阅读说明：本技术 一种带有运输结构的肉类分割装置 (Meat segmenting device with transportation structure ) 是由 孟敏 王丹宇 黄小华 陈建 邹正勇 陆建 唐道富 于 2021-08-18 设计创作，主要内容包括：本发明提供一种带有运输结构的肉类分割装置,涉及肉类分割技术领域,包括驱动主机,所述驱动主机前方表面上端一体化连接有切割辅助运输组件,所述切割辅助运输组件一侧表面固定安装有分类组件,所述切割辅助运输组件下端通过传送带支撑框架安装有传送带,所述传送带下端固定安装有两个通气板,所述驱动主机下端固定连接有装置底座；本发明通过将需要分割的肉块放置在远离分类组件3一侧的传送带4上,通过传送带4将其送入切割辅助运输组件2内,再通过切割辅助运输组件2内两段按压辅助传送带12配合传送带4夹住,再通过肉类分割切刀14旋转将肉块分割开,从而达到自动传输的同时分割肉的效果。(The invention provides a meat cutting device with a transportation structure, which relates to the technical field of meat cutting and comprises a driving host, wherein the upper end of the front surface of the driving host is integrally connected with a cutting auxiliary transportation assembly, the surface of one side of the cutting auxiliary transportation assembly is fixedly provided with a classification assembly, the lower end of the cutting auxiliary transportation assembly is provided with a conveyor belt through a conveyor belt supporting frame, the lower end of the conveyor belt is fixedly provided with two vent plates, and the lower end of the driving host is fixedly connected with a device base; according to the invention, the meat to be cut is placed on the conveying belt 4 at one side far away from the classifying component 3, the meat is conveyed into the cutting auxiliary conveying component 2 through the conveying belt 4, the meat is clamped by two sections of pressing auxiliary conveying belts 12 in the cutting auxiliary conveying component 2 in a manner of being matched with the conveying belt 4, and the meat is cut by rotating the meat cutting cutter 14, so that the meat is automatically conveyed and cut.)

1. The utility model provides a meat segmenting device with transportation structure, includes driving host (1), its characterized in that: driving host (1) the integration of the surperficial upper end in place ahead is connected with cutting subsidiary transport subassembly (2), cutting subsidiary transport subassembly (2) one side fixed surface installs categorised subassembly (3), cutting subsidiary transport subassembly (2) lower extreme surface both ends are provided with the mosquito-proof worm of a plurality of respectively and hang curtain (7), conveyer belt (4) are installed through conveyer belt braced frame (6) to cutting subsidiary transport subassembly (2) lower extreme, just conveyer belt (4) both ends are rotated respectively and are connected with two conveyer belt support cylinders (5), conveyer belt (4) lower extreme fixed mounting has two air vent (8), driving host (1) lower extreme fixedly connected with device base (9).

2. A meat separating device with a transporting structure as claimed in claim 1 wherein: the lower end surface of the middle section of the conveyor belt (4) is supported by two auxiliary conveyor belt rollers (16), and two transport conveyor belt auxiliary rollers (16) are respectively rotatably arranged on the front end surface of the side plate (10) of the driving main machine through two transport conveyor belt auxiliary roller rotating shafts (17), the middle section of the inner ring of the conveyor belt (4) is rotationally engaged and connected with a conveying conveyor belt driving roller (18) for driving the conveyor belt to rotate, and the conveying belt driving roller (18) is rotatably arranged on the front end surface of the driving main machine side plate (10) through a driving roller rotating shaft (19), a brush base (20) is fixedly arranged at the lower end of the conveying belt driving roller (18) and positioned at the lower end of the conveying belt (4) and the front end surface of the driving main machine side plate (10), the upper end surface of the brush base (20) is provided with a plurality of cleaning brushes (21) which are used for cleaning and contacting the meat conveyor belt (4).

3. A meat separating device with a transporting structure as claimed in claim 1 wherein: the cutting assist transport assembly (2) comprises: cutting auxiliary transport subassembly shell (11), press auxiliary conveyor belt (12), auxiliary conveyor belt cylinder (13), cutter (14) and cutter rotation axis (15) are cut apart to meat, cutting auxiliary transport subassembly shell (11) fixed welding installs at driving host computer curb plate (10) front end surface.

4. A meat separating device with a transporting structure as claimed in claim 3 wherein: drive host computer curb plate (10) just are located cutting auxiliary transport subassembly shell (11) internal rotation and install a plurality of auxiliary conveyor belt cylinder (13), every auxiliary conveyor belt cylinder (13) all rotate the meshing and press auxiliary conveyor belt (12) in two, two press to rotate through cutter rotation axis (15) between auxiliary conveyor belt (12) and install meat and cut apart cutter (14), just meat is cut apart cutter (14) and is rotated and install at drive host computer curb plate (10) front end surface.

5. A meat separating device with a transporting structure as claimed in claim 1 wherein: the drive main unit (1) includes: the cutter driving mechanism comprises a driving host side plate (10), a cutter driving gear (22), a cutter driven gear (23), a cutter driving belt (24), a cutter motor driving turntable (25), a cutter motor (26) and a cutter motor fixing plate (27), wherein the cutter motor fixing plate (27) is fixed to the lower end of the inner side surface of the driving host side plate (10) in a welded mode.

6. A meat separating device with a transporting structure as claimed in claim 5, wherein: cutter motor fixed plate (27) upper end fixed surface installs cutter motor (26), fixedly connected with cutter motor drive carousel (25) on the output shaft of cutter motor (26), this cutter motor drive carousel (25) rotate the meshing through cutter driving belt (24) and another cutter motor drive carousel (25) and be connected, another cutter motor drive carousel (25) are located the rotation axis of cutter drive gear (22) and between cutter drive gear (22) and drive host computer curb plate (10), cutter drive gear (22) one side meshing is connected with cutter driven gear (23), just cutter driven gear (23) rear end fixed connection is on cutter rotation axis (15).

7. A meat separating device with a transporting structure as claimed in claim 1 wherein: the sorting assembly (3) comprises: categorised subassembly base (28), categorised driving motor (29), right angle tooth (30), No. two right angle teeth (31), categorised driving lever rotation axis (32), drive support post fixed block (33), drive support post (34), drive stopper (35), stopper connecting seat (36), categorised driving lever (37), categorised driving lever rotation axis fixed frame (38), categorised driving lever acceleration assembly (39) and driving lever baffle (40), categorised subassembly base (28) rear end fixed mounting is in the supplementary transportation subassembly shell of cutting (11) side.

8. A meat separating device with a transporting structure as claimed in claim 7, wherein: the rear end of the surface of the upper end of the classification component base (28) is fixedly provided with a classification driving motor (29), an output shaft of the classification driving motor (29) is fixedly connected with a first right-angle tooth (30), one side of the upper end of the first right-angle tooth (30) is engaged and connected with a second right-angle tooth (31), the upper end of the second right-angle tooth (31) is fixedly welded with a limiting block connecting seat (36), two driving limiting blocks (35) which are not in circular symmetry with the limiting block connecting seat (36) are integrally connected with two ends of the upper end surface of the limiting block connecting seat (36), the front end of the classification component base (28) is fixedly welded with a classification driving lever rotating shaft fixing frame (38), the upper end of the classification driving lever rotating shaft fixing frame (38) is rotatably provided with a classification driving lever rotating shaft (32) through a bearing, and one end side surface of the classification driving lever rotating shaft (32) close to the second right-angle tooth (31) is integrally connected with a driving support fixing block (33), the lower end of the driving support column fixing block (33) is integrally connected with two driving support columns (34) which are symmetrical in axis.

9. A meat separating device with a transporting structure as claimed in claim 8, wherein: the other end of the classification deflector rod rotating shaft (32) is fixedly connected with a classification deflector rod (37), and the middle section of the classification deflector rod (37) is integrally connected with a classification deflector rod accelerating assembly (39).

10. A meat separating device with a transporting structure as claimed in claim 9 wherein: the sorting lever acceleration assembly (39) comprises: an accelerating component rotating shaft (41), an accelerating component connecting rod (42), a connecting rod fixing block (43), an accelerating component shell (44), an accelerating spring (45) and a spring abutting block (46), the connecting rod fixing block (43) is integrally connected with the lower end of the classification deflector rod rotating shaft fixing frame (38), the rear side surface of the connecting rod fixing block (43) is rotationally connected with an accelerating component connecting rod (42) through a bearing seat, one side of the other end of the accelerating component connecting rod (42) close to the connecting rod fixing block (43) is fixedly connected with an accelerating component rotating shaft (41), the other end of the rotating shaft (41) of the accelerating component is rotationally connected with a spring abutting block (46) through a bearing seat, the spring resisting block (46) is arranged in the accelerating component shell (44) in a sliding way, an accelerating spring (45) is arranged between the upper end surface of the spring abutting block (46) and the inner wall of the upper end of the accelerating component shell (44).

Technical Field

The invention relates to the technical field of meat segmentation, in particular to a meat segmentation device with a transportation structure.

Background

At present, a large meat block is required to be divided into small meat blocks before meat processing, the processing modes are different according to different parts of meat, and at present, manual division is too troublesome and unsafe due to the fact that the meat blocks are too large, and the divided meat blocks cannot be classified at the same time, so that the invention provides the meat dividing device with the transportation structure.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a meat dividing device with a transportation structure, which solves the problems that at present, the manual division is too troublesome and unsafe due to overlarge meat blocks, and the divided meat blocks cannot be classified.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

the utility model provides a meat cutting device with transportation structure, includes driving host, the integration of driving host the place ahead upper surface is connected with the transportation subassembly is assisted in the cutting, the transportation subassembly is assisted in the cutting side fixed surface installs categorised subassembly, the transportation subassembly is assisted in the cutting lower extreme surface both ends are provided with the mosquito-proof worm of a plurality of respectively and hang the curtain, the conveyer belt is installed through conveyer belt braced frame to the transportation subassembly lower extreme is assisted in the cutting, just the conveyer belt both ends are rotated respectively and are connected with two conveyer belt support cylinder, conveyer belt lower extreme fixed mounting has two air vent plates, driving host lower extreme fixedly connected with device base.

Preferably, the lower extreme surface in conveyer belt middle section supports through two transportation conveyer belt auxiliary roller, and two transportation conveyer belt auxiliary roller installs at driving host side board front end surface through two transportation conveyer belt auxiliary roller rotation of rotation respectively, conveyer belt inner circle middle section rotation meshing is connected with and is used for driving its pivoted transportation conveyer belt driving roller, just transportation conveyer belt driving roller installs at driving host side board front end surface through driving roller rotation of rotation, transportation conveyer belt driving roller lower extreme just is located conveyer belt lower extreme and driving host side board front end fixed surface and installs the brush base, brush base upper end surface is provided with the washing brush that a plurality of was used for wasing the meat conveyer belt of contact.

Preferably, the cutting assist transport assembly comprises: the cutting auxiliary transportation assembly shell, press auxiliary conveyor belt, auxiliary conveyor belt cylinder, meat and cut apart cutter and cutter rotation axis, cutting auxiliary transportation assembly shell fixed welding installs on drive host computer curb plate front end surface.

Preferably, the driving main machine side plate is positioned in a shell of the cutting auxiliary transportation assembly and is rotatably provided with a plurality of auxiliary conveyor belt rollers, each auxiliary conveyor belt roller is rotatably engaged in two pressing auxiliary conveyor belts, two pressing auxiliary conveyor belts are rotatably provided with meat cutting cutters through cutter rotating shafts, and the meat cutting cutters are rotatably arranged on the surface of the front end of the driving main machine side plate.

Preferably, the driving host includes: the cutter driving mechanism comprises a driving host side plate, a cutter driving gear, a cutter driven gear, a cutter driving belt, a cutter motor driving turntable, a cutter motor and a cutter motor fixing plate, wherein the cutter motor fixing plate is welded and fixed at the lower end of the inner side surface of the driving host side plate.

Preferably, a cutter motor is fixedly mounted on the surface of the upper end of the cutter motor fixing plate, a cutter motor driving turntable is fixedly connected to an output shaft of the cutter motor and is in meshed connection with another cutter motor driving turntable through a cutter driving belt in a rotating mode, the other cutter motor driving turntable is located on a rotating shaft of the cutter driving gear and is located between the cutter driving gear and a side plate of the driving host, a cutter driven gear is in meshed connection with one side of the cutter driving gear, and the rear end of the cutter driven gear is fixedly connected to the cutter rotating shaft.

Preferably, the classification component comprises: categorised subassembly base, categorised driving motor, a right angle tooth, No. two right angle teeth, categorised driving lever rotation axis, drive support post fixed block, drive support post, drive stopper, stopper connecting seat, categorised driving lever rotation axis fixed frame, categorised driving lever acceleration assembly and driving lever baffle, categorised subassembly base rear end fixed mounting is in cutting auxiliary transport subassembly shell side.

Preferably, the rear end of the upper end surface of the base of the classification component is fixedly provided with a classification driving motor, a first right-angle tooth is fixedly connected to an output shaft of the classification driving motor, a second right-angle tooth is connected to one side of the upper end of the first right-angle tooth in a meshing manner, a limiting block connecting seat is fixedly welded to the upper end of the second right-angle tooth, and two driving limit blocks which are not symmetrical with the circle center of the limit block connecting seat are integrally connected with the two ends of the upper end surface of the limit block connecting seat, a classification deflector rod rotating shaft fixing frame is welded and fixed at the front end of the classification component base, a classification deflector rod rotating shaft is rotatably arranged at the upper end of the classification deflector rod rotating shaft fixing frame through a bearing, the side surface of one end of the classification deflector rod rotating shaft close to the second right-angle tooth is integrally connected with a driving support column fixing block, the lower end of the drive prop fixing block is integrally connected with two drive prop columns which are symmetrical in axial lead.

Preferably, the other end of the rotating shaft of the classifying deflector rod is fixedly connected with a classifying deflector rod, and the middle section of the classifying deflector rod is integrally connected with a classifying deflector rod accelerating assembly.

Preferably, the sorting lever accelerating assembly includes: the utility model discloses a quick-witted component assembly, including the categorised driving lever rotation axis of rotation, the subassembly connecting rod with higher speed, connecting rod fixed block, the subassembly shell with higher speed, the spring supports the piece with higher speed and spring, connecting rod fixed block integration is connected at categorised driving lever rotation axis fixed frame lower extreme, the connecting rod fixed block rear side surface is connected with the subassembly connecting rod with higher speed through the bearing frame rotation, the subassembly rotation axis with higher speed is close to one side fixedly connected with of connecting rod fixed block to the subassembly connecting rod other end with higher speed, the other end of subassembly rotation axis with higher speed is connected with the spring through the bearing frame rotation and supports the piece, the spring supports a slidable mounting in the subassembly shell with higher speed, the spring supports and is provided with the spring with higher speed between piece upper end surface and the subassembly shell upper end inner wall with higher speed.

(III) advantageous effects

The invention provides a meat cutting device with a transportation structure. The method has the following beneficial effects:

the meat cutting and conveying device comprises a meat cutting and conveying assembly, a meat separating cutter, a meat separating and conveying assembly, a conveying belt, a cutting auxiliary conveying assembly, a meat separating cutter and a conveying belt, wherein meat blocks to be separated are placed on the conveying belt far away from one side of the meat separating assembly, the meat blocks are conveyed into the cutting auxiliary conveying assembly through the conveying belt, the two sections of the cutting auxiliary conveying assembly are pressed by the auxiliary conveying belt to be clamped by the conveying belt in a matched mode, and the meat separating cutter rotates to separate the meat blocks, so that the effect of automatically conveying and separating meat is achieved;

the meat piece is divided, and then a classification component is added, a classification driving motor on the classification driving component rotates to drive a first right-angle tooth, the first right-angle tooth is meshed with a second right-angle tooth to change the rotation driving direction of the first right-angle tooth, and two driving limiting blocks which are not in circular symmetry at the upper end of the second right-angle tooth are matched with two driving support columns to enable a classification deflector rod to swing left and right, wherein the classification deflector rod cannot push the divided meat piece because the natural swinging speed of the classification deflector rod is too slow, so that a classification deflector rod accelerating component is added on the classification deflector rod;

through the rebound acting force of the accelerating spring in the classifying deflector rod accelerating assembly and the accelerating assembly connecting rod, the swinging kinetic energy can be increased for the classifying deflector rod while the direction of the classifying deflector rod is changed, so that the meat blocks after being cut can be pushed to different places according to the needed parts, and the effect of facilitating subsequent processing is achieved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the connection structure of the cutting assist transport assembly and the conveyor belt of the present invention;

FIG. 3 is a schematic diagram of the internal structure of the driving host according to the present invention;

FIG. 4 is a schematic view of the connection structure of the sorting module according to the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4A;

FIG. 6 is a side view of the sorting assembly of the present invention;

FIG. 7 is a schematic view of the overall structure of the classifying lever accelerating assembly according to the present invention.

Wherein, 1, driving the host; 2. cutting the auxiliary transportation assembly; 3. a classification component; 4. a conveyor belt; 5. a conveyor belt support drum; 6. a conveyor belt support frame; 7. a mosquito-proof hanging curtain; 8. a breather plate; 9. a device base; 10. a driving host side plate; 11. cutting the auxiliary transport assembly housing; 12. pressing the auxiliary conveyor belt; 13. an auxiliary conveyor belt roller; 14. a meat cutting knife; 15. a cutter rotating shaft; 16. a transport conveyor auxiliary drum; 17. a transport conveyor auxiliary drum rotation shaft; 18. a transport conveyor drive roller; 19. a driving roller rotating shaft; 20. a brush base; 21. cleaning the brush; 22. the cutter drives the gear; 23. a cutter driven gear; 24. the cutter drives the belt; 25. the cutter motor drives the turntable; 26. a cutter motor; 27. a cutter motor fixing plate; 28. a classification component base; 29. a classification driving motor; 30. a first right-angle tooth; 31. a second right-angle tooth; 32. a sorting deflector rod rotating shaft; 33. driving the support pillar fixing block; 34. driving the prop; 35. a driving limiting block; 36. a limiting block connecting seat; 37. classifying deflector rods; 38. a classification deflector rod rotating shaft fixing frame; 39. a sorting deflector rod acceleration assembly; 40. a deflector rod baffle; 41. an acceleration assembly rotation axis; 42. an acceleration assembly connecting rod; 43. a connecting rod fixing block; 44. an acceleration assembly housing; 45. an acceleration spring; 46. a spring resisting block;

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b):

as shown in fig. 1, 2, 3, 4, 5, 6 and 7, an embodiment of the invention provides a meat cutting device with a transportation structure, which comprises a driving host 1, wherein the upper end of the front surface of the driving host 1 is integrally connected with a cutting auxiliary transportation assembly 2, a classification assembly 3 is fixedly installed on the surface of one side of the cutting auxiliary transportation assembly 2, a plurality of mosquito-proof hanging curtains 7 are respectively arranged at two ends of the surface of the lower end of the cutting auxiliary transportation assembly 2, a conveying belt 4 is installed at the lower end of the cutting auxiliary transportation assembly 2 through a conveying belt supporting frame 6, two conveying belt supporting rollers 5 are respectively rotatably connected at two ends of the conveying belt 4, two vent plates 8 are fixedly installed at the lower end of the conveying belt 4, and a device base 9 is fixedly connected at the lower end of the driving host 1.

According to the technical scheme, the meat to be cut is placed on the conveying belt 4 far away from one side of the classification component 3, the meat is conveyed into the cutting auxiliary conveying component 2 through the conveying belt 4, the meat is clamped by the two sections of pressing auxiliary conveying belts 12 in the cutting auxiliary conveying component 2 in a matching manner with the conveying belt 4, and the meat is cut by the rotation of the meat cutting cutter 14, so that the effect of automatically conveying and cutting meat is achieved; the meat piece is divided, then the classification component 3 is added, the classification driving motor 29 on the classification component rotates to drive the first right-angle tooth 30, the first right-angle tooth 30 is meshed with the second right-angle tooth 31 to change the rotation driving direction of the first right-angle tooth, and the classification deflector rod 37 swings left and right through the matching of two driving limiting blocks 35 which are not in circular symmetry and arranged at the upper end of the second right-angle tooth 31 and two driving resisting columns 34, wherein the natural swinging speed of the classification deflector rod 37 is too low to push the divided meat piece, so the classification deflector rod accelerating component 39 is added on the classification deflector rod 37; through the rebound acting force of the accelerating spring 45 in the classifying deflector rod accelerating assembly 39 and the accelerating assembly connecting rod 42, the swinging kinetic energy can be increased for the classifying deflector rod 37 while the direction of the classifying deflector rod is changed, so that the meat blocks after being divided can be pushed to different places according to the needed parts, and the effect of facilitating subsequent processing is achieved.

In the embodiment, the lower end surface of the middle section of the conveyor belt 4 is supported by two conveying belt auxiliary rollers 16, two conveying belt auxiliary rollers 16 are respectively rotatably mounted on the front end surface of the driving main machine side plate 10 through two conveying belt auxiliary roller rotating shafts 17, the conveying belt 4 inner ring middle section is rotatably meshed with and connected with a conveying belt driving roller 18 for driving the conveying belt driving roller to rotate, the conveying belt driving roller 18 is rotatably mounted on the front end surface of the driving main machine side plate 10 through a driving roller rotating shaft 19, the lower end of the conveying belt driving roller 18 is fixedly mounted with a brush base 20 on the surfaces of the lower end of the conveyor belt 4 and the front end of the driving main machine side plate 10, the upper end surface of the brush base 20 is provided with a plurality of cleaning brushes 21 for cleaning the meat conveyor belt 4 which is in contact, and the part of the conveyor belt 4 which is conveyed with meat can be cleaned through the cleaning brushes 21, so that the meat is not cleaned well after being contacted with the meat repeatedly and germs are bred.

The present embodiment adds the cutting assist transport assembly 2 by design including: the cutting auxiliary conveying assembly comprises a cutting auxiliary conveying assembly shell 11, a pressing auxiliary conveying belt 12, an auxiliary conveying belt roller 13, a meat cutting cutter 14 and a cutter rotating shaft 15, wherein the cutting auxiliary conveying assembly shell 11 is fixedly welded and installed on the surface of the front end of a side plate 10 of a driving main machine; drive host computer curb plate 10 just is located the cutting and assists the transportation subassembly shell 11 internal rotation and installs a plurality of auxiliary conveyor belt cylinder 13, every auxiliary conveyor belt cylinder 13 all rotates the meshing and presses two auxiliary conveyor belt 12 in, two press and rotate through cutter rotation axis 15 between the auxiliary conveyor belt 12 and install meat and cut apart cutter 14, just the meat is cut apart cutter 14 and is rotated and install on drive host computer curb plate 10 front end surface, can cooperate conveyer belt 4 to press the meat that needs cut apart so that the cutting through foretell pressing auxiliary conveyor belt 12.

The present embodiment adds the drive host 1 by design, including: the cutting device comprises a driving main machine side plate 10, a cutting knife driving gear 22, a cutting knife driven gear 23, a cutting knife driving belt 24, a cutting knife motor driving turntable 25, a cutting knife motor 26 and a cutting knife motor fixing plate 27, wherein the cutting knife motor fixing plate 27 is fixedly welded at the lower end of the inner side surface of the driving main machine side plate 10; the cutter motor 26 is fixedly arranged on the surface of the upper end of the cutter motor fixing plate 27, the cutter motor driving turntable 25 is fixedly connected to the output shaft of the cutter motor 26, the cutter motor driving turntable 25 is in rotating meshed connection with another cutter motor driving turntable 25 through a cutter driving belt 24, the other cutter motor driving turntable 25 is positioned on the rotating shaft of the cutter driving gear 22 and is arranged between the cutter driving gear 22 and the driving main machine side plate 10, one side of the cutter driving gear 22 is in meshed connection with a cutter driven gear 23, the rear end of the cutter driven gear 23 is fixedly connected to the cutter rotating shaft 15, the two cutter motor driving turntables 25 are driven by the cutter driving belt 24 and the cutter driving gear 22 are meshed with the cutter driven gear 23, and the effect of driving through one cutter motor 26 can be achieved, the power is saved.

The present embodiment adds the classification component 3 by design, including: the automatic sorting device comprises a sorting assembly base 28, a sorting driving motor 29, a first right-angle tooth 30, a second right-angle tooth 31, a sorting deflector rod rotating shaft 32, a driving abutting column fixing block 33, a driving abutting column 34, a driving limiting block 35, a limiting block connecting seat 36, a sorting deflector rod 37, a sorting deflector rod rotating shaft fixing frame 38, a sorting deflector rod accelerating assembly 39 and a deflector rod baffle 40, wherein the rear end of the sorting assembly base 28 is fixedly arranged on the side face of a cutting auxiliary transportation assembly shell 11; a classification driving motor 29 is fixedly arranged at the rear end of the upper end surface of the classification component base 28, a first right-angle gear 30 is fixedly connected to an output shaft of the classification driving motor 29, one side of the upper end of the first right-angle tooth 30 is engaged with a second right-angle tooth 31, the upper end of the second right-angle tooth 31 is welded and fixed with a limiting block connecting seat 36, and two driving limit blocks 35 which are not in circular symmetry with the limit block connecting base 36 are integrally connected with two ends of the upper end surface of the limit block connecting base 36, a classification deflector rod rotating shaft fixing frame 38 is welded and fixed at the front end of the classification component base 28, the sorting lever rotating shaft fixing frame 38 is rotatably provided at an upper end thereof with a sorting lever rotating shaft 32 through a bearing, the side surface of one end of the classification deflector rod rotating shaft 32 close to the second right-angle tooth 31 is integrally connected with a driving prop fixing block 33, the lower end of the driving prop fixing block 33 is integrally connected with two driving props 34 which are symmetrical in axial lead; the other end of the classification deflector rod rotating shaft 32 is fixedly connected with a classification deflector rod 37, the middle section of the classification deflector rod 37 is integrally connected with a classification deflector rod accelerating assembly 39, the rebound acting force of an accelerating spring 45 in the classification deflector rod accelerating assembly 39 is matched with an accelerating assembly connecting rod 42, the classification deflector rod 37 can increase swinging kinetic energy while changing the direction, and the classification deflector rod 37 can push the divided meat blocks to different places according to the required parts, so that the effect of facilitating subsequent processing is achieved.

The present embodiment adds the classifying lever accelerating assembly 39 by design, which includes: the utility model discloses a rotation axis of accelerating assembly 41, the subassembly connecting rod 42 with higher speed, connecting rod fixed block 43, the subassembly shell 44 with higher speed, accelerate spring 45 and spring and support piece 46, connecting rod fixed block 43 integration is connected at categorised driving lever rotation axis fixed frame 38 lower extreme, connecting rod fixed block 43 rear side surface is connected with the subassembly connecting rod 42 with higher speed through the bearing frame rotation, the subassembly rotation axis 41 with higher speed is connected with to one side fixedly connected with that the subassembly connecting rod 42 other end is close to connecting rod fixed block 43 with higher speed, the other end of subassembly rotation axis 41 with higher speed is connected with spring through the bearing frame rotation and supports piece 46, spring supports piece 46 slidable mounting in subassembly shell 44 with higher speed, the spring supports and is provided with accelerating spring 45 between piece 46 upper end surface and the subassembly shell 44 upper end inner wall with higher speed.

The working principle is as follows:

firstly, meat blocks to be cut are placed on a conveying belt 4 on one side far away from a classification component 3, the meat blocks are conveyed into a cutting auxiliary conveying component 2 through the conveying belt 4, the meat blocks are clamped by two sections of pressing auxiliary conveying belts 12 in the cutting auxiliary conveying component 2 in a matched manner with the conveying belt 4, and the meat blocks are cut through rotation of a meat cutting cutter 14, so that the effect of automatically conveying and cutting meat is achieved; the meat piece is divided, then the classification component 3 is added, the classification driving motor 29 on the classification component rotates to drive the first right-angle tooth 30, the first right-angle tooth 30 is meshed with the second right-angle tooth 31 to change the rotation driving direction of the first right-angle tooth, and the classification deflector rod 37 swings left and right through the matching of two driving limiting blocks 35 which are not in circular symmetry and arranged at the upper end of the second right-angle tooth 31 and two driving resisting columns 34, wherein the natural swinging speed of the classification deflector rod 37 is too low to push the divided meat piece, so the classification deflector rod accelerating component 39 is added on the classification deflector rod 37; through the rebound acting force of the accelerating spring 45 in the classifying deflector rod accelerating assembly 39 and the accelerating assembly connecting rod 42, the swinging kinetic energy can be increased for the classifying deflector rod 37 while the direction of the classifying deflector rod is changed, so that the meat blocks after being divided can be pushed to different places according to the needed parts, and the effect of facilitating subsequent processing is achieved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a reference structure" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.