Module of juice squeezer and juice squeezer with vertical screw

FIELD: personal use articles.

SUBSTANCE: invention relates to a juice squeezer module. The juice squeezer module comprises a juice squeezer container with an open top; the lid which is provided with a loading chute for raw materials in the wall of the lid, and is connected with the upper section of the juice squeezer container; a mesh drum rigidly located inside the juice squeezer container; and a screw located inside the mesh drum, at that the screw is equipped with a spiral portion formed on the lateral surface of the screw, and a rotating shaft which passes through the hole for the shaft of the juice squeezer container. The juice squeezer container comprises a lower inclined surface descending out from the hole for the shaft, and at the lower end of the screw there is a lower inclined surface which is at least partially formed in contact with the said lower inclined surface. The guide rotating section is formed on the upper end of the screw, and the lid is provided with a rotary guide for the direction of rotation of the screw.

EFFECT: invention facilitates cleaning the juice squeezer and the lid, and reliably prevents leakage of liquid out of the container of the juice squeezer, improves effectiveness of juice squeezing.

21 cl, 12 dwg

 

The technical field

The present invention relates to a module extractor and extractor module, in which the auger is connected to the drive shaft of the drive device, is used for crushing or shredding vegetables, fruits, nuts, cereals and so on, thus getting juice, vegetable juice or other juice products.

The level of technology

The juicer is a device for processing of vegetables, fruits, etc. to obtain a liquid or juice products. Have been known various types of juicers that can be conveniently used for domestic and industrial applications. In the most versatile juicers option scheme, in which raw materials were abandoned in the feeder trough for raw materials and then were ground by using a high-speed rotating blade. However, this type of juicer had a limitation in grinding hard materials, such as green vegetables, consisting of stems and leaves, to obtain vegetable juices.

Therefore, the juicer has traditionally been enhanced for crushing fruit and vegetables between the rotating screw and the mesh drum, thereby receiving the saps and extracts (e.g., vegetable juices). In a juicer, screw and net drum located inside the container juicer with an open top, and the cap is, which formed the feeder trough for raw materials, is attached to the upper section of the container juicer. The Jack shaft is formed in the lower section of the cover and the shaft, which is inserted into the slot of the shaft can be rotated, is mounted on the upper end of the auger. The feeder trough for the material is made of small size in the lid, not overlapping each other with the Jack shaft. The container extractor is mounted on the main body, in which integrated drive unit and auger connected to the drive shaft of a drive device located outside the module extractor, so that the screw can rotate.

In a traditional juicer, only protruding spiral sections formed on the side surface of the screw, participate in schemes of processing of raw materials such as squeeze the juice and/or grinding with SolveigMM or grinding sieve drum. Accordingly, in order raw materials, thrown into the boot groove for raw materials, could reach the spiral sections formed on the side surface of the screw has been removed, a sufficient portion of the upper end of the screw.

In addition, in a traditional juicer, water or moisture can seep into the place where the driving shaft of the main body and rotating the auger shaft are connected to each other. Essentially cylindrical protrusion to ensure the water tightness of brasovan around a Central bottom portion of the container, juicer, which is connected with the drive shaft, and a seal mounted on the upper portion of the cylindrical protrusion. Additionally, a cylindrical recess is formed around a rotating shaft located at the lower section of the screw, so that the cylindrical protrusion is inserted into the cylindrical recess.

However, traditional juicer has a drawback consisting in the fact that it is difficult to clean the surrounding portion of the cylindrical protrusion on the Central bottom area of the container juicer and the interior of the cylindrical recess at the lower section of the screw. Since the juicer is a device for processing of food products requiring exceptional purity, this disadvantage is very significant. In addition, in order to collect the auger and the container juicer with each other, the protrusion on the Central bottom area of the container juicer should smoothly be inserted into the notch on the lower section of the screw. Therefore, the size of the cylindrical recess larger than the cylindrical protrusion. Here, since the rotating shaft of the auger must be supported by the soft seal mounted on the upper ledge, the screw is supported in a state in which it varies in the lateral direction when mounted on the bottom of the container juicer. Although the fluctuations of the screw can be prevented is here insert the shaft, formed on the upper section of the screw in the slot of the shaft, is formed in the cover, according to the most common scheme in the food industry, there is another drawback consisting in the fact that the Jack shaft formed in the lid, can be broken in unstable assembled state of the auger. In addition, it is inconvenient to clean the Jack shaft formed in the cover, and this is considered a flaw in the device for processing of food products for cleanup.

Disclosure of invention

Technical problem

Accordingly, the present invention is directed to solving the above problems of the prior art. The present invention is the provision of an extractor module, in which a cylindrical projection and the cylindrical recess in a traditional juicer, which otherwise are located on the interior bottom of the container juicer and in the lower section of the screw, respectively, can be removed, thereby facilitating the cleaning of the juicer, still using the screw at the inner bottom portion of the container juicer, and reliably preventing leakage out of the moisture in the container juicer.

Another objective of the present invention is the provision of a module extractor, in which the shaft, which otherwise location is n on the upper end of the auger, and the Jack shaft, which otherwise is located in the lid and in which is inserted the shaft can be omitted, thereby further facilitating the cleaning of the cover.

An additional object of the present invention is to provide a juice extractor with a vertical auger containing locking design, which can prevent vertical movement of the screw, which will cause performance degradation squeeze the juice.

Technical solution

According to the aspect of the present invention to achieve these objectives, provided the module extractor, comprising: a container juicer with an open top, with a hole for the shaft formed in the lower Central part of the container juicer; cover with a loading chute for raw materials in its wall, and the cover is connected with the upper section of the container juicer; net drum, still located inside the container extractor; and screw, located inside of the sieve drum and the auger has a helical section formed on its side surface, and a rotating shaft passing through the shaft hole of the container, juicer, and the container juicer includes the bottom inclined surface, falling out from the holes for the shaft.

According to one variant of execution at the bottom to the goals of the screw at least partially formed of the lower inclined surface, contact with the specified lower inclined surface.

According to another variant implementation, strip, into which is inserted a rotating shaft installed in the Central area of the lower inclined surface, and the gasket includes an inclined surface continuing from the lower inclined surface.

According to another variant implementation, the first inserted protrusion formed on the bottom on one side of the lower end of the sieve drum and at least one second inserted protrusion formed at the bottom on the other side of the lower end of the sieve drum, the opening for inserting, into which is inserted first inserted protrusion formed on one side of the lower inclined surface, and at least one groove for inserting, into which is inserted the second inserted protrusion formed on the other side of the lower inclined surface.

According to another variant implementation, guide turning area formed on the upper end of the auger, and the cover is provided with a rotary guide for the direction of rotation of the screw, and rotary guide is in contact with the edge guide of the swivel section. Alternatively, the shaft is formed on the upper Central section of the screw, the Jack shaft, which shaft is inserted, is formed in the underside of the roof and, and a reinforcing layer formed in the slot of the shaft.

According to another variant implementation, the blade structure for cutting raw materials, thrown into the boot groove for raw materials, or push the raw down is formed on the upper end of the auger.

According to another aspect of the present invention, is provided with an extractor module, comprising: a container juicer with an open top, with a hole for the shaft formed in the lower Central part of the container juicer; cover with a loading chute for raw materials in its wall, and the cover is connected with the upper section of the container juicer; net drum, still located inside the container extractor; and screw, located inside of the sieve drum and the auger has a helical section formed on its side surface, and a rotating shaft passing through the shaft hole of the container juicer, with guide turning area formed on the upper end of the auger, and the cover is provided with a rotary guide for the direction of rotation of the screw, and rotary guide is in contact with the edge guide of the swivel section. Here, it is preferable that the guide turning area was a circle for lowering raw materials, abandoned in the feeder trough for raw materials.

According to a friend who th aspect of the present invention provided with the juicer with a vertical auger, contains: a main body having a drive shaft protruding upward; a container with an open top, mounted on main body; screw, located inside the container, and the screw has a rotating shaft vertically mounted on the driving shaft; net drum located inside the container to cover the periphery of the auger; a lid connected to the top section of the main building, and the boot lid has a spout for raw material; and fixing the design to prevent vertical movement of the auger to prevent lifting of the auger when the driving shaft and the rotating shaft rotate together.

According to one variant of execution of a rotating shaft includes a Jack shaft, which is inserted into the upper portion of the drive shaft, and the locking structure includes a locking protrusion formed on the control shaft, and a locking hole formed on the rotating shaft so that the locking protrusion has been inserted into the locking hole when the driving shaft is inserted into the slot of the shaft. The locking hole includes a lower hollow, open bottom, to allow the locking tab to enter and exit; the guide section to provide horizontal movement of the locking protrusion when the drive shaft starts to rotate; and the locking section to prevent ve the vertical movement of the locking protrusion. The locking hole has a pair of fixing sections formed respectively on the right and left sides of the guide section to prevent vertical movement of the rotating shaft with respect to bidirectional rotation of the drive shaft. The locking protrusion has a circular cross-section and the locking section is made in the form of an arc of a circle corresponding to the circular cross-section. The locking hole additionally has a slanted surface on the lower section of the locking hole, so that the slide guide locking tab in the locking hole. Inclined surface in the form of an arc, which is connected with both sides of the lower cavity. The rotating shaft includes a Jack shaft, which is inserted into the upper portion of the drive shaft, and the locking structure includes a pair of fixing protrusions formed respectively on both diametrically opposite sides of the drive shaft; and a pair of locking holes formed in the rotating shaft, so that the pair of locking protrusions was accordingly inserted in the locking hole when the driving shaft is inserted into the slot of the shaft.

According to another variant implementation, the cover has a support formed on its lower surface, to suppress the vibration of the upper section of the screw.

According to more the positive version of the complete locking tab formed from the end of the pin, inserted from the side and installed in the drive shaft. Each of the locking hole has an inclined surface for guiding sliding of the corresponding locking protrusion into the locking hole, and the inclined surface is made in the form of an arc, which is connected with the corresponding locking ledge.

Preferred effects

According therefore to the present invention, the following advantages can be expected.

The extractor module according to one variant of implementation of the present invention adopts the bottom structure of the container juicer having a surface inclined downwards, which gradually descends from the Central region of the bottom surface of the container extractor, through which the rotating shaft of the auger is held to the outer part of the bottom surface of the container juicer, so that the leakage of water from the container goes through the main body can be prevented. As such, the cylindrical protrusion to ensure a watertight seal, which is otherwise formed on the lower section of the container traditional juicer or extractor module can be omitted, thereby additionally facilitating the cleaning of the bottom portion of the container juicer. Additionally, the extractor according to another VA who Ianto implementation of the present invention, sloping surface, which corresponds to the lower inclined surface of the container juicer, formed on the lower section of the screw, thereby fixedly supporting the screw on the bottom portion of the container juicer. Additionally, the extractor according to another variant implementation of the present invention, the guide rotary section and a rotary guideway formed on the upper end of the auger and the lower section of the cover, respectively, so that the Jack shaft, which is otherwise formed in the lid traditional juicers, could be omitted, thereby allowing the cleaning cover more hygienic and convenient way.

Scope of the present invention is not limited to the option run as described and shown above, but is defined by the attached claims. It is clear that the experts in the art can perform various modifications and changes thereto within the scope of the invention defined by the claims. Therefore, the actual volume of the present invention should be defined by the technical nature of the attached claims.

Brief description of drawings

The above and other objectives, features and advantages of the present invention will be clear from the following description of a preferred variant the NTA execution this in conjunction with the accompanying drawings, in which:

Figure 1 is a view in section, showing the extractor module according to a variant implementation of the present invention.

Figure 2 is a disassembled view in section, showing the extractor module, shown in figure 1, with the plunger separated from the extractor module.

Figure 3 is a perspective view showing the screw extractor module, shown in figure 1 and 2.

4 is a view showing an example configuration for rotating the brush, when the screw rotates in the module extractor according to a variant implementation of the present invention.

5 is a view in section, showing the extractor module according to another variant implementation of the present invention.

6 is a view in longitudinal section showing a juicer with a vertical screw according to an additional variant of implementation of the present invention.

Fig.7(a) and 7(b) are views showing the fixing structure between the rotating shaft of the screw and drive shaft of the engine in the juicer with a vertical screw depicted in Fig.6.

Fig view showing a modification of the fixing structure shown in Fig.7.

Fig.9 is a view showing another modification of the fixing structure shown in Fig.7.

Figure 10 is a longitudinal view showing the juicer reffering to the vertical screw according to another variant implementation of the present invention;

11 is a view showing another fixing structure according to an additional variant of implementation of the present invention.

The best option of carrying out the invention

Later in this document, according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. Embodiments of the described herein are provided only as examples, in order to fully convey the nature and scope of the present invention to specialists in this field of technology. Accordingly, the present invention is not limited to execution options described below, and may be implemented in various forms. The width, length and thickness of the components can be represented in an enlarged scale for convenience on all drawings. Throughout the description, the same elements are denoted by the same reference position.

Figure 1 is a view in section, showing the extractor module according to a variant implementation of the present invention; figure 2 is a disassembled view in section, showing the extractor module, which separated the plunger; Fig 3 is a perspective view showing the screw extractor module, shown in figure 1; and figure 4 is a view showing an example configuration is applied to the extractor module, shown in figure 1, in which the brush rotates, when the NT is rotated.

As shown in figure 1, module 1 juicer according to a variant implementation of the present invention includes the juicer container 10, the lid 20, the screw 30 and the mesh drum 40. Additionally, module 1 juicer includes a brush 50 and the plunger 70. Module 1 juicer used the juicer for making fruit juice, vegetable juice, cereal juice, nut juice or other model of the crushed products, and module 1 juicer can be vertically installed on the main body (not shown), which is integrated drive unit. As any traditional main building can be used as the main body of the juicer according to the present invention, the specific description and picture of the main building will be omitted in the description and in the drawings of the present invention.

Drive device has a drive shaft which vertically protrudes from the main body, so that the drive shaft was removable connected to the rotating shaft 32 located at the lower end of the auger 30. Drive shaft has a generally trapezoidal profile. In this case, the rotating shaft 32 of the screw 30 may be provided with a keystone Jack shaft, which is inserted keystone drive shaft.

The juicer container 10 has an open top, and the lid 20 is connected to the upper part is com juicer container 10. In order to cover 20 was removable attached to the upper section of the container 10 juicer, the juicer container 10 and the cover 20 provided with connecting ribs 11 and 21, respectively, which correspond to each other, so that the connecting ribs 11 and 21 can be connected to each other by rotation of the cover 20 in the same direction, at the same time, they could be disconnected from each other due to rotation of the cover 20 in the opposite direction.

As described in detail below, the auger 30 and the mesh drum 40, which is almost adjacent to the outer end of the screw 30, located inside of the juicer container 10, so that the screw 30 and the mesh drum 40 could cause crushing of the raw material between them and get the juice or extract of raw materials. Mesh drum to squeeze the juice is mostly used as a sieve drum 40, but chopping mesh drum to grind other grains or nuts may be used.

The brush 50 is removable mounted on the outer circumference of the sieve drum 40 and is located between the sieve drum 40 and the inner surface of the wall of the juicer container 10, so that the brush 50 can rotate itself to mainly serve to remove materials or residues of raw material adhering to the inner surface of the container wall 10 juicers. the Fe mesh of the drums may vary depending on raw materials, want to process. In this case, one type of the sieve drum can be replaced by another type of the sieve drum.

Auger 30 essentially has a cylindrical shape, and a screw sections 31, which are converted to mesh with the drum 40, to crush and to send raw materials, is formed on the outer periphery of the screw 30. The blade surface to facilitate cutting or grinding of the raw materials may be additionally formed on the mesh drum 40.

The rotating shaft 32, which passes through the Central area of the lower inclined surface 101 of the juicer container 10, is installed on the bottom of the Central section of the screw 30. The auger 30 is removable connected to the drive shaft, located on the upper section of the main body on which is mounted module 1 juicer. As described above, the driving shaft is the shaft which is rotationally driven and extends from the drive device in the main building with the engine. Drive unit can be made with the possibility of rotation of the rotating shaft at low speeds or, alternatively, the rotation of the rotating shaft on medium speed or high speed.

Here, it is preferable that the rotating shaft 32 had keystone Jack shaft, and preferably, the drive shaft had a trapezoidal shape to stastical keystone Jack shaft.

The lower inclined surface 101 of the container 10 juicers gradually descends outward from the rotating shaft 32, which is located in its Central part. This form of the lower inclined surface 101 allows water and moisture in the lower part of the container 10 juicers to go to the bottom of the outer region of the container 10 juicers, and not to the lower Central region of the container 10 juicer that is required to prevent water leakage around the rotating shaft 32, that is, through the shaft hole in the bottom center of the container 10 juicers.

The lower inclined surface 33 which gradually rises from its outer side to its Central part, to match the lower inclined surface 101 of the juicer container 10, is formed on the lower section of the screw 30. The lower inclined surface 33 of the screw 30 is turned to the lower inclined surface 101 of the juicer container 10, and the Central part of the lower inclined surface 101 is located above. Additionally, the gasket 102 is installed in the Central part of the lower inclined surface 101, and the rotating shaft 32 of the screw 30 is inserted in the gasket 102. Inclined surface 102a, continuing from the lower inclined surface 101, is formed on the upper part of the strip 102. Inclined surface 102a of the strip 102 is tightly in contact with the bottom decl is authorized by the surface 33 of the screw 30, so that the leakage of water through the hole for the shaft could be more reliably prevented.

Additionally, the guide rotary section 34 formed on the upper end of the auger 30. Preferably, the guide rotary section 34 has a flat horizontal top surface (see figure 3). The guide rotary section 34 movably converted to rotary guide 22 formed on the lower section of the cover 20. Thus, the rotary guide 22 is directed to the upper and side surfaces of the guide rotary section 34.

As well shown in figure 3, the guide rotary section 34 has a ring shape. This is because such a configuration may cause the lowering of raw materials, thrown into the boot groove 24 for the raw material of the cover 20. At least one reinforcing rib 37 is connected between the guideways section 34 and the housing of the screw 30. This reinforcing rib 37 serves to strengthen the rotary guide section 34, to prevent the separation of the guide rotary section 34 from the housing of the screw 30. Despite the fact that the rotary guide section 34 and the housing of the auger 30 is made as one piece by injection molding according to the present variant implementation, the guide rotary section 34 and the housing of the screw 30 can be performed separately and catamaran, for example, according to the wiring diagram. In addition, while the guide rotary section 34 causes the lowering of raw material, the guide rotary section 34 may have any other shape or configuration other than the configuration in the form of a ring.

Due to the rotary guide 22 of the cover 20 and the guide rotary section 34 of the screw 30, the shaft, which otherwise is located at the upper end of the screw in a traditional module juicer, or Jack shaft, which otherwise is located in the lid, can be omitted.

Returning to figures 1 and 2, the loading chute 24 for raw materials elongated vertically on the upper end of the cover 20. The area of the upper end of the auger 30 is made with a blade structure 39 (see figure 3) for cutting raw materials, thrown into the boot groove for raw materials, or push raw materials down. In order raw materials, thrown into the boot groove for raw materials, could be cut using such a blade structure 39, the loading chute 24 for raw materials is deviated from the Central part of the cover 20.

When the plunger 70 is used to compress and push the raw materials, namely, such raw materials as fiber-rich fruits or vegetables into the loading chute 24 for raw materials. If the plunger 70 compresses the raw material in the loading chute 24 for raw materials, raw materials pushed down to the lower end of the download the full chute 24 for raw materials, so that raw materials could be cut with the edge structure 39 (see figure 3) in the upper end of the auger 30 and/or protolknuli or lowered into the container 10 juicers.

As clearly shown in figure 2, the loading chute 24 for raw materials has an inner edge 244 formed on the lower inner surface of its walls, and guide 242, continuing from the upper inner surface of the wall to the inner edge 244. Additionally, the plunger 70 has a lateral surface, which has an elongated guide groove 72, the corresponding guide 242 and costal groove 74, corresponding to the inner edge 244. The guide groove 72 and the rib, the groove 74 is shown in dashed lines. The inner edge 244 can also be used for cutting raw material together with a rib groove 74 of the plunger 70. Form feed chute 24 for raw materials and the plunger 70, as shown in figure 2 are examples are described to illustrate the present invention and, therefore, the present invention is not limited to them. Essentially, the guide groove 72 and the rib groove 74 of the plunger 70 and/or the inner edge 244 and the guide protrusion 242 of the feed chute 24 for raw materials, can be omitted.

Mesh drum 40 is maintained stationary within the container 10 juicers. If the auger 30, located inside of the sieve drum 40 rotates, atchity drum 40, who turned the screw portions 31 of the screw 30, crushes raw materials, abandoned it to get the juices or extracts. Here, if the set of elongated edges, there are numerous elongated blades wall surface, can be formed on the mesh drum 40 in a vertical position, crushing, cutting and efficiency squeeze the juice from raw material can be improved. The juicer container 10 has a first outlet 14 and the second outlet 12, while the saps and extracts derived from raw materials that are produced through the first outlet 14 of the container 10 juicers, while the remains of the raw materials are produced through the second outlet 12.

To attach the mesh drum 40 to the container 10 juicers without hesitation, the first and second inserted the tabs 43 and 44 directed downward, is formed on the one and on the other hand the lower end of the sieve drum 40, respectively, while the hole 18 for inserting and chute 19 to insert, in which the first and second inserted the tabs 43 and 44 respectively inserted, are formed in the bottom of the juicer container 10. The chute 19 to insert may consist of one or more grooves for insertion, and exhibiting the second protrusion 44 may also consist of one or more second protrusions inserted, depending on the number W is Lobov to insert.

Here, the first inserted, the protrusion 43 and the hole 18 for inserting may form a channel, which continues to the first exhaust hole 14 of the juicer container 10, as shown in figure 1.

The brush 50 is used for the continuous removal of raw materials or residues of raw material adhering to the inner surface of the container wall 10 juicers. The brush 50 has a rotary frame 52 of the brush, which essentially has a cylindrical shape, and a scraper 54, which is mounted on the frame 52 of the brush. Scraper 54 is made of a flexible material, such as flexible plastic or rubber material, and tightly contact with the inner surface of the wall of the container 10 juicers. Because the brush 50 is rotated, the scraper 54 can continuously remove the raw material or the remains of raw material adhering to the inner surface of the container wall 10 juicers.

Many schemes can be selected for rotation of the brush 50. Under this option complete the chain of gear wheels, as shown in figure 4, causes a corresponding rotation of the brush 50, when the screw 30 is rotated. As shown in figure 4, all of the intermediate gear wheel 95 is located between the master gear 35 formed on the lower end of the auger 30, and a driven gear wheel 525 formed at the lower end of the frame 52 of the brush, and this intermediate gear 95 is in C is Ceplene as a leading gear wheel 35, and with the slave gear 525. Essentially, if the screw 30 (see Fig 1) is rotated, the joint work of the toothed wheels 35, 95 and 525 causes the rotation of the brush 50 (see Fig 1).

5 is a view in section, showing the extractor module according to another variant implementation of the present invention. Module 1 juicer according to the present variant execution includes one shaft 301, located in the upper Central part of the screw 30, and the Jack shaft 201 is formed in the lower Central part of the cover 20 located at the upper end of the juicer container 10 so that the shaft 301 has been inserted into the slot 201 of the shaft to support the screw 30 to rotate. Here, in order to prevent breakage of the slot 201 of the shaft due to any possible lateral variations of the screw 30, the reinforcing layer 210 is formed in the socket shaft 201 by using the schema insert or coverage schemes. Because the insertion of the shaft 301 in the slot 201 of the shaft causes the support for the upper end of the screw 30 to rotate, the rotary guide at the bottom of the cover and the guide rotary plot in the upper part of the auger, as described in the above embodiment, can be omitted. Other configurations are identical to those configurations in the above embodiment, so the description of the other configurations will be omitted in order to avoid the hut is full of descriptions.

Option of carrying out the invention

As shown in Fig.6, the juicer with a vertical auger according to an additional variant of implementation of the present invention contains a main building 4000, with the engine 4000a, embedded in it; and the extractor module mounted on the main housing 4000. The extractor module includes auger 1000 container-2000 juicer, net reel 3000 and the cover 6000. Juicer with a vertical auger further comprises a locking structure 5000, which operatively connects the driving shaft 4100 engine 4000a with a rotating shaft 1100 auger 1000 and simultaneously prevents lifting of the rotating screw 1100, when the driving shaft 4000 spinning. The sequence of Assembly of the main body and the corresponding components of the extractor module can be changed in various ways, and, therefore, the present invention should not be limited to sequence Assembly.

The rotary shaft 1100 made integral with screw 1000, and the rotary shaft 1100 continues to vertically protrude from the lower part of the rotary shaft 1100. Auger 1000 installed vertically in the container 2000 juicer, and net reel 3000 is installed inside the container 2000 juicer to accommodate the circumference of the screw 1000. Mesh drum 3000, in conjunction with the auger 1000, is used to obtain the juices of that is on raw materials, as fruits or vegetables, and simultaneously serves as a filter to separate the juice from the remnants of their raw materials. The container 2000 juicer includes a lower inclined surface 2010, which is inclined outward from the Central part or its neighboring area, and auger 1000 includes a lower inclined surface, which is formed on the lower part of the screw 1000 and contact surface with the lower inclined surface 2010. The lower inclined surface of the 2010 can cause a tight fit of the screw 1000, having a corresponding inclined surface, and at the same time serves to prevent the passage of moisture through the Central part of the lower inclined surface 2010, where the established connection between the drive shaft and the rotating shaft.

When the module extractor is mounted on the main body, the driving shaft 4100 engine 4000a inserted into the container 2000 juicer through the lower gasket 2010a container 2000 juicer. Auger 1000 includes a bottom cavity, which accommodates the circumference of its rotary shaft 1100, in which the rotary shaft 1100 auger 1000 and the driving shaft 4100 connected to each other by the scheme insert inside the bottom cavity. With this purpose, the rotary shaft 1100 has an elongated slot 1100a shaft of circular cross section, while the driving shaft 4100 has a corresponding circular cross section, so that the driving shaft 4100 is supplied into the slot 1100a shaft. As will be described in detail below, the locking design 5000 made with full damping of the relative movement between the drive shaft 4100 and the rotary shaft 1100 in the vertical direction and in the direction of rotation when the driving shaft 4100 rotates. Specifically, the locking 5000 design eliminates lifting of the auger 1000 by limiting the vertical movement of the rotating shaft 1100. Additionally, the locking design 5000 are designed to ensure easy separation of the connection between the drive shaft 4100 and the rotary shaft 1100, when the rotation of the driving shaft 4100 terminated.

Cover 6000 removable attached to the upper section of the container 2000 juicer and has a support 6100 formed on the bottom surface of the cover 6000 to eliminate vibration of the screw 1000. Preferably, bearing 6100 had a rotary supporting element, which is adjacent the upper edge of the screw 1000 to guide the rotation of the screw 1000, while the rotational support element can have multiple guide elements, which are periodically in contact with the top edge of the screw 1000. Auger 1000 includes a spiral rib formed on the side surface of the screw 1000 to grind, cut or crush the raw materials, with a spiral rib is located adjacent to the inner surface with tatoga reel 3000.

The locking design 5000 includes a pair of locking protrusions 5020 and 5020, respectively, secured on both diametrically opposite sides of the driving shaft 4100. A pair of locking protrusions 5020 and 5020 may be formed by a pin that passes through the driving shaft 4100. Pin inserted in the pin hole of the driving shaft 4100 for planting scheme with tension, so that both ends of the pin protrudes from the side surface of the driving shaft 4100 in the diametrically opposite direction, thereby forming a pair of locking protrusions 5020 and 5020, as described above. The locking design 5000 additionally includes a pair of fixing holes 5040 and 5040 formed on the rotating shaft 1100 and the corresponding locking projections 5020 and 5020. In a state where the driving shaft 4100 inserted into the slot 1100a rotating shaft 1100, the locking protrusions 5020 and 5020 may be located within the locking holes 5040 and 5040, respectively. Additionally, as will be described below, when the driving shaft 4100 rotates, the locking protrusions 5020 and 5020 are maintained closed in the corresponding fixing holes 5040 and 5040, so that the auger 1000 and, thus, its rotary shaft 1100, was able to rotate together with the drive shaft 4100.

Fig.7(a) shows the state in which the working connection between the rotary shaft 1100 and drive shaft 4100 can be is disconnected, while Fig.7(b) depicts another position in which the rotary shaft 1100 and the driving shaft 4100 operatively connected.

As shown in Fig.7(a) and 7(b), each locking protrusion 5020 has the shape of a circular cylinder, and its corresponding locking hole 5040 has a shape allowing vertical insertion of the locking protrusion 5020, horizontal linear direction of the locking protrusion 5020 and vertical extraction of the locking protrusion 5020. That is, the lower cavity 5040a, which is open downward, is formed in the lower part of the fixing hole 5040, to allow the locking tab 5020 go in and out; a linear guide section 5040b is formed in the upper Central part of the fixing hole 5040, to allow horizontal and linear movement of the locking protrusion 5020, when the driving shaft 4100 starts to rotate; and the locking protrusions 5040c, which closed the locking protrusion 5020, when the driving shaft 4100 and the rotary shaft 1100 screw rotate in the scheme of mutual coupling, formed on either side of the linear guide section 5040b, each locking tab has 5040c the form is essentially an arc of a circle. The lower portion of each retainer section 5040c has a shape capable of preventing the exit down the locking protrusion 5020, that is ongoing inside the form. Therefore, even elenamalena upward force to lift the auger 1000 is generated during rotation of the auger 1000 (see 6), screw 1000 is deducted from the recovery, since the locking protrusion 5020 geared locking section 5040c. In addition to the locking protrusion 5020 more reliably in contact with the inner surface of the clamping area 5040c fixing hole 5040, it is preferable that the round shape of the cross section of the locking protrusion 5020 corresponded to the shape of an arc of the circumference of the clamping area 5040c. More preferably, the radius of the locking protrusion 5020 was essentially identical to the radius of curvature of the circular arc shape of the fixing section 5040c. Although a pair of locking protrusions 5020 and 5020 and a pair of fixing holes 5040 and 5040 respectively provided on the control shaft 4100 and the rotating shaft 1100 in the present embodiment, the fixing structure 5000, as shown in Fig, in which only the locking protrusion 5020 and only fixing hole 5040 formed on the control shaft 4100 and the rotating shaft 1100, respectively, should be considered in the scope of the present invention.

As shown in Fig.6 and Fig.7(a) and (b)when used locking design 5000, as described above, the extractor module, in which the auger 1000 container-2000 juicer and net reel 3000 assembled, vertically pressed down and is mounted to the main building 4000, which is the driving shaft 4100, thereby the driving shaft 4100 can be inserted into the slot 1100a rotating shaft 1100. Alternatively, in a state where the container 2000 juicer is mounted on the main building 4000, the driving shaft 4100 can be inserted into the slot 1100a shaft by means of a simple operation cuddling down auger 1000 drive shaft 4100 or only by the weight of the screw 1000. Additionally, only through the work of the engine 4000a embedded in the main building 4000, the locking protrusion 5020 provided on the control shaft 4100, rotates and then spontaneously engages the locking section 5040c fixing hole 5040, so that the driving shaft 4100 was operatively connected to the auger 1000 and its rotating shaft 1100. Here, as shown in Fig.7(b), since the fixing section 5040c fixing hole 5040 strictly prevents vertical movement of the locking protrusion 5020, auger 1000 can reliably be rotated in its primary position, without lifting up, even if an upward-directed force for lifting the auger 1000 can be formed due to the rotation of the screw 1000 and/or the accumulation of stocks of raw. In addition, when the screw 1000 is necessary to separate after stopping the rotation of the screw 1000, after the screw 1000 only turns slightly and then rises upwards, the locking state between the locking protrusion 5020 and its corresponding locking hole 5040 is released from the position as shown in Fig.7(b), in the position as shown is as Fig.7(a), so screw 1000 could be more easily separated.

In addition, the locking hole 5040 has a slanted surface 5040d, which are located on the lower section of the locking hole 5040 and gradually continue inside the locking hole 5040, more specifically, the locking sections 5040c. Even if the locking protrusion 5020 and its corresponding locking hole 5040 are not aligned with each other, the inclined surface 5040d will allow the fixture protrusion 5020 formed on the control shaft 4100 spontaneously to slide on the inclined surfaces 5040d, so that the locking protrusion 5020 could spontaneously move in the locking hole 5040. Because it is difficult to determine the relative position between the locking protrusion 5020 and its corresponding locking hole 5040 naked eye, the inclined surface 5040d very useful for the implementation of an easy connection between the rotating shaft of the auger and drive shaft of the engine.

In addition, as shown in Fig.9, since the inclined surface 5040d have the shape of an arc, which consequently continues on both sides of the lower cavity, the locking protrusion 5020 can spontaneously move into its corresponding fixing hole 5040 over the inclined surface 5040d, even if the locking protrusion 5020 can Nestle down in some of the ohms position.

Figure 10 is a longitudinal view showing a juicer with a vertical auger according to another variant implementation of the present invention.

As shown in figure 10, the rotary shaft 1100 passes through the Central portion of the auger 1000 and, thus, stands up on the top section of the screw 1000 in the juicer with a vertical auger in accordance with the present variant execution. The upper portion of the rotary shaft 1100 has a smaller diameter than the other portions, and is inserted into the slot 6100a shaft formed in the cover 6000. Since the upper portion of the rotary shaft 1100 screw 1000 is inserted into the slot 6100a shaft and supported for rotation, vibration screw 1000 can be suppressed to some extent during rotation of the screw 1000. The configuration of the upper auger section 1000 and socket 6100a shaft bearing replaces 6100 guide type (see Fig.6), shown in the above embodiment. Because the juicer with a vertical auger in accordance with the present variant execution has essentially the same configuration as the above-mentioned variants of execution, with the exception of the support element in the upper part of the screw through the slot 6100a shaft and the upper section of the rotating shaft 1100, description for the same configuration will be omitted to avoid redundant description.

11 depicts a modified fix the tank structure to prevent lifting of the auger.

Fixing the design of the 5000, as shown in figure 11, includes a first hole 5060 under the pin provided in the control shaft 4100; the second hole 5070 under the pin provided in the rotary shaft 1100; and the locking pin 5020', which is simultaneously inserted in the first hole 5060 under the pin, and the second hole 5070 under the pin, when the driving shaft 4100 inserted into the slot 1100a rotating shaft 1100 auger. To this end, the first hole 5060 under the pin is formed to the side to pass through the driving shaft 4100, and the second hole 5070 under the pin is formed to the side to pass through the rotary shaft 1100 screw in the place where is located the nest 1100a shaft.

According therefore to the present invention, the following advantages can be expected.

The extractor module according to one variant of implementation of the present invention adopts the bottom structure of the container juicer having a surface inclined downwards, which gradually descends from the Central region of the bottom surface of the container extractor, through which the rotating shaft of the auger is held to the outer part of the bottom surface of the container juicer, so that the leakage of water from the container goes through the main body can be prevented. Essentially cylindrical protrusion to provide a watertight is ti, which otherwise formed on the lower section of the container traditional juicer or extractor module can be omitted, thereby additionally facilitating the cleaning of the bottom portion of the container juicer. Additionally, the extractor according to another variant implementation of the present invention, the inclined plane, which corresponds to the lower inclined surface of the container juicer, formed on the lower section of the screw, thereby fixedly supporting the screw on the bottom portion of the container juicer. Additionally, the extractor according to another variant implementation of the present invention, the guide rotary section and a rotary guideway formed on the upper end of the auger and the lower section of the cover, respectively, so that the Jack shaft, which is otherwise formed in the lid traditional juicers, could be omitted, thereby allowing the cleaning cover more hygienic and convenient way.

Industrial applicability

Scope of the present invention is not limited to the option run as described and shown above, but is defined by the attached claims. It is clear that the experts in the art can perform various modifications and changes thereto within the scope of the invention, is definitely the claims. Therefore, the actual volume of the present invention should be defined by the technical nature of the attached claims.

1. The extractor module, containing:
the container juicer with an open top, with a hole for the shaft formed in the lower Central part of the container juicer;
cover with a loading chute for raw materials in its wall, and the cover is connected with the upper section of the container juicer;
net drum, still located inside the container extractor; and
screw, located inside of the sieve drum and the auger has a helical section formed on its side surface, and a rotating shaft passing through the shaft hole of the container juicer,
at this time the container juicer includes a lower inclined surface, falling out from the holes for the shaft, and at the lower end of the screw is at least partially formed of the lower inclined surface contacting with the specified lower inclined surface.

2. The extractor module according to claim 1, in which the gasket in which the rotating shaft is inserted, is installed in the Central area of the lower inclined surface, and the gasket includes an inclined surface continuing from the lower inclined surface.

3. Module extractor for P1, in which the inserted protrusion formed on the bottom on one side of the lower end of the sieve drum and at least one second inserted protrusion formed at the bottom on the other side of the lower end of the sieve drum, and in which the hole for the insert, which is inserted first inserted protrusion formed on one side of the lower inclined surface, and at least one groove for inserting, into which is inserted the second inserted protrusion formed on the other side of the lower inclined surface.

4. The extractor module according to claim 1, in which the rotary guide section formed on the upper end of the auger, and the cover is provided with a rotary guide for the direction of rotation of the screw, and rotary guide is in contact with the edge guide of the swivel section.

5. The extractor module according to claim 1, in which the shaft is formed on the upper Central section of the screw, the Jack shaft, which shaft is inserted, is formed in the bottom side of the cover, and a reinforcing layer formed in the slot of the shaft.

6. The extractor module according to claim 1, in which the blade structure for cutting raw materials, thrown into the boot groove for raw materials, or push the raw down is formed on the upper end of the auger.

7. The extractor module, containing:
the container extractor to open the th top, with a hole for the shaft formed in the lower Central part of the container juicer;
cover with a loading chute for raw materials in its wall, and the cover is connected with the upper section of the container juicer;
net drum, still located inside the container extractor; and
screw, located inside of the sieve drum and the auger has a helical section formed on its side surface, and a rotating shaft passing through the shaft hole of the container juicer, the lid is provided with a rotary guide for the direction of rotation of the screw.

8. The extractor module according to claim 7, in which the rotary guide section formed on the upper end of the auger and rotary guide is in contact with the edge guide of the swivel section.

9. The extractor module of claim 8, in which the guide turning area has the shape of a ring for lowering raw materials, abandoned in the feeder trough for raw materials.

10. The extractor module of claim 8, in which the rotary guide contains a lot of guide elements in contact with the guideways plot, with at least one cavity is provided between adjacent guide elements and allows drop through it, put the juice of raw materials.

11. Juicer with ver isalnum screw, contains:
a main body having a drive shaft protruding upward;
a container with an open top, mounted on main body;
screw, located inside the container, and the screw has a rotating shaft vertically mounted on the driving shaft;
mesh drum located inside the container to cover the periphery of the auger;
a lid connected to the top section of the main building, and the boot lid has a spout for raw material; and fixing the design to limit vertical movement of the auger to prevent lifting of the auger when the driving shaft and the rotating shaft rotate together.

12. Juicer with a vertical auger according to claim 11, in which the rotating shaft includes a Jack shaft, which is inserted the upper portion of the drive shaft, and the locking structure includes a locking protrusion formed on the control shaft, and a locking hole formed on the rotating shaft so that the locking protrusion has been inserted into the locking hole when the driving shaft is inserted into the slot of the shaft.

13. Juicer with a vertical screw indicated in paragraph 12, in which the locking hole includes a lower hollow, open bottom, to allow the locking tab to enter and exit;
the guide section to provide horizontal movement of locking you blunt, when the drive shaft starts to rotate; and a fixing section for limiting vertical movement of the clamping ledge.

14. Juicer with a vertical auger in item 13, in which the locking hole has a pair of fixing sections formed respectively on the right and left sides of the guide section to prevent vertical movement of the rotating shaft with respect to bidirectional rotation of the drive shaft.

15. Juicer with a vertical auger in item 13, in which the locking protrusion has a circular cross-section and the locking section is made in the form of an arc of a circle corresponding to the circular cross-section.

16. Juicer with a vertical auger according to item 13 or 14, in which the locking hole additionally has a slanted surface on the lower section of the locking hole, so that the slide guide locking tab in the locking hole.

17. Juicer with a vertical auger in clause 16, in which the inclined surface is made in the form of an arc, which is connected with both sides of the lower cavity.

18. Juicer with a vertical auger according to claim 11, in which the rotating shaft includes a Jack shaft, which is inserted into the upper portion of the drive shaft, and the locking structure includes a pair of fixing protrusions formed respectively the and of the two diametrically opposite sides of the drive shaft; and a pair of locking holes formed in the rotating shaft so that the pair of locking protrusions was accordingly inserted in the locking hole when the driving shaft is inserted into the slot of the shaft.

19. Juicer with a vertical auger according to claim 11, in which the cover has a support formed on its lower surface, to suppress the vibration of the upper section of the screw.

20. Juicer with a vertical screw indicated in paragraph 12, in which the locking protrusion is formed from the end of the pin inserted from the side and installed in the drive shaft.

21. Juicer with a vertical auger at 17 in which each of the locking hole has an inclined surface for guiding sliding of the corresponding locking protrusion into the locking hole, and the inclined surface is made in the form of an arc, which is connected with the corresponding locking protrusion.



 

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