

Figure 5 depicts a device for squeezing juice presented in figure 3, with the removed boot lid

6 is a partial cut 5,

7 is a bottom view 6,

Fig depicts assembled in the outlet of the sending node and the case shown in figure 4,

Fig.9 depicts a device for squeezing juice presented in figure 3, in working condition,

Figure 10 is a view in the perspective view of the device for squeezing juice made according to the second variant of implementation of the present invention, in disassembled form,

11 depicts purifier is presented on figure 10,

Fig is a bottom view of a perspective view of the exhaust guide element depicted on high,

Fig depicts the inner side of the case shown in figure 10,

Fig depicts purifier is presented on figure 10, is installed inside the housing together with the node rotating the dewatering mesh,

Fig is a section of the device for squeezing juice depicted in figure 10, without the drive means shown in figure 10,

Fig depicts the inner side of the hull is made according to the third variant of implementation of the present invention,

Fig is a perspective view of the cleaner shown on Fig, and

Fig is a section of the device for squeezing juice when using cleaners, depicted on Fig and pig while driving tool shown on Fig, not shown.

DETAILED description of the INVENTION

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the study detailed descriptions of any variant of execution of the invention it should be borne in mind that shown and described only the preferred embodiment of the invention, given as an example of the technical execution of the invention, which is represented by the inventors to be the best. It should be understood that the invention may be modified in various obvious aspects, but within the volume image is etenia. Accordingly, the drawings and description should not be considered limiting, but illustrative.

The FIRST VERSION of the RUNTIME

As shown in figure 3-figure 5, the device for squeezing juice made according to the first variant implementation of the invention, has a boot lid 100, the node 110 to the dewatering screw, node 120 rotating the dewatering mesh, prom guide node 130 and the housing 140.

Boot lid 100 has a funnel-shaped receiving hole 101 in the top part of this cover for the laying of the material from which wring out the juice, such as fruits or vegetables (hereinafter referred to as "raw materials"), boot glass 102, is made as a unit with the lower part of the receiving hole 101 so that laying raw material is fed in a vertical direction, and the connecting protrusions 103 made radially in the lower part of the boot lid 100 with ensuring their interaction with the body 140.

The node 110 to the dewatering screw includes a screw shaft 113 at the upper end of which is made landing ledge 114, and the lower end of this shaft is formed by the mounting groove 115, the screw blade 111, the step and the thread size of which gradually decreases from its upper end to its lower end relative to the screw shaft 113, and a sun gear 112 fixed at the bottom of the screw shaft 113

In the center of the lower surface of the screw 110 is made of a landing groove 116 to provide the specified installation screw on the housing 140. Screw shaft 113 is connected to the drive shaft (not shown) of a drive means (not shown)located outside the housing 140.

Node 120 rotating the dewatering mesh represents a cylindrical structure within which is located the node 110 to the dewatering screw. Node 120 rotating the dewatering mesh has one or more guide protrusions 121, passing down the inner surface of the specified node and intended to move the laying of raw materials down when interacting with a screw blade 111, wire mesh 122, is made in upper and lower parts of the outer peripheral surface of the node 120 to filter waste materials while passing the juice through a mesh, and ring gear 123 fixed to the lower end of the specified node.

Guide final node 130 has an outlet 132 located at the bottom of the node 120 rotating the dewatering mesh and ensuring production of waste is compacted and pressed raw material, the internal collar 133 and the outer collar 134 that supports the pressure at the lower ends of the Assembly 110 to the dewatering screw and node 120 rotating the dewatering mesh, planetary gears 131, installed between the solar is updatem wheel 112 of node 110 and the annular gear wheel 123 of the node 120 and transmit the rotational force of the node 110 to the dewatering screw to the node 120 rotating the dewatering mesh, and locking shaft (shown in Fig.6 and Fig.7. number 135) for fixing each of the planetary gears 131.

As shown in Fig, the housing 140 has an upper connecting element 144 connected to the connecting protrusions 103 of the boot lid 100. With the opposite sides of the body 140 is made a hole 141 to release the juice and the hole 142 for release remains, providing the message of the internal space of the housing 140 of outer space.

In particular, as can be seen from Fig.6 and Fig, the inner bottom part of the housing 140 has a flat shape and is made with the possibility of placing node 110 to the dewatering screw, node 120 rotating the dewatering mesh and directing the discharge of node 130. In addition, in the center of the housing 140 is made of a cylindrical sleeve 145 which interact with the host 110 to the dewatering screw (namely the sun gear and the drive shaft of a drive means (not shown).

The housing 140 may further comprise a brush (room 143 figure 4), mounted on one side of the inner surface of the casing and passing up.

Next, with reference to relevant drawings will be described the operation of the device for squeezing juice made according to the first variant implementation of the invention.

As can be seen from Fig.9, if raw, such as fruits, vegetables or legumes products is s, incorporated into the receiving hole (room 101 figure 4) boot covers (room 100 figure 4), the node 110 to the dewatering screw interacting with the drive shaft (not shown) of a drive means (not shown, but mounted under the chassis 140)rotates, thereby slitting the raw material with the help of auger blades 111.

In this case, as shown in Fig.7, the sun gear 112 of the node 110 to the dewatering screw planetary gears 132 directing the discharge of the node 130 and the annular gear wheel 123 node 120 rotating the dewatering mesh interact with each other, which allows the node 120 to rotate in the direction opposite to the direction of rotation specified node 110, and in accordance with the rotation of the specified node 110.

In this case, the distance between the outer peripheral surface of the host 110 to the dewatering screw and the inner peripheral surface of the node 120 rotating the dewatering mesh is gradually reduced toward the lower end of the node 110, and the incoming raw material is compressed between the said surfaces. As described above, the raw material moves down through the guides 121 of the node 120, rotating in the direction opposite to the direction of rotation of the node 110 to the dewatering screw, which leads to compression and crushing of raw materials.

Obtained from raw juice at high pressure passes through the wire grid 122 of the node 120, the space between the specified node 120 and the housing 140 for subsequent release to the outside through the opening 141 to release the juice in the housing 140, as indicated by the arrow in figure 9.

While floating down the remnants of the raw materials are subjected to the maximum pressure in the pilot exhaust node 130 with a minimum amount of residues and their subsequent release to the outside through the opening 132 in the pilot exhaust node 130 and the hole 142 in the housing 140.

As described above, the raw material is compressed and the compressed raw material is extracted juice, the node 110 to the dewatering screw and node 120 rotating the dewatering mesh rotate in opposite directions. Therefore, it may be to minimize the amount of residue formed between the specified nodes 110 and 120, rotating in opposite directions.

In this case the remnants sticking to the outer surface of the node 120 rotating the dewatering mesh, are separated and removed from the specified surface of the specified node with a brush 143, executed on the one hand the inner surface of the housing 140. Thus the remnants sticking to the mesh grid 122 can also be completely removed.

The SECOND embodiment of the

Next, with reference to the drawings will be described a device for squeezing juice made according to the second variant of implementation of the present invention. In the following embodiment, the components having essentially the same function as the components of the first version of run-on is meant for the same item numbers and their detailed description will be omitted for brevity.

As shown in figure 10, similar to a device for squeezing juice made according to the first variant implementation of the present invention, a device for squeezing juice made according to the second variant of implementation of the present invention, has a boot lid 200, the node 210 to the dewatering screw, node 220 rotating the dewatering mesh, prom guide node 230 and the housing 240. However, unlike a device for squeezing juice made according to the first variant implementation, the device for squeezing juice made according to the second variant of implementation, in addition has purifier 260 mounted on the outer peripheral surface of the node 220 rotating the dewatering of the grid.

Figure 10 shows the housing 250, which is the driving means (not shown)used to rotate the node 210 to the dewatering screw, and which has the above structural elements. It is clear that the device for squeezing juice made according to the first variant implementation of the present invention, also has a housing for the drive means, the configuration and functions of which are similar to the casing 250.

In General, the design of the boot lid 200, the node 210 to the dewatering screw and node 220 rotating the dewatering mesh is essentially the same as the design of the boot lid 100, the node 110 to the dewatering screw and the La 120 rotating the dewatering mesh device for squeezing juice, performed according to the first variant implementation of the present invention. When this node 220 rotating the dewatering mesh can optionally have a brush 204 mounted on its outer peripheral surface.

This cleaner 260, mounted with an interference fit on the outer peripheral surface of the node 220 rotating the dewatering mesh, has a C-shaped slot and can rotate together with the specified node 220.

On the outer peripheral surface of the bottom end node 220 rotating the dewatering mesh may be made of at least one rotating protrusion 226. During rotation with node 220, at least one rotating protrusion 226 forcibly moves the juice in the bottom part of the specified node 220, the hole 241 to release juice.

As can be seen from 11, cleaner 260 has an internal groove 265 connected to the outer protrusions 225 node 220 rotating the dewatering mesh. In addition, the cleaner 260 has a locking protrusion 266 corresponding to the gripping element 246 of the housing 240 to stop the rotation of the specified node 220, and rubber cleaner 262, elastically installed inside the node 220 rotating the dewatering mesh for drying a honeycomb grid 222, located in the lower part of the node 220.

When this locking protrusion 266 Assembly with node 220 rotating the dewatering mesh place is and the bottom surface inside the housing 240, regardless of its position, the protrusion 266 selectively in contact with the gripping element 246 of the housing 240, thereby limiting the rotation of the node 220.

As can be seen from Fig, guide exhaust node 230 has an outlet 232, providing emission residue of pressed and pressed raw material; the inner collar 233 and the outer collar 234, sustaining pressure on the lower end of the node 210 to the dewatering screw and node 220 rotating the dewatering mesh; planetary gears 231, set between the sun gear 212 of the node 210 to the dewatering screw and the ring gear 223 node 220 rotating the dewatering mesh and transmitting the rotational force of the node 210 to node 220; and stopping the shaft 235 for fixing each of the planetary gears 231.

Device for squeezing juice, made according to a variant of implementation of the present invention, guide exhaust node 230 has an additional rubber guide 236 attached at the lower end of the discharge hole 232 (see Fig). Rubber guide 236 elastically opens or closes the exhaust port 232 on one side 256-1.

In this case, the planetary gears 231 can be embedded in a smart final node 230, or can be installed in the specified node 230 with the possibility of dismantling.

The housing 240 is verkhnesaldinsly elements 243, connected with the connecting protrusions 203 boot lid 200. From opposite sides of the housing 240 is formed a hole 241 for the production of juice and a hole 242 for release remains, providing the message of the internal space of the housing with outer space.

In particular, as can be seen from Fig, the inner bottom part of the housing 240 has a flat shape and is made with the possibility of placing the node 210 to the dewatering screw, node 220 rotating the dewatering mesh and guide the discharge of the node 230. In addition, in the center of the housing 240 is made of a round protrusion 245, interacts with the host 210 to the dewatering screw and drive shaft 241 of the drive means.

In addition, the housing 240 has a gripping element 246 fixed to the front end of the hole 241 for the production of juice, and a gripping element 246 has a U-shaped form corresponding to the shape of the locking protrusion 266 formed on the outer peripheral surface of the cleaner 260. Gripping element 246 may have a different shape, provided that this shape is aligned with the locking protrusion 266 purifier 260.

Drive means (not shown) installed inside the casing 250 and the drive shaft 251 of the drive means outside the casing 250 for subsequent interaction with the host 210 to the dewatering screw and the housing 240. With one side of the casing 250 is the case 252 controls and panel 253 management designed to control the driving means.

Next, with reference to relevant drawings will be described the operation of the device for squeezing juice made according to the second variant implementation of the invention.

As can be seen from Fig, if the raw materials are incorporated into the receiving hole 201, the node 210 to the dewatering screw interacts with the drive shaft 251 of the drive means, thereby slitting the raw material with the help of auger blades 211. In addition, raw material is crushed and passed through guide 221 node 220 rotating the dewatering mesh, rotating in the direction opposite to the direction of rotation of the node 210 to the dewatering screw.

Like the first variant implementation of the present invention a sun gear 212 of the node 210 to the dewatering screw planetary gears 231 guide final node 230, and a toothed wheel 223 node 220 rotating the dewatering mesh interact with each other. Therefore, when the rotation of the node 210 to the dewatering auger node 220 rotating the dewatering mesh rotates in the direction opposite to the direction of rotation of the node 210.

The distance between the outer peripheral surface of the node 210 to the dewatering screw and the inner peripheral surface of the node 220 rotating the dewatering mesh is gradually reduced toward the lower end of the indicated what about the host 210, and passed the raw material is compressed between the said surfaces, thereby squeezing the juice from the specified raw materials.

If the remains moved down raw material applies pressure exceeds the specified value, the pressure of the residue exceeds the elasticity generated by one party 236-1 rubber guide 236 mounted on the lower end of the guide exhaust node 230, with the subsequent release of pressure through an opening 242 to release residues in the housing 240. Squeezed from raw juice flows through a wire mesh node 222 220 rotating the dewatering mesh with the subsequent exit through the hole 241 for the production of juice in the housing 240.

When the above procedure, rotating node 220 rotating the dewatering mesh, brush 224 wipes the inner peripheral surface of the housing 240 in contact with this surface.

In this case, when the rotation of the cleaner 260 together with the node 220 rotating the dewatering mesh, as shown in Fig, if the locking protrusion 266 purifier 260 comes into contact with the gripping element 246 of the housing 240, cleaner 260 stops spinning. Therefore, constantly rotates only the node 220 rotating the dewatering of the grid.

In this case, rubber cleaner 262 fixed to the inner peripheral surface of the cleaner 260 elastically bent, removing the remains adhered to the surface of nizhegorodtsa wire mesh node 202 220 rotating the dewatering of the grid.

The THIRD embodiment of the

On Fig depicts the inner side of the hull, made according to the third variant of implementation of the present invention, Fig shows a view of a perspective view of the cleaner shown on Fig and Fig is a section of the device for squeezing juice from the cleaners, depicted on Fig and Fig. Moreover, in the above-mentioned figures of the drawings shows a driving tool.

In General, the configuration of the device for squeezing juice made according to the third variant of implementation of the present invention, essentially the same as the device for squeezing juice made according to the second variant of implementation of the present invention. Therefore, the following description will be focused on designs that are included with both options and different from each other. In addition, the following embodiment, the elements having essentially the same function as the components of the second variant of execution indicated by the same numbers of items, and their detailed description will be omitted.

Device for squeezing juice according to the third variant of implementation of the present invention differs in that the cleaner 260, which is one of the components of the device for squeezing juice according to the second variant of implementation of the present invention, replaced about what istitle 300, having a simplified configuration, which is shown on Fig-18.

In other words, in this embodiment, the cleaner 300 is fixed on the gripper element 246 of the housing 240 and is made of elastic material. Air purifier 300 has a connecting part 310 of stepped form, completed, with the possibility of accommodation in gripping element 246, and the protruding portion 320, executed as a single unit with the connecting part 310 and passing in the direction of the internal space of the housing 240.

During the rotation of the node 220 rotating the dewatering mesh protruding portion 320 of the cleaner 300, mounted on the gripper element 246 of the housing 240 elastically bent, while ensuring the contact with the specified node 220. Therefore, the protruding portion 320 forcibly removes the residues of raw material, stuck to the mesh grid node 222 220 rotating the dewatering of the grid.

As described above, in the device for squeezing juice made according to the second and third variants of execution of the present invention, site dewatering auger and the node rotating the dewatering mesh rotate in the gear mesh so that the node to the dewatering screw is rotated in one direction, and the node rotating the dewatering mesh rotates in the opposite direction, thereby increasing the efficiency of extraction of juice compared with the conventional device for pressing the Oia juice, which rotates only one screw.

In addition, since the node to the dewatering screw and a host of rotating the dewatering mesh rotate in opposite directions, the number of remainders of nahodyashihsya between these nodes can be minimized and the outer surface of the host rotating the dewatering mesh can be automatically cleaned with a brush and cleaner.

In virtue of this, despite the fact that the above was the detailed description of the typical embodiments of the present invention, it should be understood that numerous changes and modifications of the basic idea of the invention described in this document, which may arise from experts in a given field of technology will be within the essence and scope of typical embodiments of the present invention, as claimed in the attached claims.

For example, in the device for squeezing juice made according to each of embodiments of the present invention, the drive means may be applied to the motor is made to rotate in forward and reverse direction. If the loading door lay a large number of press materials, the engine may experience more stress, which will not allow it to rotate properly, which reduces the efficiency of extraction with the ka.

In addition, the device for squeezing juice made according to this invention, may further comprise a sensor that registers the change of the current in accordance with the load applied to the drive shaft, that is, the node to the dewatering screw (110 or 220), when too much load is served on the drive shaft of the drive means (motor), and the controller connecting the sensor and the driving means. The sensor and controller are well known devices and are not shown.

The controller controls the driving motor, stopping him in accordance with the sensor signal indicating the current change caused by the overload of the drive shaft of the engine, then start the engine in the opposite direction. Thus, site dewatering screw (110 or 220), which rotation is blocked raw materials, rotates in the reverse direction, thereby eliminating the load on the drive shaft of the engine, created with raw materials. The controller then provides the rotation of the motor in the forward direction with the normal process of the juice.

1. Device for squeezing juice containing
a housing having an opening for release of the juice and cut to release the residue of raw materials, ensuring the message of the internal space of the housing with outer space,
site dewatering screw, located in the in the morning of the housing and comprising a screw blade, formed on the outer peripheral surface of the specified node, and a screw shaft connected to the drive shaft of the drive means to its lower end that has a sun gear,
site rotating the dewatering mesh, which is host to the dewatering screw and which contains a mesh grid that corresponds to the screw blades and intended for the filtration residue with ensuring the passage through it of juice, and a ring gear, made in the lower part of the specified node, and
guide final node, located at the bottom of the site rotating the dewatering mesh, containing the planetary gear set between the sun gear and the annular gear wheel and transmitting the rotational force of the node to the dewatering screw to the node rotating the dewatering mesh, and providing direction residues formed after pressing, the juice is squeezed out put of raw materials during the rotation site dewatering auger and host rotating the dewatering mesh in opposite directions, is discharged from the discharge outlet of the housing and remains available through the hole to release residue.

2. The device according to claim 1, in which step screw threads of the auger blades gradually decreases from the upper end of the blade to the bottom to the NCU.

3. The device according to claim 1, wherein rotating the dewatering mesh has at least one or more protrusions passing down the inner surface, for transmission to the laying of raw materials down when engaged, such gear, with a screw thread of the auger blades.

4. The device according to claim 1, wherein the housing further comprises a brush to remove residue that is in contact with the outer peripheral surface of the rotating dewatering mesh and stuck to it, mounted on the inner surface of the specified body and rotating.

5. The device according to claim 1, in which the node rotating the dewatering mesh further comprises a brush mounted on its outer peripheral surface and providing contact with the inner surface of the case.

6. The device according to claim 1, in which the node rotating the dewatering mesh further comprises at least one rotating protrusion formed on the outer peripheral surface of its lower end and providing compulsory transfer of juice in the bottom part of the site rotating the dewatering mesh, cut to release the juice.

7. The device according to claim 1, in which the node rotating the dewatering mesh further comprises a cleaner mounted on the outer peripheral surface of the specified node and opportunity in the stop with him, on the inner surface of the specified cleaner fixed rubber element held inside in accordance with the mesh grid node rotating the dewatering of the grid.

8. The device according to claim 7, in which the inner peripheral surface of the cleaner a radial inner groove and the outer peripheral surface of the rotating node dewatering mesh made outer radial protrusions, so that the external projections node rotating the dewatering mesh placed in the inner grooves of the cleaner, thereby guiding the rotation of the cleaner.

9. The device according to claim 7 or 8, in which the purifier additionally has a locking lug mounted on its outer peripheral surface, and the body has a gripping element formed on its outer peripheral surface and passing in the outer direction, so that when the protruding lip and gripping element are in contact with each other, the cleaner does not rotate, and rotates only the node rotating the dewatering mesh, while the rubber element purifier removes residues stuck to the mesh grid node rotating the dewatering of the grid.

10. The device according to claim 1, additionally containing cleaner attached to the housing and made of elastic material, and the cleaner is in contact with the rotating node from imusa grid and provides forced removal of stocks of raw stuck on the mesh grid of the specified node.

11. The device according to claim 10, in which the cleaner has a coupling element which is inserted in the gripping element, which is formed in the housing, and the protruding element extending from the coupling element to the node rotating the dewatering mesh and in contact with the mesh part of the site rotating the dewatering of the grid.

12. The device according to claim 1, in which guide final node further comprises a rubber guide fixedly installed at the lower end of the outlet and allowing the elastic opening or closing the exhaust holes with one of its sides.

13. The device according to claim 1, additionally containing a boot lid attached to the housing and having a receiving hole for laying of raw materials, the loading tube is made for a single unit with the receiving hole to provide vertical movement of the mortgaged raw material, and the connecting projections made radially in the lower part of the specified cover to communicate with the body.

14. The device according to claim 1, additionally containing a sensor, registering the change of current in accordance with the load applied to the drive shaft of the drive means, and the controller connecting the sensor and the driving means, and when the overload of the drive shaft, the controller controls the em drive means, providing for a certain time its rotation in the opposite direction, and then rotating in the forward direction.



 

Same patents:

Juicer // 2399361

FIELD: personal use articles.

SUBSTANCE: invention relates to a juicer designed for extracting juice out of vegetables, fruits, or soya milk from beans. Juicer includes a body having the outlet for wastes and the outlet for juice, the screw having an upper rotating shaft entered the hole in the body for a rotating shaft, and the lower rotating shaft with multiple spirals of the screw made on its outer circumference, honeycomb cylinder for juicing toward the outlet of juice, and the rotating brush installed between the body and honeycomb cylinder and having a brush holder. Thanks to use of the screw rotating at a very low speed in juicing mode, various nutrients and natural taste inherent in vegetables and fruits are fully preserved. As the body containing the shaft is attached vertically to the top of the transmission device, the material automatically moves down without pressing it, and during squeezing and crushing materials placed in the inlet, waste products are removed.

EFFECT: invention ensures creation of the juicer which has a high rate of juicing and where well-squeezed juice flows down without staying in the body.

12 cl, 8 dwg

Improved juicer // 2375947

FIELD: personal demand items.

SUBSTANCE: juicer of ordinary type, which comprises antidrop system, which consists of T-shaped sealing of drain tube, and also from nonslip strips on adhesion between drive and rotary elements, therefore, in case of intermediate stop of drive, they are not pushed upwards under action of inertia force. Disc of grater is fixed to driving element with blind screw, and fixing screw is welded to its lower side. Pusher ends with concavity, which in process of use grips the piece, from which juice is squeezed. Pusher may be replaced with pusher of loading hole reducer.

EFFECT: invention provides for convenience of use.

11 cl, 9 dwg

Cooking apparatus // 2020856
The invention relates to a device for squeezing juice from food products and versatile cooking device

Improved juicer // 2375947

FIELD: personal demand items.

SUBSTANCE: juicer of ordinary type, which comprises antidrop system, which consists of T-shaped sealing of drain tube, and also from nonslip strips on adhesion between drive and rotary elements, therefore, in case of intermediate stop of drive, they are not pushed upwards under action of inertia force. Disc of grater is fixed to driving element with blind screw, and fixing screw is welded to its lower side. Pusher ends with concavity, which in process of use grips the piece, from which juice is squeezed. Pusher may be replaced with pusher of loading hole reducer.

EFFECT: invention provides for convenience of use.

11 cl, 9 dwg

Juicer // 2399361

FIELD: personal use articles.

SUBSTANCE: invention relates to a juicer designed for extracting juice out of vegetables, fruits, or soya milk from beans. Juicer includes a body having the outlet for wastes and the outlet for juice, the screw having an upper rotating shaft entered the hole in the body for a rotating shaft, and the lower rotating shaft with multiple spirals of the screw made on its outer circumference, honeycomb cylinder for juicing toward the outlet of juice, and the rotating brush installed between the body and honeycomb cylinder and having a brush holder. Thanks to use of the screw rotating at a very low speed in juicing mode, various nutrients and natural taste inherent in vegetables and fruits are fully preserved. As the body containing the shaft is attached vertically to the top of the transmission device, the material automatically moves down without pressing it, and during squeezing and crushing materials placed in the inlet, waste products are removed.

EFFECT: invention ensures creation of the juicer which has a high rate of juicing and where well-squeezed juice flows down without staying in the body.

12 cl, 8 dwg

Juicing device // 2492787

FIELD: personal use articles.

SUBSTANCE: proposed invention relates to a device for production of a food product in the form of juice. The task of the invention is creation of a juicing device capable to increase juicing efficiency without increase of the drive means rotation rate. The juicing device contains a housing having a hole for release of juice and a hole for release of aw material remains ensuring communication of the housing inner space to the outer space, the juicing auger unit positioned inside the housing inner space and containing the auger blade formed on the outer peripheral surface of the said unit, the auger shaft connected to the drive shaft of the drive means via its bottom end whereon a sun gear wheel is mounted;: the rotary juicing mesh unit wherein the juicing auger unit is located. The above unit contains a cellular mesh corresponding to the auger blade and intended for filtration of raw material remains so that to ensure passage of juice through the said mesh and a ring gear wheel arranged in the bottom part of the said unit. The unit additionally contains a guiding release unit positioned in the bottom part of the rotary juicing mesh unit, having planetary gear wheels installed between the sun gear wheel and the ring gear wheel and transmitting force of the juicing auger unit to the rotary juicing mesh unit and ensuring direction of raw material remains generated after juicing. When the juicing auger unit and the rotary juicing mesh unit rotate in opposite directions relative to each other, juice expressed from the charged raw material is released from the release hole in the housing while the raw material remains are release to the outside through the hole for release of raw material remains.

EFFECT: creation of a juicing device capable to increase juicing efficiency without increase of the drive means rotation rate.

14 cl, 18 dwg

FIELD: food industry.

SUBSTANCE: prior to entry into the juicer, a product is to be cut. The juicer juice extraction module includes a container having a juice release hole, a sieve positioned inside the container, a screw positioned inside the juicer for extraction of juice from a product and a cover connected to the upper edge of the container and having a release hole through which the product is discharged. The juice extraction module includes a milling section positioned at the screw upper end and tapering upwards; the milling section has a milling blade mounted thereon and a processing section connected to the outlet hole and designed to be concave in the cover lower part to accommodate the milling section.

EFFECT: improved design capable to eliminate inconvenience.

19 cl, 6 dwg

FIELD: food industry.

SUBSTANCE: juice extractor comprises: a drive unit comprising the electric motor housing, which comprises an electric motor mounted inside it, a rotating shaft connected to the electric motor and protruding towards one side of the electric motor housing, a fixing shaft adjacent to the rotating shaft in the electric motor housing; a juice extracting unit comprising roller portions actuated by the electric motor, provided in the drive unit, designed for grinding, juice extraction and movement of materials for the extraction of juices, a housing for the placement of the roller portions in it; a fastening unit designed for the releasable connection of the housing of the juice extracting unit with the housing of the electric motor; and a sensor unit comprising a control sensor element mounted on the housing of the juice extracting unit, and also a sensor mounted on the electric motor housing so as to be triggered by the change in the distance to the control sensor element.

EFFECT: no necessity to adjust the position of the fastening unit when the housing is attached to the drive unit, the roller portions and the housing can be easily detached, injuries caused by the operation of the roller portions, when the housing is detached, can be prevented, and the process of juicing is effective.

5 cl, 13 dwg

FIELD: personal use and household items.

SUBSTANCE: juice extractor main housing frame with top drive comprises upper frame element; lower frame element; connecting frame element, made with configuration providing connection of upper frame element with lower frame element, wherein upper frame element has first through hole and second through hole. Besides, assembly with frame intended for juice extractor main housing with top drive comprises frame including upper frame element, having first through hole and second through hole, lower frame element and connecting frame element, made with configuration providing connection of upper frame element with lower frame element; drive part installed on upper part of upper frame element; and lifting part arranged on lower frame element, wherein drive shaft drive part is inserted into first through hole.

EFFECT: proposed is juice extractor structure.

4 cl, 23 dwg

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