Juicer

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

 

The present invention relates to a juicer that is designed to squeeze the juice from vegetables, fruits or soy milk from soy beans, and more specifically, to the juicer that delivers great sokovyzhimalka function regardless of the types of vegetables or fruits and preserves the freshness of the juice due to the application of method spins with a very low speed, so that the size of the juicer and the noise is significantly reduced and easily perform the Assembly, disassembly and cleaning of the juicer.

For a healthy lifestyle is increasingly being used to direct the production and consumption of juice, including vegetable juice at home. For this purpose, there have been many devices that can easily squeeze the juice from vegetables and fruits at home.

Existing juicers grind the materials placed in the inlet, with high speed and produce juice by centrifugal separation. However, existing juicers have disadvantages, namely that during such high-speed process of natural taste and nutrients contained in fruits, can break down, and it's hard to squeeze vegetable juice from vegetables, with branches and leaves. It is also hard to squeeze juice from fruit having a high viscosity, for example of kiwi and strawberry, and impossible to squeeze soy milk from soy beans. Augmented the e to this for continuous squeeze the juice from vegetables and fruits often required to disassemble and clean the juicer to remove the waste (i.e. residues), stuck in the filter cells of the grid.

Korean utility model registration number 190676, which was assigned to the applicant, represents the grinder combined with the juicer. In Fig. 1 shows a cross-section showing the construction of a traditional juicer. As shown in Fig. 1, a traditional juicer 10 is equipped with a long screw 20, horizontally mounted in the drum together with sokovyzhimalka grid and lid of the drum and the engagement of the inclined surface of the drive device. Thus, the juicer is stretched horizontally and performs squeezing juice as the materials placed into the inlet 30, horizontally moved at a low speed.

Accordingly, for use or storage of the juice extractor 10 need much space. In addition, since squeezing the juice runs with horizontal movement of materials, speed, squeeze the juice gets low, and thick juice may well not drain down and remains in the drum. In addition, since one side of the auger 20 is not provided for rotating the shaft, the screw 20 without rotating the shaft, trembling with rotation and facing the wall climbed the s, performed on the inner wall sokovyzhimalka grid that causes noise and wear of the screw.

In addition, since the outlet 40 for juice is low, can be used only low glass of juice, and you can't use a tall glass of juice.

The present invention was created in consideration of the above-mentioned problems, and an object of the present invention is to provide a juicer, which could prevent the loss of freshness of beans or vegetables and in which squeezed juice could well drain down regardless of the types of vegetables or fruits, i.e. even if squeezed juice is a dense fruit juice or soy milk.

Another object of the present invention is to provide a juicer, which could have increased the speed squeeze the juice and which squeezed juice well flowed down without staying in the case.

Another object of the present invention is to provide a juicer that could prevent shaking or shocks sokovyzhimalka auger during operation of the screw and, thus, to reduce noise and to prevent abrasion of the screw.

Another object of the present invention is to provide a juicer that would automatically move materials down without pressing the materials and could complianc is but to be used without the need for frequent disassembly and cleaning of the juicer.

The problem is solved through a juicer, which contains a cover with the entrance hole made on one side of its upper part, and a hole for the rotating shaft, is made in the center of its inner part; a housing mounted at the bottom of the cover and having a guide clip, made in the lower part of the housing, the outlet for waste and outlet for juice spaced from each other in the lower part of the body, waterproof cylinder having a through hole, and is made in the center of the lower part of the body, and the channel of the discharge pressure, is made around the lower part of the waterproof cylinder; screw having upper rotating shaft located in the upper part of the screw to insert rotatably in the hole for the rotating shaft, the many spirals of the screw, made on the outer surface of the screw, the inner ring, is made at the lower end of the screw, protruding downwards and having a lot of gear that is inserted in the channel of the discharge under pressure with the possibility of rotation, the lower space formed inside the inner ring for receiving it waterproof cylinder, the lower rotating shaft, is made in the center of the lower part of the screw, and a hole for a polygonal shaft formed therein; honeycomb drum with mesh structure, made on the outer wall of the mesh drum to output the juice outlet for juice, and plenty of wall blades longitudinally located on the inner surface of the honeycomb drum for insertion into the guide clamp; a rotating brush mounted between the casing and the honeycomb drum for rotation and having a brush holder in which the brush set for the continuous purification of the cell drum and the housing; and a drive unit having a polygonal shaft, which is inserted into the polygonal hole of the shaft through the through hole of the waterproof cylinder and rotates the auger low speed; in this case, accommodating the screw longitudinally attached to the top side of the drive device with the possibility of pressing, crushing and squeezing juice from materials placed in the input hole, and excretion of waste.

Channel discharge pressure housing may be connected with the outlet for juice.

The output mechanism of the waste may contain lead protrusion, made at the end of the lower part of the spirals of the screw by cutting from the inside of the lower border of the auger; the lower ring, made at the end of the lower part of the mesh drum and having a hole for insertion of the inner ring, made for placement of the inner ring; lead the inclined surface is, formed on the upper surface of the lower ring, and pin inclined surface is made in the form of a circular arc, the depth of which increases in the direction of rotation of the auger; exit honeycomb drum which is connected to the end of outlet inclined surface for removal of waste from the cellular drum; and a pin housing bore, is made with one side of the lower part of the body and connected with the outlet hole of the honeycomb drum and the outlet to waste; when this pin protrusion removes waste outlet waste through the outlet hole of the housing, pushing through the waste outlet hole mesh drum as the rotation of the lead protrusion lead along the inclined surface.

On the edge of the inner side of the lower ring may be made annular ledge, and on the outer side of the annular protrusion may be made annular groove, and the outer circumference of the inner ring can be made the outer ring, protruding downward, and between the inner ring and outer ring can be made a hole for inserting an annular ledge; the outer ring rotatably entered into an annular groove to increase the area of contact with the waste sent to lead protrusion and the annular protrusion inserted into the hole is ment to minimize the amount of waste generated in the discharge channel under pressure.

In the upper part and the lower part of the outer wall of the mesh drum can be made of the filter mesh, and bale net, with many made on her cell, and between the filter mesh and the bale mesh is a closed-back design, in which the longitudinal done a lot of chopping blades 390; the juice is displayed in outlet for juice through the filter mesh, and bale net.

On the border of the lower end portion of the cover can be made many saralaya clamps on the outer circumference of the upper end of the housing can be made many saralaya protrusions, the drive unit can be located siteplease hooks, the housing, which engages with the cap engages saralaya clamps with siteplease ledges, Rethimno is attached to the drive device siteplease hooks.

The brush may include a brush for a grid attached to the inner surface of the brush holder for the continuous purification of the outer wall of the mesh drum, and the brush body attached to the outer surface of the brush holder for the continuous purification of the inner wall of the housing.

Drive brush can be installed in the lower part of the brush holder, and an intermediate actuator may be rotatably installed on n is sung surface of the shell for engagement with the drive of the brush; the intermediate actuator, which is geared with the gear, is designed to bring the rotation of the drive brush.

On the bottom surface of the inlet cover may be made inclined surface in the direction of rotation of the screw.

The output mechanism of the waste may further comprise an elastic sleeve mounted on one side of the lower surface of the pin holes of the housing and one side of the cuff is introduced into the groove for insertion performed on the lower surface of the housing to form a seal, and the other side is in close contact with the release pin holes of the housing.

The cover may further comprise a fixing protrusion made on the outer circumference of the cover, and the fixing protrusion is located at the rear, provided that outlet for juice and outlet for waste are located at the front.

The driving device may include a base, in which you installed the engine and control device, siteplease surface of the housing, is made on the upper surface of the base, a polygonal shaft of the engine, which is in the centre siteplease surface, many saralaya hooks located on the outer circumference siteplease surface for mounting the housing, the support frame having ustanavochny the second surface, made with one hand siteplease surface of the chassis base to match the side of the case and passing from the base to support the housing, the mounting groove, which is made on the upper surface of the base frame with fastening thereto the mounting protrusion of the cover, and a handle extending from the upper end of the rear surface of the mounting surface for the housing support frame to the lower end of the base.

In the juicer with the above construction according to the present invention in the fully stored various nutrients and natural taste contained in the juice, soy milk, etc. through the use of a screw squeezing with very low speed instead of grinding using high-speed rotating blade, and you can squeeze large amounts of juice regardless of the kinds of vegetables and fruit.

The body of the juicer longitudinally attached to the upper side of the drive device, and thus, the materials naturally move down under the action of gravity and the rotation of the screw, and the speed of squeezing juice increases. Accordingly, squeezed the juice well flows down, not staying in the body, and thus, you can quickly squeeze the juice out of any fruit and vegetables.

Additionally, since the screw is fixed in the two is ravlenija and this prevents vibration of the screw, to prevent shaking or shocks, screw on the inner wall of the mesh drum during operation of the auger to reduce noise and prevent abrasion of the screw.

Moreover, since on one side of the bottom surface of the lid of the juicer is made sloping surface, the materials are automatically entered into the input hole without pushing the material down.

The previously mentioned and other objectives, features and advantages of the present invention are evident from the following detailed description and the accompanying drawings, which represent the following:

figure 1 - cross juicer, known from the prior art;

figure 2 - section of the juicer according to the present invention;

figa - section of the outlet for the waste extractor according to the present invention;

figw - section of the outlet for juice extractor according to the present invention;

4 is a top view of the housing of the extractor according to the present invention;

5 is a perspective view of a juice extractor according to the present invention;

6 is a perspective view of the closed housing that is attached to the drive device according to a preferred variant implementation of the present invention;

Fig.7 is a perspective view of the drive astrointestinal according to a preferred variant implementation of the present invention.

Below are described the preferred embodiments of the present invention with reference to the accompanying drawings. The objects defined in the description, are nothing else than the characteristic details given in the help of the experts in the art in a comprehensive understanding of the invention, and the present invention is only defined within the scope of the attached claims.

Figure 2 - section of the juicer according to a variant implementation of the present invention. Figa - section of the outlet for the waste extractor according to the present invention, and FIGU - section of the outlet for juice extractor according to the present invention. Figure 4 shows a top view of the housing of the extractor through line a-a' figv. 5 is a perspective view of a juice extractor according to the present invention. Figure 6 shows a perspective view of the closed housing that is attached to the drive device, according to another preferred variant implementation of the present invention. 7 shows a perspective view of a drive device of a juice extractor according to a preferred variant implementation of the present invention.

The following describes the juicer according to a variant implementation of the present invention with reference to Fig.2-4. Juicer, according to the invention, includes a cover 100, W is the EC 200, mesh drum 300, the rotating brush 400, the housing 500 and the drive unit 600.

The cover 100 has a wide bottom, and through the top surface of the cover 100 passes the inlet 110. In the center of the lower surface of the lid made a hole 120 for rotating the shaft, in which is inserted a rotating shaft of the screw 200. Preferably, the hole 120 for rotating the shaft was made in the center of the cover 100 and the inlet 110 was made eccentric from the center, which has a hole 120 for rotating the shaft, so that rotation of the auger and the input materials could be carried out evenly.

In addition to this, made many saralaya clamps 130 protruding from the border of the lower end portion of the cover 100, and the lower end portion of the inlet 110 is made inclined surface 140 in the direction of rotation of the screw 200.

The upper rotating shaft 210, which is made in the center of the upper part of the screw 200 is inserted into the hole 120 for rotating the shaft cover 100 with the possibility of rotation. On the outer surface of the auger 200 made many spirals of the screw, which are in contact with the interior of the mesh drum 300.

On the lower end of the auger 200 made plays down the inner ring 250, with many made it gears 280, and between the lower rotating Valo is 240 and the inner ring 250 is formed of the lower space 270. In the center of the lower part of the screw 200, which is located inside the inner ring 250, provided the bottom of the rotating shaft 240 having performed around him polygonal hole 230 for the shaft.

Preferably, the gear was in the form of a blade.

In the end part of the bottom of the spirals of the screw 200 is executed lead protrusion 225 internal displacement of the lower border of the screw 200, which is suitable for removal of waste that have been moved to the bottom surface of the mesh drum 300, of the mesh drum 300.

Preferably, on the outer circumference of the inner ring 250 is made the outer ring 260 acting down. This outer ring 260 is provided to increase the area of contact with the waste, which are popped lead protrusion 225 of the auger and are derived from the mesh drum 300. In addition, between the inner ring 250 and the outer ring 260 is executed hole 290 to insert the annular ledge.

On the inner wall of the mesh drum 300 with predetermined intervals longitudinally perform wall of blades 310, which include long blade and short blade. Preferably, the height of the protruding wall blades down toward the bottom wall of blades so that the wall of the blade 310 finely crushed materials as movement of materials down SNCO is 200.

The outer wall of the mesh drum 300 has a cellular structure, so that the juice is squeezed out of crushed material passes through the honeycomb structure. Preferably, the size of the cells gradually decreased toward the lower part of the cellular structure, as the particle size of the material decreases toward the lower part of the mesh drum 300. In addition, since the material is finely crushed on the intermediate height of the mesh drum 300, the intermediate portion of the mesh drum 300 has a closed structure, not the honeycomb structure to prevent jams waste in a cellular structure or slipping through the honeycomb structure and mix with juice.

On the inner surface of the intermediate part of the mesh drum 300, which has a closed structure, made lots of chopping blades 390, speakers in addition to the wall blades 310. In the upper part of the honeycomb structure is made on the outer wall of the mesh drum 300, made of filter mesh 320, and in the lower part of the cellular structure made bale grid 330.

On the lower end of the mesh drum 300 is made lower ring 340, having made a hole 380 to insert the inner ring to form the bottom surface of the mesh drum 300, which closes HV the inner ring 250 of the screw 200, and on the upper surface of the lower ring 340 is executed outlet inclined surface 350 in the form of a circular arc, the depth of which increases in the direction of rotation of the screw 200. In addition, at the end of the pin inclined surface 350 made pin hole 360 mesh drum for removal of waste from the mesh drum 300.

Accordingly, the material transferred to the intermediate portion along the wall of blades 310 mesh drum 300, additionally crushed in the intermediate part, where there is a lot of chopping blades 390. In the case of soy milk part soy milk is derived from mesh drum 300 through the filter mesh 320, and the remaining soy milk optional ground for withdrawal of the mesh drum 300 through the bale grid 330. Wastes are discharged into the pin hole 360 mesh drum lead along the inclined surface 350.

Preferably, the lower edge of the mesh drum additionally performed annular protrusion 370 in the form of a ring, and around the annular protrusion 370 additionally performed annular groove 375. In an annular groove 375 rotatably inserted the outer ring 260 to increase the area of contact with the waste to be output to the outside. The annular protrusion 370 is inserted into the hole 290 to insert the annular protrusion and is intended for before the prevent high levels of radionuclides movement of wastes in the direction of the channel 580 discharge under high pressure.

Case 500 accommodates the screw 200 and the mesh drum 300. On the upper circumference of the body 500 is a lot saralaya protrusions 510, and in the Central lower end portion of the chassis 500 is waterproof cylinder 530, having made a hole 520, and inserted into the lower space 270 of the screw 200. On the lower side of the outer case is provided by the hole 560 for juice and outlet 570 waste, and on the bottom surface around the waterproof cylinder 530 of the lower end portion formed channel 580 unloading under pressure so that the gear 280 of the screw inserted into the channel 580 with the possibility of rotation.

On the lower surface of the housing 500 is mounting groove 515, and around the channel 580 discharge pressure ring guide clamp 550 is made around the channel 580 unloading under pressure so that the lower ring 340 mesh drum 300 is inserted into the guide clamp 550 and fixed thereto for attaching the mesh drum 300. At the lower end of pin holes 540 of the casing is set cuff 575 of rubber and the other One side of the cuff 575 inserted into the groove 576 to insert performed on the bottom surface of the housing and one side is in close contact with the release pin holes 540 of the housing.

Channel 580 unloading under pressure preferably the connection is replaced with the outlet 560 for juice.

Rotating brush 400 rotatably mounted between the housing 500 and the mesh drum 300 and provided with a holder 430 brush, which brush set for the continuous purification mesh drum 300 and the housing 500.

The brush consists of a brush 410 for a grid attached to the inner surface of the holder 430 brush for continuous cleaning of the outer wall of the mesh drum 300, and the brush 420 for housing attached to the outer surface of the holder 430 brush for continuous cleaning of the inner wall of the housing 500.

Brush 410 for the grid consists of brushes 450 for bale nets for cleaning the filter mesh 320 mesh drum 300 and brushes 460 for bale nets for cleaning bale grid 330 mesh drum 300, which is attached to the holder 430 brush with the intermediate surface having a closed structure, as the boundary between them. Brush 410 for the grid and brush 420 for housing can be met in the aggregate.

So rotating brush 400 was purified mesh drum 300, the holder 430 brush designed for rotation.

The actuator 440 brush preferably installed in the lower part of the holder 430 brush, and an intermediate actuator rotatably installed on the bottom surface of the housing 500 for engagement with the actuator 440 brush. The intermediate actuator 590, which is geared with the gear the transmission 280, rotates the actuator 440 brush.

The intermediate actuator 590 is inserted into the rotating shaft 595 intermediate actuator, which is made on the bottom surface of the housing so that the gear 280 engages with the intermediate drive 590 in the channel 580 unloading under pressure.

Drive unit 600 is provided with a polygonal shaft 610, which protrudes upward and is inserted into the opening 230 for polygonal shaft of the auger 200 through the through hole 520 and auger rotates at a low speed, and multiple mounting protrusions 630, which are inserted into the mounting groove 515 of the housing 500 for fixing housing 500.

Polygonal shaft 610 is connected to the motor and speed reducer (not shown) for rotation.

On the border of the lower end portion of the cover 100 is a lot saralaya clamps 130 and the outer circumference of the upper end of the housing 500 is a lot saralaya protrusions 510. When siteplease protrusions 510 engage with siteplease clamps 130, the cover 100 Rethimno fixed to the housing 500.

On the outer surface of the drive device 600 installed a pair saralaya hooks 620, which is attached to the housing 500, attached to the cover 100, to prevent vibration of the juicer.

The speed reducer used in the present invention, is intended to reduce the rotation speed of the engine and ostavlaet auger to rotate at very low speed compared with the auger known from the prior art juicers.

The following describes the operation of the extractor with the above construction according to the invention.

When the materials are placed into the inlet 110 of the cover 100, they move inside the mesh drum 300 along the inclined surface 140, performed on the bottom surface of the cover 100. The material transported in the mesh drum 300, finely crushed and pressed as they are forcibly moved downward by rotation of the screw 200 and the wall of blades 310. The juice produced in this process stems from the mesh of the drum through the cell, is made on the outer wall of the mesh drum 300, and is then output through the output hole 560 for juice.

Wastes that reach the lower ring 340 mesh drum 300 under the action of the augers 200, popped lead protrusion 225 at the lower end of the screw 200 and sent to the pin hole 360 mesh drum lead along the inclined surface 350. In this case, if the cuff 575, which closes the output pin holes 540 of the body, affects the set pressure, between the output pin holes 540 and the cuff is formed a gap, and through this gap are derived waste. Then the output wastes are discharged from the output opening 570 waste juicer.

The grinded materials are pressed on the lower ring 340 mesh drum 300. is this process a large portion of the juice flows out through the cell, made on the outer wall of the mesh drum 300, and is then output through the output hole 560 for juice, and only a portion of the juice is pushed into the gap between the inner ring 250 of the screw 200 and the opening 380 to insert the inner ring of the mesh drum 300 and flows in the channel 580 unloading under pressure. However, because the channel 580 unloading under pressure is connected with the outlet 560 for juice, some juice in the end is vented through the outlet port 560 for juice.

If the channel 580 discharge pressure is not connected with the outlet 560 for juice, juice, pushed under pressure into the gap between the inner ring 250 of the screw 200 and the opening 380 to insert the inner ring, flows over the waterproof cylinder 530 and is discharged from the housing through the gap between the through hole 520 and a polygonal shaft 610. This can cause contamination of the motor or speed reducer of a drive device 600 and the leakage through the outer surface of the juice extractor.

Even if the juice is thick and, thus, can not flow naturally, he force is directed into the outlet 560 for juice gear 280 of the inner ring 250.

The reason gears 280 made in the form of blades, is the need for a more effective force output of thick juice with a high ve the bone, in the hole 560 for juice.

Gear 280 is designed to rotate the rotating brush 400 by transferring power to the drive device 600 for rotating the brush 400. In other words, since the gear 280 engages with the actuator 440 brush intermediate actuator 590, the holder 430 brush rotates, when the auger 200 rotates the driving device 600. Accordingly, the brush 410 for cells attached to the holder 430 brush, and brush 420 chassis continuously clean the outer wall of the mesh drum 300 and the inner wall of the housing 500, respectively, and, thus, can make a thick juice or soy milk to flow efficiently. In addition, since the outer wall of the mesh drum 300 is continuously cleaned, the user does not need to frequently disassemble and clean the mesh drum 300.

The inner surface of the intermediate part of the mesh drum 300 has a closed structure, and it is a lot of chopping blades 390 in addition to the wall blades 310. In the upper part of the mesh drum 300 is made of filter mesh 320, and in the lower part of the mesh drum 300 is made bale net 330 of small cells.

Accordingly, the juice produced when materials are forcibly moved along the wall of blades 310 mesh drum 300, flows out through the filter, the oval grid 320, and the juice produced while the materials are finely milled on the inner surface of the intermediate part having a closed structure, in which there is a lot of chopping blades 390, appears in the hole 560 for juice through the bale grid 330.

Wastes are discharged into the pin hole 360 mesh drum lead along the inclined surface 350 of the bottom.

At this time, the outer ring 260 provides a uniform displacement and output of waste by increasing the area of contact with the waste, which are pushed to move along the lead of the inclined surface 350 pin protrusion 225 of the screw 200 and sent to the pin hole 360 mesh drum.

The annular protrusion 370 is inserted into the hole 290 to insert an annular projection at the lower part of the screw without any gap between them and the maximum prevents the flow of waste into the channel 580 unloading under pressure, even if the waste on the bottom ring 340 is attached to the pressure.

In addition, because the screw 200 and the mesh drum 300 longitudinally installed in the housing 500, the speed with which materials are moved down, so does the juice inside the housing 500 is easily flows down, not staying in the housing 500, compared to traditional juicer, in which the screw and wire mesh drum mounted horizontally.

Next, description is on the juicer according to another preferred variant implementation of the present invention with reference to figure 5-7.

The juicer according to this preferred variant implementation of the present invention includes a cover 100, auger 200, mesh drum 300, the rotating brush 400, the housing 500 and the drive unit 600. Since the auger 200, mesh drum 300, the rotating brush 400 and the housing 500 are the same as in the juicer according to the first variant implementation of the present invention, their detailed description is omitted. In addition, their operations coincide with the operations of the juicer according to the first variant implementation of the present invention, and their detailed description is omitted.

In another embodiment of the present invention on the outer surface 135 of the cover 100 is made of the fixing protrusion 150, and in the center of the fixing protrusion 150 is made salient part. The fastening protrusion 150 is placed back under the condition that the outlet 560 for juice and outlet 570 waste housing 500 are located on the front. The cover 100 is attached to the housing 500, in which the set screw 200, mesh drum 300 and the rotating brush 400, and then the housing 500 is attached to the drive device 600.

Drive unit 600 includes a base 640, in which you installed the engine and control device (not shown), siteplease surface 650 chassis, made on the upper surface of the base 640, a polygonal shaft 610 of the engine, which is in the center of Atalaya surface 650, many saralaya hooks a performed on the outer circumference siteplease surface 650 for fixing housing 500, the support frame 660 having an installation surface, made with one hand siteplease surface 650 chassis base 640 to match the side surface of the housing 500 and passing from the base to support the housing 500, a fixing groove 665, which is made on the upper surface of the support frame 660 and to which is attached a mounting protrusion 150 of the cover 100, and the handle 670, passing from the upper end of the rear surface of the mounting surface for the housing support frame 660 to the lower end of the base 640.

Siteplease hooks a, which were siteplease surface 650 for the body, are inserted in siteplease groove (not shown)made on the bottom surface of the casing and then the casing 500 is attached to siteplease surface 650 a slight rotation of the housing 500.

In the Central part of the fixing grooves 665 installed microswitch 666. When the fixing protrusion 150 is performed on the outer circumference 135 of the cover 100, is attached to the mounting groove 665, the protruding portion of the fixing protrusion presses the microswitch 666 to actuate the work switch 675, while the fixing protrusion 150 is not fixed to the fixing groove 665, the microswitch 666 is not included, this work is the second switch 675 may not run the juicer.

As follows from the above, juicer, according to the present invention has the following advantages.

First, thanks to the use of screw squeezing at very low speed instead of grinding using high-speed rotating blade fully preserved various nutrients and natural taste contained in the juice, soy milk, etc. and you can squeeze large amounts of juice regardless of the kinds of vegetables and fruit.

Secondly, because the body of the juicer longitudinally attached to the upper side of the drive device, and thus, the materials naturally move down under the action of gravity and the rotation of the auger, speed, squeeze the juice increases. Accordingly, squeezed the juice well flows down, not staying in the body, and thus, you can quickly squeeze the juice out of any fruit and vegetables.

Third, since the screw is fixed in two directions, to prevent vibration of the screw and, thus, are prevented from shaking or shocks, screw on the inner wall of the mesh drum during operation of the auger to reduce noise and prevent abrasion of the screw.

Fourthly, on the bottom surface of the inner ring screw set gear in the form of blades, and, thus, can be reached EUR whom I efficiency squeeze the juice during pressing, thick fruit juice or soy milk.

Fifthly, due to the compound channel discharge pressure, which is provided in the housing, with the outlet for juice can be prevented from entering the juice in the drive unit.

Sixth, thanks to the additional execution of the outer ring on the auger wastes are discharged more evenly, and because of the implementation of annular projections on the wire drum is reduced to a minimum penetration of waste in the canal discharge under pressure.

Seventh, because on one side of the bottom surface of the lid of the juicer is made sloping surface, the materials are automatically entered into the input hole without pushing the material down.

Eighth, thanks to the installation of rotating brushes, which can continuously clean the cell between the wire drum and the housing, the user does not need to frequently disassemble and clean the juicer.

In the ninth, thanks to the drive of the brush in the lower part of the rotating brush and the rotating brush through intermediate drive connected to a gear which is rotated by the driving device does not require a separate power supply.

In the tenth, because the output pin of the valve housing is inserted into the sleeve and the gap between the cuff and the output is generated only when the cuff is applied some pressure, the volume of juice that is output to the output open the e waste, can be minimized.

Eleventh, since the microswitch mounted on the drive unit, works only when the drive device has a housing, which contains all the components, increases security juicer and reduces unnecessary power consumption for energy saving.

Although the present invention is described on the example of the preferred option run, it should be considered that the invention is not limited to the described variant execution and drawings. On the contrary, it is intended to cover various modifications and changes within the essence and scope of the attached claims.

1. Juicer, containing a cover with the entrance hole made on one side of its upper part, and a hole for the rotating shaft, is made in the center of its inner part; a housing mounted at the bottom of the cover and having a guide clip, made in the lower part of the housing, the outlet for waste and outlet for juice spaced from each other in the lower part of the body, waterproof cylinder having a through hole, and is made in the center of the lower part of the body, and the channel of the discharge pressure, is made around the lower part of the waterproof cylinder; a screw having upper rotating the shaft is located is built in the upper part of the screw to insert rotatably in the hole for the rotating shaft, many of the spirals of the screw, made on the outer surface of the screw, the inner ring, is made at the lower end of the screw, protruding downwards and having a lot of gear that is inserted in the channel of the discharge under pressure with the possibility of rotation, the lower space formed inside the inner ring for receiving it waterproof cylinder, and the lower rotating shaft, is made in the center of the lower part of the screw, and a hole for a polygonal shaft formed therein; honeycomb drum with a honeycomb structure, made on the outer wall of the mesh drum to output the juice outlet for juice, and a lot of wall blades, longitudinally located on the inner surface of the honeycomb drum for insertion into the guide clamp; a rotating brush mounted between the casing and the honeycomb drum for rotation and having a brush holder in which the brush set for the continuous purification of the cell drum and the housing; and a drive unit having a polygonal shaft, which is inserted into the polygonal hole of the shaft through the through hole of the waterproof cylinder and rotates the auger low speed; in this case, accommodating the screw longitudinally attached to the upper side of the drive device with the possibility of pressing, grinding and squeeze the juice from mA the materials, placed in the input hole, and excretion of waste.

2. The juicer according to claim 1, in which the channel of the discharge pressure of the housing is connected with the outlet for juice.

3. The juicer according to claim 1, containing lead, the projection made at the end of the lower part of the spirals of the screw by cutting from the inside of the lower border of the auger; the lower ring, made at the end of the lower part of the mesh drum and having a hole for insertion of the inner ring, made for placement of the inner ring; pin inclined surface formed on the upper surface of the lower ring, and pin inclined surface is made in the form of a circular arc, the depth of which increases in the direction of rotation of the auger; exit honeycomb drum which is connected to the end of outlet inclined surface for removal of waste from the cellular drum; and a pin housing bore, made on the one hand the lower part of the housing and connected with the outlet hole of the honeycomb drum and the outlet to waste; when this pin protrusion removes waste outlet waste through the outlet hole of the housing, pushing through the waste outlet hole mesh drum as the rotation of the lead protrusion lead along the inclined surface.

4. The juicer according to claim 1, in which the edge of the int is nna side of the lower ring is made annular protrusion, and on the outer side of the annular protrusion is made annular groove, and the outer circumference of the inner ring is made the outer ring, protruding downward, while between the inner ring and outer ring are made hole for inserting the annular protrusion; and the outer ring rotatably entered into an annular groove to increase the area of contact with the waste sent to lead protrusion and the annular protrusion inserted into the hole to minimize the amount of waste generated in the discharge channel under pressure.

5. The juicer according to claim 1, in which in the upper part and the lower part of the outer wall of the mesh drum made of filter mesh, and bale net, with many made on her cell, and between the filter mesh and the bale mesh is a closed-back design, in which the longitudinal done a lot of chopping blades; the juice is displayed in outlet for juice through the filter mesh, and bale net.

6. The juicer according to claim 1, in which the boundary of the lower end part of the cover are many saralaya clamps, and on the outer circumference of the upper end of the body has many saralaya protrusions, and the drive unit are siteplease hooks; in this case, which is attached to CR is the Cabinet through gearing saralaya clamps with siteplease ledges, Rethimno attached to the drive device siteplease hooks.

7. The juicer according to claim 1, in which the brush includes a brush for a grid attached to the inner surface of the brush holder for the continuous purification of the outer wall of the mesh drum, and the brush body attached to the outer surface of the brush holder for the continuous purification of the inner wall of the housing.

8. The juicer according to claim 1, in which the drive of the brush is installed in the lower part of the brush holder, and an intermediate actuator rotatably installed on the bottom surface of the housing for engagement with the drive of the brush with the intermediate drive, which is geared with the gear, is designed to bring the rotation of the drive brush.

9. The juicer according to claim 1, in which the bottom surface of the inlet cover is made inclined surface in the direction of rotation of the screw.

10. The juicer according to claim 3, containing elastic cuff, set with one side of the bottom surface of the outlet openings, and one side of the cuff is introduced into the groove for insertion performed on the lower surface of the housing to create a seal, and the other side is in close contact with the release pin holes of the housing.

11. The juicer according to claim 1 or 10, in which the cover includes a mounting ledge, done the config on the outer circumference of the cover, moreover, the fixing protrusion is located at the rear, provided that outlet for juice and outlet for waste are located at the front.

12. The juicer according to claim 11, in which the drive unit comprises a base in which you installed the engine and control device; siteplease surface of the housing, is made on the upper surface of the base; a polygonal shaft of the engine, which is in the centre siteplease surface; many saralaya hooks located on the outer circumference siteplease surface for mounting the housing; the support frame having a mounting surface, made with one hand siteplease surface of the chassis base to match the side of the case and passing from the base to support the housing; the mounting groove, which is made on the upper surface of the base frame can be mounted to fixing it the point of the cover; and a handle extending from the upper end of the rear surface of the mounting surface for the housing support frame to the lower end of the base.



 

Same patents:

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

Juice squeezer // 2626713

FIELD: food industry.

SUBSTANCE: claim describes a juice squeezer having an opening for the drive shaft with a drive shaft inserted into it, made at the lower part of the rotating brush installed between the inner housing wall and the outer wall of the screen drum, has an open top and bottom surfaces and comprises a brush for cleaning the outer wall of the screen drum. The opening for the drive shaft is rotationally mounted on the housing; inside the screen drum there is a screw with a helical spiral on its outer surface; in the upper screw part there is a locking projection or a locking groove, and in the upper part of the rotating brush there is a locking groove or a locking projection, the locking projection of the screw and the stop groove of the rotating brush are engaged with each other, or the locking groove of the screw and the locking projection of the rotating brush are engaged with each other, so that immediate rotation is transferred to the rotating brush as the screw rotates.

EFFECT: reducing the frequency of failures caused by component breakage or wear, ensuring easy and convenient assembly.

19 cl, 10 dwg

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