JP7232386B1 - Fully automatic pork washing machine - Google Patents

Abstract

[Problem] While the structure is simple, pork can be automatically washed with a brush, oil stains can be filtered, and the applicability of brush washing can be effectively improved, the water quality can be improved, and the pork washing effect can be improved. . A main body (1), a water fountain head (10), a bottom seat (11), a filter mesh frame (12), a fixed column provided on the bottom seat (11), a plurality of sets of cleaning mechanisms (2) provided on the fixed column, and a set of cleaning mechanisms (2) provided in the fixed column. a guide block provided on the inner wall of the filter mesh frame 12; a guide spring provided on the guide block; a first gear provided on the bottom of the rotary roller 14; , a change gear installed at the bottom of the main body 1, and a filter mechanism installed at the upper end of the fixed column, the cleaning mechanism 2 includes a plurality of first cleaning columns, a first brush, and a plurality of drain holes. , a moving chamber, a moving piston, a second cleaning post, a second brush, an oblique ring groove, a mating block, a drive chamber and a drive arrangement (4). [Selection drawing] Fig. 3

Description

The present invention belongs to the field of food processing technology, and more particularly to a fully automatic pork washing machine.

Pork processing requires washing the pork. Currently, the method of washing pork is often artificial washing. The pork is placed in a pond or bowl and washed manually by the cleaner, or the pork is washed directly under the faucet. Whether the cleaner manually cleans it or puts it directly under the faucet for cleaning, the labor intensity is large and the cleaning efficiency is low. In addition, the lard generated during washing causes secondary contamination of pork and affects the effectiveness of washing.

The present invention provides a fully automatic pork washing machine to overcome the deficiencies of the prior art.
In order to achieve the above object, the present invention employs the following technical means.
a main body 1, a fountain head 10 provided on the upper end of the main body 1, a bottom seat 11 provided on the bottom of the main body 1, a filter mesh frame 12 provided on the inner wall of the main body 1, a fixed column 13 provided on the bottom seat 11, A plurality of sets of cleaning mechanisms 2 provided on the fixed column 13, rotating rollers 14 provided in the fixed column 13, guide blocks 15 provided on the inner wall of the filter mesh frame 12, and guide springs 16 provided on the guide blocks 15. , the first gear 1 provided at the bottom of the rotating roller 14
7, a first ring gear 18 provided in the bottom seat 11, a change gear 19 provided at the bottom of the main body 1, and a filtration mechanism 3 provided at the upper end of the fixed column 13. 2 includes a plurality of first cleaning columns 20 provided on the fixed column 13, a first brush 21 provided on the first cleaning columns 20, a plurality of drain holes 22 provided on the first cleaning columns 20, and a second cleaning column 20. A moving chamber 23 provided in one cleaning column 20, a moving piston 24 provided in the moving chamber 23, a second cleaning column 25 provided in the moving piston 24, and a second brush 26 provided in the second cleaning column 25. , an oblique ring groove 27 provided at one end of the first cleaning column 20 , and a moving piston 24
A fitting block 28 provided in the fixed column 13, a drive chamber 29 provided in the fixed column 13, and a drive chamber 29
, the cross section of the first cleaning column 20 being circular and the fixed column 13
A plurality of the first cleaning columns 20 are provided and arranged uniformly along the circumferential direction of the fixed column 13 so that the radial direction of the drainage hole 22 and the diameter of the cleaning column 20 are aligned. A drain hole 22 is provided in the first cleaning column 20 so that the direction is inclined, an oblique ring groove 27 is opened in the inner wall of the first cleaning column 20, and a fitting block 28 is provided in the moving piston 24. and meshes with the oblique ring groove 27 .

By installing the filter mesh frame, the device can be filtered directly during cleaning,
Improve water circulation effect and cleaning effect. By installing the bottom seat, the water and the pork can be rotated together during washing, so that the contact between the water and the pork can be made more uniform, and the washing effect can be improved. By installing the guide block, the water is swirled by the rotational force, and the turbulence of the water can be enhanced by the guide block, so that the impact force is generated from the water to the pork, improving the washing effect and centrifugal force. The pork is drifted outward by the guide spring, but the pork can be rebounded by the guide spring, thereby improving washing stability. By installing the first washing column, the pork can be brushed repeatedly during washing, so that the effect of brush washing is improved. By installing the first brush, the pork can be brush-washed. Since the first brush is long, the pork can be brush-washed over a large area, improving the washing effect. second
Pork can be brush-washed laterally by installing a washing column. Since the second brush is short, stubborn stains on the pork can be cleaned more thoroughly, thus improving the cleaning effect.

The driving arrangement 4 includes a moving rack 40 provided on each moving piston 24, a driving rack 41 provided on the rotating roller 14, a turntable 42 provided at the bottom of one of the moving racks 40, and a drive rack 42 provided on the turntable 42. a connecting block 44 connecting the telescopic rod 43 and the drive rack 41; a second gear 45 provided in the fixed column 13;
a pressure chamber 46 provided inside, a first inclined gear 47 provided inside the pressure chamber 46, a third gear 48 provided inside the rotating roller 14, a biconvex block 49 provided inside the drive chamber 29, Both contact blocks 401 provided on the rotating roller 14 and the second contact block 401 provided on the third gear 48
A slanted gear 402, a first abutting tooth 403 provided on the first slanted gear 47, a second abutting tooth 404 provided on the second slanted gear 402, an air chamber 405 provided in the rotary roller 14, and an air chamber 405. , a helical gear 407 provided in the third inclined gear 406, a trachea 408 connecting the air chamber 46 and the air chamber 405, and a stop unit 5 provided in the rotating roller 14, The abutment block 401 has a trapezoidal cross section and is movably mounted on the rotary shaft 14. The third slanted gear 406 is movably mounted in the air chamber 405, and the helical gear 407 is the third slanted gear. 406 and air chamber 405 are connected.

By installing the moving rack, it is possible to realize the synchronous movement of the plurality of first cleaning columns and improve the cleaning efficiency. By installing the driving rack, it is possible to change the telescopic length of the telescopic rod according to the position of the driving rack, so that the moving speed and moving stroke of the moving rack can be changed. can be adjusted accordingly. If the second cleaning column moves quickly, the same position of the pork can be quickly brushed multiple times to improve the cleaning effect of stubborn stains. If the movement of the second cleaning column is slow, the cleaning stroke can be increased and the cleaning area can be increased, thus improving the cleaning practicality. By installing telescopic rods and connecting blocks, the displacement of the moving rack can be driven. The installation of the second gear can automatically drive the reciprocating movement of the drive rack. By installing the contact block, it is possible to contact the convex block intermittently when the rotating roller rotates, so that the rotation of the third gear can be driven intermittently, so that the drive rack can be intermittently moved. can be driven. The installation of the third slanted gear can steer the directional shift of the first slanted gear, and in addition cooperate with the first butt tooth and the second butt tooth to realize the reciprocating movement of the drive rack.

The stop unit 5 includes a pressure tube 50 provided in the rotating roller 14, a piston 51 provided in the abutment block 401, a piston spring 52 provided in the piston 51, and the pressure tube 50.
and a return block 54 provided in each of the barometric pipe 50 and the branch pipe 53.
, the buffer chamber 55 provided in the third inclined gear 406, the pull rod 56 provided in the buffer chamber 55, the stop chamber 503 provided in the rotating roller 14, the stop groove 57 provided in the pull rod 56, the pull A first reversing rod 58 provided on both sides of the rod 56, a second reversing rod 580 provided in the stop chamber 503, a reversing spring 59 provided in the first reversing rod 58, and a reversing rod 580 provided in the second reversing rod 580. The piston 5 includes an air pressure groove 501, a second air pressure tube 502 provided on the rotating roller 14, and a positioning member 6 provided on the second air pressure tube 502.
1 is provided in the abutment block 401, the piston 51 is movably positioned in the pressure tube 50, the stop groove 57 has a trapezoidal longitudinal section, is opened in the pull rod 56, and the return block 54 are located at the front ends of the pneumatic tube 50 and the branch tube 53 respectively, and the longitudinal section of the return block 54 located at the pneumatic tube 50 is trapezoidal.

The provision of the first reversing rod and the second reversing rod allows the pull rod to move in conjunction with the pull rod as soon as it has moved a certain distance. As a result, the first inclined gear and the second inclined gear can quickly collide with or separate from each other, which improves the stability of operation and the stability of washing. can be prevented from occurring. Due to the installation of the buffer chamber, the third inclined gear is not affected during the gradual movement of the pull rod, and is always kept in stable mesh with the first inclined gear and the second inclined gear, thus improving the transmission stability. improves.

The positioning member 6 includes an engaging groove 60 provided on each return block 54, a moving block 62 provided at one end of the second trachea, a pawl tooth 63 provided on the moving block 62, and a moving block 62 provided on the moving block 62. A spring 64, a guide groove 65 provided in the inner wall of the second trachea 502, a first V-shaped groove 66 provided in the guide groove 65, and a second V-shaped groove 67 provided on one side of the first V-shaped groove 66. , an engaging pin 68 provided on the moving block 62, an engaging pin spring provided on the engaging pin 68, a gas venting pipe 601 provided on the bottom of the moving block 62, and a gas venting hole 602 provided on the gas venting pipe 601. and the cross section of the first V-shaped groove 66 is V
The cross section of the second V-shaped groove 67 is V-shaped and is located on the right side of the first V-shaped groove 67, and is located at the left end of the guide groove 65, and is a gas vent hole. 602 is the gas vent pipe 601
, and the gas vent hole 602 penetrates the fixed column 13 .

Due to the installation of the pawl, the return block is held in place after its return, so that the blockage of the barometric pipe or the branch pipe can be realized and the gas route can be changed. Furthermore, it can be ensured that the alternating movement of both return blocks is interlocked with the air pressure. The pull rod can be automatically reciprocated to improve the stability of washing. By installing the first V-shaped groove and the second V-shaped groove, the moving block is held when the first reversal of the first reversing rod is completed, and the positioning is released when the second reversal is completed. done automatically. This allows for intermittent movement of the pawl tooth within the barometric tube and improves the stability of the positioning relative to the return block. This ensures alternating operation of the return block in the barometric pipe and the return block in the branch pipe. The installation of gas vent holes allows the gas in the barometric pipe or branch pipe to be discharged into the water, aerates the water, helps the impurities in the water float up, and is advantageous for subsequent filtration. The provision of this locating member provides a locating against the return block in the branch pipe when the pull rod needs to be moved to the right. Thus, the air pressure can be driven to move the return block in the barometric tube. When the pull rod needs to be moved to the left, there is an automatic release of the locking against the return block in the branch pipe and the locking against the return block in the barometric pipe. As a result, the air pressure can be driven to move the return block in the branch pipe, improving the stability of the pull rod movement.

The filtering mechanism 3 includes a launching chamber 30 provided at the top end of the fixed column 13, a filtering chamber 31 provided below the launching chamber 30, a rotating shaft 32 provided at the bottom of the filtering chamber 31, and the rotation shaft 32. A rotating gear 33 provided on the bottom, a reciprocating rack 34 provided on one of the moving racks 40, a connecting rod 35 provided on the rotating shaft 32, butting gears 36 provided on both ends of the connecting rod 35, and the filtration chamber 31. A filtering ring gear 37 provided on the inner wall, a tightening roller 38 provided on the butting gear 36, a filtering cloth 39 connecting both tightening rollers 38, a rubber plate 301 provided in the launching chamber 30, and the periphery of the rubber plate 301. and a rubber block 302 provided in the launching chamber 30 is opened at the top end of the fixed column 13, the cross section of the launching chamber 30 is elliptical,
The rubber block 302 has an arc-shaped cross section, and is provided in plural and uniformly arranged along the circumferential direction of the rubber plate 301 .

By installing a butt gear, the tightening roller can be moved forward and reverse according to the forward and reverse rotation of the connecting rod. Since the filter cloth can be automatically and repeatedly wound up during filtration, dirt can be uniformly filtered on the filter cloth, so that the effect of filtration is improved. Since the connecting rod is constantly reversing, water can be discharged from the filtering chamber into the main body to achieve water circulation.

Although the present invention has a simple structure, the pork can be automatically cleaned with a brush and can filter oil stains. And it enhances the cleaning effect. The setting of the washing mechanism automatically brushes the pork meat, after which the washing speed and stroke of the second washing column can be modified with the aid of the drive arrangement. Therefore, the adaptability of brush cleaning is effectively increased, and the effect of cleaning is enhanced. The filter mechanism can timely filter oil stains on the surface of the water, improving the quality of the water and further enhancing the washing effect of the pork.

1 is a configuration diagram of the present invention; FIG. 1 is a front view of the present invention; FIG. FIG. 3 is a perspective view of a section along AA of FIG. 2 of the present invention; Figure 3 is a cross-sectional view along BB of Figure 2 of the present invention; Figure 3 is a cross-sectional view along CC of Figure 2 of the present invention; FIG. 5 is a perspective view of a section along DD of FIG. 4 of the present invention; 5 is a cross-sectional view along DD of FIG. 4 of the present invention; FIG. FIG. 4 is a partial view of part A in FIG. 3 of the present invention; FIG. 4 is an exploded view of the first cleaning column and the second cleaning column of the present invention; FIG. 4 is a partial view of part B in FIG. 3 of the present invention; FIG. 8 is a partial view of part C in FIG. 7 of the present invention; FIG. 12 is a partial view of part D in FIG. 11 of the present invention; FIG. 13 is a partial view of part E in FIG. 12 of the present invention; FIG. 13 is a partial view of the point F in FIG. 12 of the present invention; FIG. 7 is a partial view of part G in FIG. 6 of the present invention; FIG. 6 is a partial view of point H in FIG. 5 of the present invention;

As shown in FIGS. 1 to 16, the fully automatic pork washing machine includes a main body 1, a fountain head 10, and a bottom seat 1.
1, a filter mesh frame 12, a fixed column 13, a cleaning mechanism 2, a rotating roller 14, a guide block 15, a guide spring 16, a first gear 17, a first ring gear 18, and a change gear 19. , filtering mechanism 3 . The cleaning mechanism 2 includes a plurality of first cleaning columns 20 provided on the fixed column 13, a first brush 21 provided on the first cleaning columns 20, a drain hole 22, and a moving chamber 23.
, a moving piston 24 , a second cleaning column 25 , a second brush 26 , an oblique ring groove 27 , a fitting block 28 , a drive chamber 29 and a drive arrangement 4 . The cross section of the body 1 is cylindrical.
A plurality of fountain heads 10 are provided, and are uniformly arranged on the inner wall of the main body 1 along the circumferential direction of the main body 1. - 特許庁A bottom seat 11 is rotatably provided at the bottom of the main body 1 . Filter mesh frame 12
has its upper end fixedly installed on the inner wall of the main body 1 and its lower end rotatably provided on the bottom seat 11. The filter mesh frame 12 has a circular cross section and is a commercially available filter mesh. The fixed column 13 is fixedly installed on the bottom seat 11 . A plurality of sets of cleaning mechanisms 2 are provided, and fixed columns 1
3 along the altitude direction. The rotating roller 14 is rotatably provided within the fixed column 13 and its bottom is rotatably provided on the bottom of the main body 1 . The rotating column 14 is driven in rotation by conventional means. A plurality of guide blocks 15 are provided and movably fitted to the inner wall of the filter mesh frame 12 . A guide spring 16 connects the guide block 15 and the filter mesh frame 12 . The first gear 17 is fixedly installed on the bottom of the rotating roller 14 . The first ring gear 18 is fixedly installed on the inner wall of the bottom seat 11 . A change gear 19 is rotatably provided at the bottom of the main body 1 and meshes with the first gear 17 and the first ring gear 18 . Filtration mechanism 3 is fixed column 13
is located at the top of the The first cleaning column 20 has a circular cross section and is rotatably mounted on the fixed column 13 . A plurality of the first cleaning columns 20 are provided and arranged uniformly along the circumferential direction of the fixed column 13 . The first brush 21 is fixedly installed on the first cleaning column 20 .
The drain hole 22 is provided in the first cleaning column 20, and the radial direction of the drain hole 22 and the radial direction of the cleaning column 20 are inclined. A moving chamber 23 is established within the first cleaning column 20 . A moving piston 24 is movably provided in the moving chamber 23 . A second cleaning post 25 is fixedly installed at the front end of the moving piston 24 . A second brush 26 is provided on the second cleaning column 25 and the second brush 26
is made smaller than the length of the first brush 21 . An oblique annular groove 27 is formed in the inner wall of the first cleaning column 20 , and a fitting block 28 is provided on the moving piston 24 and meshes with the oblique annular groove 27 . The drive chamber 29 is opened in the fixed column 13 and the drive arrangement 4 is provided in the drive chamber 29 .

As shown in FIG. 11, the drive arrangement 4 includes a moving rack 40, a drive rack 41 and a turntable 42.
, telescopic rod 43 , connecting block 44 , second gear 45 , pressure chamber 46 , first inclined gear 47 , third gear 48 , convex block 49 , contact block 401 , second inclined A gear 402, a first abutment tooth 403, a second abutment tooth 404, an air chamber 405, and a third
It includes an inclined gear 406 , a helical gear 407 , a trachea 408 and a stop unit 5 .
A plurality of moving racks 40 are provided, and each is provided at one end of each moving piston 24 . The moving racks 40 are helical teeth and mesh with each other. The driving rack 41 is movably provided on the rotating roller 14 . A turntable 42 is provided at the bottom of the moving rack 40 closest to the drive rack 41 . The telescopic rod 43 is provided on the turntable 42 . A connection block 44 connects the telescopic rod 43 and the drive rack 41 . The second gear 45 is rotatably provided within the fixed column 13 . The pressure chamber 46 is opened inside the second gear 45 . The first inclined gear 47 is movably provided within the pressure chamber 46 . The first inclined gear 47 and the pressure chamber 46
are connected via springs. The third gear 48 is rotatably provided within the rotating roller 14 . Two projecting blocks 49 are provided and are evenly arranged along the circumferential direction of the drive chamber 29 . The cross section of the convex block 49 is arc-shaped. The contact block 401 has a trapezoidal cross section, is movably provided on the rotating roller 14 , and contacts the convex block 49 . The second inclined gear 402 is fixedly installed on the third gear 48 . The first abutment tooth 403 is connected to the first inclined gear 4
7 is fixed. A second abutment tooth 404 is fixedly mounted on the second inclined gear 402 . The air chamber 405 is opened in the rotating roller 14 . The third inclined gear 406 is connected to the air chamber 40
5 is movably provided. The helical gear 407 is connected to the third inclined gear 406 and the air chamber 40
5 is connected. A trachea 408 connects the air chamber 46 and the air chamber 405 . A stop unit 5 is provided on the rotating roller 14 .

As shown in FIGS. 12-13, the stop unit 5 includes a pneumatic tube 50, a piston 51, a piston spring 52, a branch tube 53, a return block 54, a buffer chamber 55, a pull rod 56, and a stop chamber 503. , a retaining groove 57 , a first reversing rod 58 , a second reversing rod 580 , a reversing spring 59 , an air pressure groove 501 , a second air pressure pipe 502 and a positioning member 6 . A pressure tube 50 is opened in the rotating roller 14 . A piston 51 is provided in the abutment block 401 and is movably positioned within the pressure tube 50 . Piston 51 is also provided with a one-way valve. A piston spring 52 connects the piston 51 and the pressure tube 50 . One end of the branch pipe 53 is connected to the barometric pipe 50 and the other end is connected to the right end of the stop chamber 503 . Two return blocks 54 are provided and positioned at the front ends of the barometric tube 50 and the branch tube 53, respectively. The longitudinal section of the return block 54 located in the barometric tube 50 is trapezoidal. The buffer chamber 55 is opened in the third inclined gear 406 . A pull rod 56 is movably provided in the buffer chamber 55 . The stop groove 57 has a trapezoidal longitudinal section and is opened in the pull rod 56 . Two first reversing rods 58 are provided, and one end thereof is fitted to the side portion of the pulling rod 56 so as to be reversible. One end of the second reversing rod 580 is fitted to the inner wall of the stop chamber 503 so as to be reversible. A reversing spring 59 connects the first reversing rod 58 and the second reversing rod 580 . A pressure groove 501 is opened in the second reversing rod 580 . Two second trachea 502 are provided, one of which is
One air pressure groove 501 and the trachea 50 are connected, and the other connects the branch tube 53 and the other air pressure groove 501 . Two sets of positioning members 6 are provided and positioned at one end of each of the second trachea 502 .

As shown in FIG. 14, the positioning member 6 includes an engaging groove 60, a moving block 62, and a pawl tooth 63.
, a moving spring 64, a guide groove 65, a first V-shaped groove 66, a second V-shaped groove 67, an engaging pin 68, an engaging pin spring, a gas vent pipe 601, a gas vent hole 602, including. An engaging groove 60 is provided in each return block 54 . The moving block 62 is movably provided within the second trachea 502 . A pawl tooth 63 is provided on the end surface of the moving block 62 . moving spring 6
4 connects the moving block 62 and the second atmospheric pressure pipe 502 . A guide groove 65 is formed in the inner wall of the second pressure tube 502 . The first V-shaped groove 66 has a V-shaped cross section and is positioned at the left end of the guide groove 65 . The second V-shaped groove 67 has a V-shaped cross section, and the first V-shaped groove 67
is located on the far right of the The engaging pin 68 is fitted in the moving block 62 so as to be movable up and down, and the engaging pin 68 is fitted in the guide groove 65 so as to be slidable. A locking pin spring connects the locking pin 68 and the moving block 62 . The gas vent pipe 601 is fixedly installed below the moving block 62 .
A gas vent hole 602 is formed in the inner wall of the gas vent pipe 601 , and the gas vent hole 602 penetrates through the fixed column 13 . The vent hole 602 is further provided with a one-way valve.
As shown in FIG. 16, the filtering mechanism 3 includes a launching chamber 30, a filtering chamber 31, a rotating shaft 32, a rotating gear 33, a reciprocating rack 34, a connecting rod 35, an abutting gear 36, and a filtering ring gear. 37 , a tightening roller 38 , a filter cloth 39 , a rubber plate 301 and a rubber block 302 . The launching chamber 30 is opened at the top end of the fixed column 13, the cross section of the launching chamber 30 is circular, and the inner wall thereof is provided with a one-way valve for allowing water to enter the launching chamber 30. there is
A filter chamber 31 is opened in the fixed column 13 and positioned below the launch chamber 30 , and a one-way valve is provided on the inner wall of the filter chamber 31 to allow water to enter the main body 1 . Launch room 3
A through hole is provided between 0 and the filtering chamber 31 . The rotating shaft 32 is rotatably fitted to the bottom of the filtering chamber 31 . The rotating gear 33 is fixedly installed on the bottom of the rotating shaft 32 . Reciprocating rack 3
4 is fixedly installed on one of the moving racks 40 , and the reciprocating rack 34 meshes with the rotating gear 33 . The connecting rod 35 is fixedly installed on the upper end of the rotating shaft 32 . Two butt gears 36 are provided and rotatably fitted to both ends of the connecting rod 35 . A filtering ring gear 37 is fixedly installed on the inner wall of the filtering chamber 31 and meshes with a matching gear 36 . A tightening roller 38 is fixedly mounted on the butting gear 36 . A filter cloth 39 is wrapped around a tightening roller 38 . A rubber plate 301 is rotatably fitted in the launch chamber 30 . The rubber plate 301 is fixedly connected to the connecting rod 35 . The rubber block 302 has an arc-shaped cross section, and is provided in plural and uniformly arranged along the circumferential direction of the rubber plate 301 .

Specifically, it is implemented as follows. The pork is placed in the bottom seat 11 before washing begins. A water fountain head 10 is activated to spray fresh water on the pork. The rotating roller 14 is driven to start rotating, after which the first gear 17 is driven to start rotating the change gear 19, furthermore the first ring gear 18 starts rotating, and furthermore the base 11 starts rotating. Further, by driving the fixed column 13, the first washing column 20 starts brush washing the pork. When the rotating roller 14 starts rotating, the drive rack 41 rotates synchronously. After that, by driving the connecting block 44, the telescopic rod 43 rotates, and one of the moving racks 40 starts to move laterally. Further, the other mobile rack 40 begins to move laterally synchronously. The moving piston 24 begins to move repeatedly in the lateral direction, and the fitting block 28 moves in the oblique ring groove 27 in conjunction therewith, and the first cleaning column 20 rotates clockwise and counterclockwise in conjunction therewith. At this time, the first brush 26 repeatedly brushes the pork. At the same time, the driving of the moving piston 24 causes the second cleaning column 25 to move laterally. Thereby, the second brush 26 brush-cleans the pork. Also, the return of the moving piston 24 causes the water in the main body 1 to enter the moving chamber 23 and be discharged from the drain hole 22 . More impact on the pork being washed. As the rotating roller 14 rotates, the contact block 4
01 abuts on the convex block 49 . By the movement of the contact block 401, the contact block 401 contacts the third gear 48 and rotates it by the angle of one tooth. This causes the third gear 48 to intermittently rotate clockwise, and the action of the third inclined gear 406 causes the second gear to rotate counterclockwise. At this time, the driving rack 41 begins to move intermittently, thereby changing the moving speed of the moving rack 40 . Change the speed and stroke of movement in conjunction with the second cleaning column. The reciprocating movement of the abutment block 401 causes the piston 51 to move in the pneumatic tube 50, and according to the principle of the air injection tube, continuously drives the reset block 54 to move upward. At this time, the return block 54 is fitted in the retaining groove 57 and comes into contact with the inner wall of the retaining groove 57 , thereby pulling the pull rod 5 .
6 is driven to move to the right. At this time, the left end of the pull rod 56 moves inside the buffer chamber 55 . Also, as the pull rod 56 moves, the first reversing rod 58 and the second reversing rod 580 are reversed to the right. When the reversal angle is 90 degrees, the reversal spring 59 acts to drive the first reversal rod 58 to rapidly reverse. Further, the pull rod 56 is driven to move rapidly to the right. At this time, the pull rod is driven to move the third inclined gear 406 laterally. At the same time, the third inclined gear 4
The movement of 06 generates air pressure in the air chamber 405, which drives the first inclined gear 47 to move downward. As a result, the first abutting tooth 403 and the second abutting tooth 404 mesh with each other. This causes the second gear 45 to rotate clockwise at this time, which in turn causes the drive rack 41 to move laterally. As the first reversing rod 58 and the second reversing rod 580 are reversed, gas is added to the pressure groove 501 by the first reversing rod 58 , thereby causing the second pressure tube 5 to
02 air pressure is increased. The moving block 62 is driven to move laterally. This causes the pawl tooth 63 to move into the pressure tube 50 . When the moving block 62 moves, the engaging pin 68 moves within the guide groove 65 , and the first reversing rod 58 reverses when passing through the first V-shaped groove 66 . The first engaging pin 68 is engaged in the second V-shaped groove 66 by the guidance of the first V-shaped groove 66 . At this time, the gas vent pipe 601 is positioned inside the pressure pipe 50, and the gas in the pressure pipe 50 is discharged to the water through the gas vent hole 602. At the same time, the return block 54 positioned inside the pneumatic tube 50 moves downward and returns, and the pawl tooth 63 engages in the engaging groove 60, thereby stopping the return block 54. As shown in FIG. By the same principle, the return block 54 in the branch pipe 53 releases the stop, and the action of air pressure causes the return block 54 in the branch pipe to abut against the pull rod 56 and move to the left, while driving the first reversing rod to move to the left. flip to Further, the third slanted gear is again meshed with the first slanted gear and the second slanted gear. When reversing, the engaging pin 68 is driven to move in the second V-shaped groove 67, and the engaging pin 68 is driven to enter the guide groove 65 again. At this time, the moving block 62 is returned, and the pawl tooth 63 is disengaged from the engagement groove 60, thereby releasing the stop of the return block 54 located in the pressure tube 50. At the same time, it is located in the return block 54 in the branch pipe. So far, alternate movement of both return blocks has been realized. During the reciprocating movement of the mobile rack 40, the rotary gear 33 is driven to start rotating. Then, the rotating shaft 32 is driven to start rotating, and at this time, the rubber plate 301 rotates, and furthermore, the rubber block 302 is driven to start rotating. The rubber block 302 is driven to rotate the first launching chamber 30 intermittently, sucking the water in the main body 1 into the launching chamber 30 when the rubber block 302 passes through the one-way valve. Then, the water is forced into the filtering chamber 31 . Further, the connection rod 35 is rotated by the rotation of the rotating shaft 32 . Then, the abutting gear 36 and the filtering ring gear 37 are meshed, and rotation starts. Further, the tightening roller 38 is driven to rotate,
It can be driven to move the filter cloth 39 . This will filter the oil in the water.

The foregoing has shown and described the basic principles, major features and advantages of the present invention. For those skilled in the art,
It is clear that the invention is not limited to the details of the exemplary embodiments described above. Also, the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. Accordingly, the embodiments are to be considered in all respects as illustrative and not restrictive, and the scope of the invention is to be limited by the appended claims rather than by the foregoing description. Accordingly, the invention is intended to embrace all changes that come within the meaning and range of equivalent elements of the claims. Any reference signs in the claims should not be construed as limiting claims.
Moreover, although the specification is described according to the embodiments, it should be understood that each embodiment does not include only one independent technical idea, and such description in this specification is merely for clarity. Should. A person skilled in the art should integrate the specification, and the technical solutions in each example can be appropriately combined to form other embodiments that can be understood by a person skilled in the art.

Claims (4)

A fully automatic pork washing machine,
a main body 1, a fountain head 10 provided on the upper end of the main body 1, a bottom seat 11 provided on the bottom of the main body 1, a filter mesh frame 12 provided on the inner wall of the main body 1, a fixed column 13 provided on the bottom seat 11, A plurality of sets of cleaning mechanisms 2 provided on the fixed column 13, rotating rollers 14 provided in the fixed column 13, guide blocks 15 provided on the inner wall of the filter mesh frame 12, and guide springs 16 provided on the guide blocks 15. , the first gear 1 provided at the bottom of the rotating roller 14
7, a first ring gear 18 provided in the bottom seat 11, a change gear 19 provided at the bottom of the main body 1, and a filtering mechanism 3 provided at the upper end of the fixed column 13,
The cleaning mechanism 2 includes a plurality of first cleaning columns 20 provided on the fixed column 13, a first brush 21 provided on the first cleaning columns 20, and a plurality of drain holes 22 provided on the first cleaning columns 20. , a moving chamber 23 provided in the first cleaning column 20, a moving piston 24 provided in the moving chamber 23,
A second cleaning column 25 provided on the moving piston 24 , a second brush 26 provided on the second cleaning column 25 , an oblique annular groove 27 provided on one end of the first cleaning column 20 , and a fitting provided on the moving piston 24 . Comprising a mating block 28, a drive chamber 29 provided in the fixed column 13, and a drive arrangement 4 provided in the drive chamber 29, the first cleaning column 20 has a circular cross-section and is rotatable on the fixed column 13. A plurality of the first cleaning columns 20 are provided and are arranged uniformly along the circumferential direction of the fixed column 13, connecting the center of the drain hole 22 and the outer periphery of the drain hole 22 The drain hole 22 is located at the first cleaning column 20 so that the radial direction of the drain hole 22 and the radial direction of the cleaning column 20 are inclined.
, the oblique ring groove 27 is formed in the inner wall of the first cleaning column 20, the fitting block 28 is provided in the moving piston 24, and meshes with the oblique ring groove 27,
The drive arrangement 4 includes a moving rack 40 provided on each moving piston 24, a driving rack 41 provided on the rotating roller 14 , a turntable 42 provided at the bottom of the moving rack 40, and a turntable 42. A telescopic rod 43, a connection block 44 connecting the telescopic rod 43 and the drive rack 41, a second gear 45 provided in the fixed column 13, an air pressure chamber 46 provided in the second gear 45, and the pressure chamber 46 The first inclined gear 47 provided in the rotating roller 14
a third gear 48 provided inside, a bi-convex block 49 provided in the drive chamber 29, both contact blocks 401 provided on the rotating roller 14, a second inclined gear 402 provided on the third gear 48, The first abutting tooth 403 provided on the first inclined gear 47 and the second inclined gear 40
2, an air chamber 405 provided in the rotating roller 14, a third inclined gear 406 provided in the air chamber 405, a helical gear 407 provided in the third inclined gear 406, and an air pressure chamber. 46 and the air chamber 405, and the stopping unit 5 provided in the rotating roller 14, the contact block 401 has a trapezoidal cross section and is movably provided on the rotating shaft 14, The third inclined gear 406 is movably provided in the air chamber 405, and the helical gear 407 connects the third inclined gear 406 and the air chamber 405.
A fully automatic pork washing device characterized by: The stop unit 5 includes a pressure tube 50 provided in the rotating roller 14, a piston 51 provided in the abutment block 401, a piston spring 52 provided in the piston 51, and the pressure tube 50.
and a return block 54 provided in each of the barometric pipe 50 and the branch pipe 53.
, the buffer chamber 55 provided in the third inclined gear 406, the pull rod 56 provided in the buffer chamber 55, the stop chamber 503 provided in the rotating roller 14, the stop groove 57 provided in the pull rod 56, the pull A first reversing rod 58 provided on both sides of the rod 56, a second reversing rod 580 provided in the stop chamber 503, a reversing spring 59 provided in the first reversing rod 58, and a reversing rod 580 provided in the second reversing rod 580. The piston 5 includes an air pressure groove 501, a second air pressure tube 502 provided on the rotating roller 14, and a positioning member 6 provided on the second air pressure tube 502.
1 is provided in the abutment block 401, the piston 51 is movably positioned in the pressure tube 50, the stop groove 57 has a trapezoidal longitudinal section, is opened in the pull rod 56, and the return block 54 are provided at the front ends of the pneumatic tube 50 and the branch tube 53 respectively, and the longitudinal section of the return block 54 located at the pneumatic tube 50 is trapezoidal.
The fully automatic pork washing machine according to claim 1, characterized in that: The positioning member 6 includes an engaging groove 60 provided on each return block 54, a moving block 62 provided at one end of the second trachea, a pawl tooth 63 provided on the moving block 62, and a moving block 62 provided on the moving block 62. A spring 64, a guide groove 65 provided in the inner wall of the second trachea 502, a first V-shaped groove 66 provided in the guide groove 65, and a second V-shaped groove 67 provided on one side of the first V-shaped groove 66. , an engaging pin 68 provided on the moving block 62, an engaging pin spring provided on the engaging pin 68, a gas venting pipe 601 provided on the bottom of the moving block 62, and a gas venting hole 602 provided on the gas venting pipe 601. and the cross section of the first V-shaped groove 66 is V
The cross section of the second V-shaped groove 67 is V-shaped and is located on the right side of the first V-shaped groove 67, and is located at the left end of the guide groove 65, and is a gas vent hole. 602 is the gas vent pipe 601
and the gas vent hole 602 penetrates the fixed column 13,
The fully automatic pork washing machine according to claim 1, characterized in that: The filtering mechanism 3 includes a launching chamber 30 provided at the top end of the fixed column 13, a filtering chamber 31 provided below the launching chamber 30, a rotating shaft 32 provided at the bottom of the filtering chamber 31, and the rotation shaft 32. A rotating gear 33 provided on the bottom , a reciprocating rack 34 provided on the moving rack 40, a connecting rod 35 provided on the rotating shaft 32, butting gears 36 provided on both ends of the connecting rod 35, and an inner wall of the filtration chamber 31. Filtration ring gear 37 provided in, tightening roller 38 provided in matching gear 36, filter cloth 39 connecting both tightening rollers 38, rubber plate 301 provided in launching chamber 30, and rubber plate 301 surrounding The launching chamber 30 is opened at the top end of the fixed column 13, the cross section of the launching chamber 30 is elliptical, and the rubber block 302 is arcuate in cross section. provided, and arranged uniformly along the circumferential direction of the rubber plate 301,
The fully automatic pork washing machine according to claim 1, characterized in that:

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