KR200460851Y1

KR200460851Y1 - Juice squeezing extractor

Info

Publication number: KR200460851Y1
Application number: KR20090002311U
Authority: KR
Inventors: 김영기
Original assignee: 김영기
Priority date: 2009-03-02
Filing date: 2009-03-02
Publication date: 2012-06-11
Also published as: KR20100008882U

Abstract

The present invention relates to a stock solution, according to one aspect of the present invention is made so that the food is input from the upper side, the lid bundle provided with a sensor generating portion on one side; The upper end is formed to be in close contact with the lower end of the lid bundle, the lower end is provided with a juice outlet and dregs outlet protruding outward, the center is formed through the hole; The upper part is provided with a seating part in which the housing is placed, the center of the seating part is formed with a drive shaft, and a rear part is provided with a body part extending upward from one side of the seating part. A driving body provided with a sensor detecting unit for sensing the sensor; An upper end is supported by a hatch and a lower end is provided with a rotating shaft connected to the drive shaft through a through hole, and a screw blade formed around the rotating shaft to press and squeeze the food to be fed; A mandrel formed to surround the screw bundle and configured to discharge juice through the side surface; And a brush bundle mounted between the housing and the drum and rotating in conjunction with the screw bundle, the brush bundle configured to sweep the inner wall of the housing or the outer wall of the drum, wherein the sensor generating unit is located on the sensor detecting unit. When the lid bundle is prevented from the housing and the operation is prevented, and the lid bundle is rotated so that the sensor generating unit is outside the detection area of the sensor detecting unit, the lid can be separated and the operation is characterized in that the operation is made to be blocked. Is provided.

Ultra-low speed rotation, screw bunch, separation, mating

Description

Juice solution {JUICE SQUEEZING EXTRACTOR}

The present invention relates to a undiluted solution, more specifically, to make green juice and juice with vegetables or fruits, or to make soy milk with soybeans. This solution is for maintaining the freshness of green juice or juice to the maximum, greatly reducing the size and noise of the device, and simplifying assembly, disassembly, and cleaning.

In many cases, making green juice or juice directly at home for a healthy life has been increasing, and for this purpose, many devices have been disclosed for making juices using vegetables or fruits at home.

Existing juicers are made by inserting the ingredients into the inlet and crushing at high speed to make juice by centrifugal separation. In the process of high speed crushing, the inherent taste and nutrients of the fruit can be destroyed. It was difficult to make juice, and it was difficult to make juice with fruits such as kiwi or strawberries with high viscosity, and it was impossible to make soy milk with soybeans. And if you try to continue to make juice, there was a hassle to dismantle the equipment from time to time to remove the debris in the mangong.

Republic of Korea Utility Model Registration No. 190676 (combined juice grinder) is a design filed and filed by the applicant, according to the juicer is a long screw is assembled horizontally to the drum together with the juice net, drum cap and fastened to the side of the drive unit In this case, the entire length is long, and when the material is introduced into the inlet, the juice is slowly transported horizontally.

Therefore, when using or storing the juicer, a large space is required, and the juice is slow as the material is moved while moving horizontally, the thick juice with high viscosity does not flow well and has a drawback to the drum. And because there is no rotating shaft on one side of the screw, the screw on one side without the rotating shaft was shaken during rotation and hit the wall blade of the inner wall of the juice network, causing noise and wear.

In addition, such a juicer needs to be separated and washed after use in accordance with hygiene problems that may be caused by the remaining food and demands for preventing damage to the device, and thus, a structure capable of minimizing inconvenience in disassembly and assembly. It needs to be done. In addition, there is a need to continuously improve according to the need, such as prevention of safety accidents that may occur in using the device or ensuring durability of the device.

The present invention has been devised to solve the problems as described above, an embodiment of the present invention to minimize the noise by forming a stable structure, to prevent damage and malfunction of the device as much as possible, disassembly of the stock solution? Not only is it easy to assemble, but it is also associated with easy cleaning and storage.

One preferred embodiment of the present invention is made so that food is input from the upper side, the lid bundle provided with a sensor generating portion on one side; The upper end is formed to be in close contact with the lower end of the lid bundle, the lower end is provided with a juice outlet and dregs outlet protruding outward, the center is formed through the hole; The upper part is provided with a seating part in which the housing is placed, the center of the seating part is formed with a drive shaft, and a rear part is provided with a body part extending upward from one side of the seating part. A driving body provided with a sensor detecting unit for sensing the sensor; An upper end is supported by a hatch and a lower end is provided with a rotating shaft connected to the drive shaft through a through hole, and a screw blade formed around the rotating shaft to press and squeeze the food to be fed; A mandrel formed to surround the screw bundle and configured to discharge juice through the side surface; And a brush bundle mounted between the housing and the drum and rotating in conjunction with the screw bundle, the brush bundle configured to sweep the inner wall of the housing or the outer wall of the drum, wherein the sensor generating unit is located on the sensor detecting unit. When the lid bundle is prevented from the housing and the operation is prevented, and the lid bundle is rotated so that the sensor generating unit is outside the detection area of the sensor detecting unit, the lid can be separated and the operation is characterized in that the operation is made to be blocked. Is provided.

According to one embodiment of the present invention as described above, first, by adopting the ultra-low-speed screw extrusion method instead of the high speed rotary blade shredding method to maintain the various nutrients and intrinsic taste of green juice or juice to the maximum, and related to the type of vegetables or fruits It has the effect of enabling a wide range of juices without.

Second, by forming the sensor generating unit and the sensor detecting unit can not only prevent safety accidents, but also to separate only the lid bundle independently to facilitate the overall disassembly, assembly and cleaning of the device.

Third, by forming a packing in the center of the through-hole, it can effectively prevent the juice penetrates into the drive unit to prevent contamination and damage of the device.

Fourth, the handle is formed to the rear of the drive body is easy to transport the device, it is convenient to use.

1 is an exploded perspective view showing a stock solution according to an embodiment of the present invention, Figure 2 (a) to Figure 2 (c) is a perspective view showing the assembly and separation state of the stock solution shown in FIG.

The stock solution (1) according to a preferred embodiment of the present invention is made so that food is fed from the upper side, the lid bundle 10 is provided with a sensor generating portion 11 on one side; The upper end is formed to be in close contact with the lower end of the bundle 10, the lower end is provided with a juice outlet 21 and the residue outlet 22 protruding outward, the center of the housing 20 is formed with a through hole (23a) ); A seating portion 31 on which the housing 20 is placed is formed at an upper side, a driving shaft 32 is formed at the center of the seating portion 31, and a body portion extending upward from one side of the seating portion 31 at the rear thereof. A driving body 30 having a flat surface formed at an upper end of the body part 33 and having a sensor detecting part 34 for detecting an operable signal from the sensor generating part 11; An upper end is supported by the cap and the lower end is provided with a rotating shaft 41 connected to the drive shaft 32 through the through hole 23a, and a screw blade 42 formed around the rotating shaft 41. Screw bundle 40 made to press the food is put into the squeezed; A mandrel 50 formed to surround the screw bunch 40 and configured to discharge juice through a side surface thereof; And mounted between the housing 20 and the mandrel 50, rotating in conjunction with the screw bundle 40, to sweep down the inner wall of the housing 20 or the outer wall of the mandrel 50. Brush bundle 60; If the sensor generating unit 11 is located on the sensor detecting unit 34, the lid bundle 10 is prevented from being separated from the housing 20 is operated This is possible, and when the sensor generating unit 11 is out of the detection area of the sensor detecting unit 34 by rotating the lid bundle 10, the lid bundle 10 can be separated and the operation is blocked. Is done.

The lid bundle 10 is the part into which the object such as vegetables and fruits are put into the stock solution 1 of the present invention and constitutes the top of the stock solution 1 of the present invention. The lid bundle 10 is configured to be continuously injected by a predetermined amount of the object to be input, and thus is formed in the form of the upper opening as shown in Figure 1, not a structure completely blocked from the outside.

One side of the lid bundle 10 is provided with the sensor generator (11). The sensor detecting unit 34 detects a signal generated from the sensor generating unit 11, and accordingly, the operation of the stock solution 1 of the present invention is influenced. A more detailed description of the bundle 10 will be described later.

The housing 20 is tightly coupled to the lower lid 10.

The housing 20 has a container shape as a whole and collects the juice to be discharged to the outside.

The juice outlet 21 and the residue outlet 22 is formed on the outside of the housing 20, the juice is discharged into the juice outlet 21, the juice is removed from the material introduced through the residue outlet 22 Debris is discharged. Through the juice outlet 21 is discharged through the bottom of the mandrel 50 through the residue outlet 22 so that the juice flowing down through the side of the mandrel 50 is pushed out It is made of a structure separated from each other to be released.

At the center of the bottom surface of the housing 20 is provided a waterproof cylinder 23 protruding upward, the through hole (23a) is formed on the upper end of the waterproof cylinder (23). The lower end of the rotating shaft 41 is inserted downward through the through hole 23a and connected to the driving shaft 32. The waterproof cylinder 23 is formed to protrude upward to prevent the juice from flowing into the drive body 30 through the through hole (23a).

At the bottom of the bottom of the housing 20, a pressure discharge passage 27 is formed immediately adjacent to the edge of the waterproof cylinder 23. The pressure discharge passage 27 is formed to be recessed downward so that the lower end of the screw bundle 40 is inserted and rotated.

A guide jaw 28 protruding upward is formed between the pressure discharge passage 27 and the edge wall of the housing 20 in a circular shape. The lower end of the mandrel 50 is seated on the inner bottom surface of the guide jaw 28, and the lower edge of the guide jaw 28 and the mandrel 50 are formed to fit together.

Space is divided on the bottom surface of the housing 20 by the guide jaw 28, the screw bunch 40 and the mandrel 50 is located on the inside, and the juice is collected and discharged to the outside. Space is provided. The juice outlet 21 is formed on the lower edge of the housing 20 to discharge the juice. At this time, the juice discharge port 21 is formed to be inclined slightly downward so that the juice is not collected.

A housing discharge hole 29 is formed in the bottom surface of the housing 20 through the guide jaw 28. The dregs outlet 22 is connected to the housing outlet hole 29, through which the dregs from which the juice is removed are discharged. That is, the residue discharge port 22 has a shape starting from the housing discharge hole 29 and extending to the outside of the housing 20.

The seating portion 31 is formed at an upper side of the driving body 30, the driving shaft 32 is formed at the center of the seating portion 31, and the body portion 33 is located at the rear of the driving body 30. ) Is formed. The drive body 30 is a portion in which the power of the stock solution 1 of the present invention is generated, and a motor and a reducer are provided therein.

On the seating portion 31, the housing 20 is placed in close contact with the bottom surface thereof.

The driving shaft 32 is formed at the center of the seating portion 31, and the driving shaft 32 is connected to a motor and a reducer inside the driving body 30. The drive shaft 32 is rotated at an ultra low speed by the motor and the reducer to rotate the screw bundle (40).

The body portion 33 is formed behind the seating portion 31, and the body portion 33 is formed to protrude upward. The housing 20 is located in front of the body portion 33, and the front of the body portion 33 maintains the body portion 33 slightly spaced at the same interval as the housing 20. It is formed to correspond to the shape of the housing 20.

A sensor detecting unit 34 is provided at the top of the body 33.

The sensor detecting unit 34 has a flat surface. However, the sensor detecting unit 34 does not need to be formed on the same plane all on the upper side, and it is sufficient that the movement of the sensor generating unit 11 is not hindered by the rotation of the lid bundle 10. . As will be described later, the lid bundle 10 is rotated in one direction when coupled to and separated from the upper end of the housing 20, the sensor generating unit 11 is caught when passing the upper side of the sensor detecting unit 34 It is formed so that.

The sensor detector 34 detects a signal from the sensor generator 11 to determine whether the motor formed in the driving body 30 is operated.

The screw bunch 40 is provided with the rotating shaft 41 and the screw blade 42 formed around the rotating shaft 41.

The rotary shaft 41 has an upper end supported by the lid 10, the lower end is connected to the drive shaft 32. In the center of the rear surface of the lid bundle 10 is formed a rotary shaft 41 hole so that the upper end of the rotary shaft 41 is supported.

The lower end of the rotary shaft 41 is connected to the drive shaft 32, the screw bunch 40 is rotated in accordance with the rotation of the drive shaft (32). The rotation shaft 41 should be integrally rotated with the drive shaft 32 without slipping after being coupled with the drive shaft 32. As shown in FIG. 1, the drive shaft 32 is in the shape of a prism, and a lower end of the rotation shaft 41 may be formed in a shape in which a groove is formed so that the drive shaft 32 may be inserted into a fitting state.

The screw blade 42 is formed in a spiral shape around the rotating shaft 41. The screw bundle 40 is formed in a thick form as a whole, it is formed so as to squeeze the food is injected into the joint between the screw blade 42 and the screw blade 42.

The lower side of the screw bundle 40 is provided with a lower space 43 is formed in the upper direction in the periphery of the rotary shaft 41. The upper end of the waterproof cylinder 23 is inserted into the lower space 43, the screw bunch 40 and the housing 20 is engaged. By such a structure, juice or debris formed by the screw bunch 40 may be blocked from flowing into the driving body 30 through the through hole 23a.

An inner ring 44 is formed around the lower space 43 at the lower side of the screw bunch 40, and an outer ring 45 is further formed outside the inner ring 44. Between the inner ring 44 and the outer ring 45 is provided with a circular protrusion 52, the insertion hole 46. As shown in FIG. 1, a screw gear 47 protrudes from the lower side of the inner ring 44, and the screw gear 47 is formed to fit the pressure discharge path 27 and the pressure discharge path 27. ) To be inserted and rotated.

An intermediate gear g is rotatably fixed to the bottom of the housing 20, and the screw gear 47 meshes with the intermediate gear g. As the screw bundle 40 rotates, the intermediate gear g engaged with the screw gear 47 rotates, and the intermediate gear g is a medium for rotating the brush bundle 60 as described below. Play a role.

The mandrel 50 is made to surround the screw bunch 40 and a plurality of holes are formed in the side to discharge the juice through the side.

An inner ring insertion hole 51 is formed so that the center of the bottom bottom part of the mandrel 50 is opened. The inner ring 44 formed below the screw bundle 40 is inserted through the inner ring insertion hole 51, and the screw gear 47 is inserted into the pressure discharge path 27.

A circular protrusion 52 protruding upward is formed around the inner ring insertion hole 51, and the circular protrusion 52 is inserted into the circular protrusion 52 and the insertion hole 46. Accordingly, in the state in which the screw bundle 40 and the mandrel 50 are coupled, the outer surface of the screw bunch 40 and the inner surface of the mandrel 50 form a constant space closed downwardly. .

A circular groove 53 is formed outside the circular protrusion 52 at the bottom of the mandrel 50, and a mandrel discharge hole 54 is formed at one side of the circular groove 53 to penetrate downward. do. The mandrel discharge hole 54 is formed to protrude slightly to the lower side of the mandrel 50, is formed to be inserted into the housing discharge hole (29).

The debris from which the juice is removed in the state in which the screw bundle 40 and the mandrel 50 are combined is not discharged through the side of the mandrel 50 and is piled up in the circular groove 53. There is no choice but to exit the mandrel 50 through the mandrel discharge hole 54, and eventually is discharged to the outside through the housing outlet hole 29 and the residue outlet 22.

The brush bundle 60 is mounted between the housing 20 and the mandrel 50. The brush bundle 60 includes a brush holder 61, a brush gear 62 formed at a lower end of the brush holder 61, and a man brush 63 coupled to the side of the brush holder.

The brush holder 61 itself is not in close contact with the housing 20 and the mandrel 50 and is spaced apart from each other. The brush gear 62 is made to mesh with the intermediate gear (g), so that the screw bundle 40 is rotated together when rotating. The brush brush 63 is fixed to the brush holder 61 so that the outer end is in contact with the inner wall of the housing 20, the inner end is in contact with the outer wall of the mandrel 50, the brush bundle 60 During the rotation of the inner wall of the housing 20, sweeping the outer wall of the mandrel 50 to allow juice and debris to move downward.

In the stock solution 1 of the present invention, the lid bundle 10 is configured to be finally coupled to the uppermost configuration. When the lid bundle 10 is placed on the upper end of the housing 20 to be coupled to the upper end of the housing 20, in the initial state, the sensor generating unit 11 is directly above the sensor detecting unit 34. It is not located.

The lid bundle 10 is rotated by a predetermined portion in the closing direction to be coupled to the housing 20 so that the lid bundle 10 is positioned above the sensor detection unit 34. Coupled to the housing 20 is in a closed state. At this time, the sensor detecting unit 34 that detects the signal from the sensor generating unit 11 sends a signal to enable the operation inside the drive body 30 and the liquid solution 1 of the present invention is operated It becomes possible.

The sensor generating unit 11 may be provided with a magnet therein, and the sensor detecting unit 34 may detect the strength of the magnetic field formed by the magnet and control the operation thereof.

When the lid bundle 10 is rotated again in the opposite direction to be separated from the housing 20, the sensor generating part 11 is far from the sensor detecting part 34, and thus the sensor detecting part The part 34 sends a signal to block the operation inside the drive body 30 and the stock solution 1 of the present invention is stopped or inoperable.

As such, by forming the lid bundle 10 to be able to determine whether or not the operation of the stock solution (1) in accordance with the present invention can provide a stable device. In addition, only the lid bundle 10 is rotated to first separate from the housing 20, and the screw bundle 40, the mandrel 50, and the brush bundle 60 are sequentially separated from the housing 20. It can be disassembled and assembled very easily, and can be easily washed inside the stock solution (1) of the present invention when cleaning is required.

3 is a view showing the coupling portion of the housing and the driving body shown in FIG.

In the stock solution (1) according to a preferred embodiment of the present invention, the seating portion (31) protrudes upwards and has a plurality of locking projections (35) formed bent clockwise or counterclockwise around the drive shaft (32) And a locking groove 24 for receiving the locking protrusion 35 is formed on a rear surface of the bottom of the housing 20, and the locking protrusion 35 is accommodated in the locking groove 24. When the housing 20 is rotated counterclockwise or clockwise, the housing 20 is fixed or detachable to the drive body 30.

The locking protrusion 35 is formed on an upper side of the driving body 30, that is, the seating portion 31 on which the housing 20 is seated. The locking projection 35 is arranged on the same circumference with respect to the drive shaft 32, and has a form bent in the circumferential direction.

The locking groove 24 is provided at the bottom of the bottom of the housing 20 and is formed at a position corresponding to the locking protrusion 35. Inside the locking groove 24, a space is formed so that the bent portion of the locking protrusion 35 can proceed further in that direction. Therefore, the housing 20 is seated on the seating portion 31 so that the locking protrusion 35 is inserted into the galrom groove, and the housing 20 is opposite to the bent direction of the locking protrusion 35. When rotating, the housing 20 is coupled to the driving body 30 is caught.

Since the lid bundle 10 is coupled to the upper end of the housing 20, the housing 20 is rotated to separate the housing 20 from the drive body 30 in a state where the stock solution 1 of the present invention is completely coupled. In this case, the lid bundle 10 is also rotated. At this time, the sensor generating unit 11 placed directly above the sensor detecting unit 34 in the initial coupling state rotates together with the housing 20 to leave the sensor detecting region. In this case, the motor inside the driving body 30 is stopped by the signal of the sensor detecting unit 34 and the driving stops. In this way, not only the case of removing the lid 10, but also the case of separating the housing 20, the liquid solution 1 of the present invention is prevented operation can provide a more safe form of the device .

In the stock solution 1 according to a preferred embodiment of the present invention, the through hole 23a is formed with a packing 25, and the rotating shaft 41 is formed to be in close contact with the inner circumference of the packing 25.

A packing 25 is formed inside the through hole 23a, and the packing 25 is made of a material such as rubber or urethane. The packing 25 is secured to fit snugly inside the through hole 23a. The packing 25 is formed in a ring shape so that the lower end of the rotating shaft 41 is inserted through the center. The combined state of the packing 25 is shown in FIG.

The lower end of the rotating shaft 41 is inserted into the packing 25 is coupled to the drive shaft (32). The packing 25 is formed to fit snugly to the diameter of the lower end of the rotary shaft 41 within the range where the ultra low speed rotation of the rotary shaft 41 is not hindered, and is in close contact with the rotary shaft 41.

The packing 25 is configured to prevent the penetration of juice and the like toward the drive body 30 through the through-hole (23a) together with the waterproof cylinder 23, of the stock solution (1) of the present invention Double safety

4 is a view showing the coupling portion of the lid and the housing shown in FIG.

In the stock solution (1) according to a preferred embodiment of the present invention, the lid bundle 10 is the cover plate 12 formed at the bottom, the inlet 13 formed straight upward from the cover plate 12 and the It comprises a receiving portion 14 is formed in a wide container shape at the top of the inlet 13, the sensor generating portion 11 is formed on one side of the edge of the cover plate (12).

The cover plate 12 is a portion that is coupled to the housing 20, and covers the housing 20. The cover plate 12 is formed in a circular shape. The above-described rotation shaft 41 hole is formed on the rear surface of the cover plate 12, and the upper end of the rotation shaft 41 is inserted into and supported by the rotation shaft 41 hole.

An upper side of the cover plate 12 is formed to extend the inlet 13 made of a reduced diameter. The inlet 13 is a passage in which food is introduced into the stock solution 1 of the present invention, and is formed so as not to have a large diameter to prevent a safety accident.

At the upper end of the inlet 13, the diameter is widened again and the receiving portion 14 is extended. The receiving portion 14 is formed to be slightly concave so that food is naturally introduced into the inlet (13).

The sensor generator 11 is formed to protrude outward from the edge of the cover plate 12. The height of the housing 20 is made to be close to the height of the body portion 33, and when the lid bundle 10 is coupled to the housing 20, the sensor generator 11 is the sensor It may be placed directly on the sensing unit 34.

In the stock solution 1 according to a preferred embodiment of the present invention, the outer edge of the cover plate 12 is formed of a plurality of external binding jaw 15 bent outwards is repeatedly formed, the upper edge of the housing 20 There are a plurality of internal binding jaw (26) bent inwardly formed repeatedly, the external binding jaw (15) is introduced into the space between the internal binding jaw (26) to engage the internal binding jaw (26) during rotation It is formed to fit snugly, the external binding jaw (15) is formed in all different sizes or intervals.

The outer binding jaw 15 is repeatedly formed below the edge of the cover plate 12. A line connecting the external binding jaw 15 forms a concentric circle with the cover plate 12. The diameter of the cover plate 12 is formed to fit snugly with the top diameter of the housing 20, the outer binding jaw 15 to be inserted into the upper edge of the housing 20 is the housing 20 of the Considering the thickness is formed at a point located slightly inward from the edge end of the cover plate (12).

The inner binding jaw 26 is engaged with the outer binding jaw 15, and is formed along an edge at an upper end of the housing 20. The external binding jaw 15 is a space between the internal binding jaw 26, the internal binding jaw 26 is introduced into the space between the external binding jaw 15, respectively, the external binding jaw 15 The inner binding jaw (26) is rotated to be positioned below, so that the lid bundle 10 and the housing 20 is coupled. The lid bundle 10 is rotated when the coupling is completed after the rotation of a predetermined portion is prevented, and thus a configuration for preventing further rotation on the inner binding jaw 26 or the outer binding jaw 15 is provided. The stopper 16, which will be described later, corresponds to this.

The external binding jaw 15 is formed in plural and the size is all formed differently, or the intervals are all formed differently. Accordingly, the inner fastening jaw 26 is also formed in all different intervals, or are all formed in different sizes. Since the top of the cover plate 12 and the housing 20 is formed in a circular shape, if the external binding jaws 15 are all formed in the same size and spacing, they will be combined in various forms rather than the exact coupling positions. Therefore, by forming as in the present invention it can be such that the lid bundle 10 and the housing 20 is coupled only in the exact coupling position that the sensor generating unit 11 can be placed above the sensor detecting unit 34.

FIG. 5 is an enlarged partial perspective view of a portion of the stock solution shown in FIG.

The stock solution 1 according to the preferred embodiment of the present invention is formed at one side of the external binding jaw 15 or the internal binding jaw 26, and the sensor generating part 11 is formed on the sensor detecting part 34. When positioned, the stopper 16 is provided to prevent rotation of the bundle 10.

The lid bundle 10 is not made to be continuously rotated when coupled to the housing 20, the rotation is further stopped if the sensor generating unit 11 is accurately located above the sensor detecting unit 34. Is done. The stopper 16 is formed for this purpose, so that the lid bundle 10 is coupled and separated only in one direction from the housing 20.

As the stopper 16 is formed, the rotation stops at the moment when the sensor generator 11 is placed in the correct operating position only when the user rotates the lid bundle 10 according to the coupling direction. No special care is required for confirmation and easy operation.

6 is a perspective view illustrating a rear part of the driving body shown in FIG. 1.

In the stock solution 1 according to a preferred embodiment of the present invention, the drive body 30 is provided with a handle 36 formed convexly to the rear of the body portion 33, the body portion 33 and the handle ( An operating switch 37 is formed between the 36.

The handle 36 is formed at the rear of the body portion 33 in the drive body 30 and is formed opposite the juice discharge port 21 and the residue discharge port. The operation switch 37 is formed between the body portion 33 and the handle 36, and may be formed on the rear surface of the body portion 33. The operation switch 37 is a means for directly adjusting whether or not the operation of the stock solution (1) of the present invention.

The actuating switch 37 is obscured to some extent by the knob 36 formed at the rear thereof, which prevents inadvertent access or contact from the outside toward the actuating switch 37 by the knob 36. Can be prevented and unnecessary operation can be prevented.

The user can grasp the handle 36 when using the inventive liquid solution 1 and adds stability during operation. Inventive stock solution 1 is formed in the longitudinal direction as a whole due to its morphological characteristics can be used more stable when using the grip 36 when using.

Of course, by holding the handle 36 can be easily carried and stored.

1 is an exploded perspective view showing a stock solution according to an embodiment of the present invention, Figure 2 (a) to Figure 2 (c) is a perspective view showing the assembly and separation state of the stock solution shown in Figure 1,

Figure 3 is a view showing the coupling portion of the housing and the drive body shown in Figure 1,

Figure 4 is a view showing the coupling portion of the lid and housing shown in Figure 1,

Figure 5 is a partial perspective view showing an enlarged portion in the state in which the undiluted solution shown in Figure 1,

Explanation of symbols on the main parts of the drawings

1: undiluted solution 10: bundle of lids

11 sensor generating unit 12 cover plate

13: inlet 14: receiving part

15: external binding jaw 16: stop

20: housing 21: juice outlet

22: residue outlet 23: waterproof cylinder

23a: through hole 24: locking groove

25: packing 26: fastening jaw

27: pressure discharge path 28: guide jaw

29 housing discharge hole 30 drive body

31: seating portion 32: drive shaft

33: body 34: sensor detection unit

35: jamming 36: handle

37: operation switch 40: screw bundle

41: rotating shaft 42: screw blade

43: lower space 44: inner ring

45: outer ring 46: circular projection insertion hole

47: screw gear 50: mandrel

51: inner ring insertion hole 52: circular protrusion

53: circular groove 54: mandrel discharge hole

60: Brush Bundle 61: Brush Holder

62: brush gear 63: man brush

g: middle gear

Claims

Food is made to be put in the upper side, a bunch of lids provided with a sensor generating portion on one side;

The upper end is formed to be in close contact with the lower end of the lid bundle, the lower end is provided with a juice outlet and the discharge outlet protruding outward, the center has a through hole formed;

A seating portion is formed on the upper side, a driving shaft is formed at the center of the seating portion, and a body portion extending upward from one side of the seating portion is provided at the rear side, and a flat surface is formed at the top of the body portion to generate the sensor. A driving body provided with a sensor detecting unit for sensing an operable signal from the unit;

An upper end supported by the lid and a lower end provided with a rotating shaft connected to the drive shaft through the through hole, and a screw blade formed around the rotating shaft, the screw bundle being configured to press and feed food;

A mandrel formed to surround the screw bundle and configured to discharge juice through a side surface thereof; And

A brush bundle mounted between the housing and the drum and rotating in conjunction with the screw bundle, the brush bundle configured to sweep the inner wall of the housing or the outer wall of the mandrel;

When the sensor generating unit is located on the sensor detecting unit, the cap is prevented from being separated from the housing and can be operated. The lid can be removed and the operation is cut off,

The seating portion protrudes upward and is formed with a plurality of locking projections bent in a clockwise or counterclockwise direction about the drive shaft,

The rear surface of the housing bottom is formed with a locking groove for receiving the locking projections,

When the housing is rotated counterclockwise or clockwise in the state where the locking protrusion is accommodated in the locking groove, the bundle of the lid rotates so that the sensor generating unit is located on the sensor detecting unit or out of the sensing area of the sensor detecting unit. And the housing is fixed or detachable to the driving body.

The method of claim 1,

The cover plate is formed with a lid,

The outer edge of the cover plate is formed of a plurality of outer binding jaw bent outwards is repeatedly formed, the upper edge of the housing is formed of a plurality of inner binding jaw repeatedly bent inward,

The external binding jaw is introduced into the space between the internal binding jaw and is formed to engage the internal binding jaw during rotation,

The external binding jaw is a stock solution, characterized in that the size or spacing are all different.

The method of claim 1,

Packing is formed in the through hole, the stock solution characterized in that the rotating shaft is formed in close contact with the inner circumference of the packing.

4. The method according to any one of claims 1 to 3,

The lid bundle is formed by including a cover plate formed at the bottom, the inlet formed straight upward from the cover plate, the receiving portion made wider container shape at the top of the inlet,

The sensor generating unit is characterized in that formed in the form protruding outward from the edge of the cover plate.