CN114794197A - Sheep is slaughtered processing and is used splitter - Google Patents

Abstract

The invention discloses a cutting device for sheep slaughtering processing, which relates to the technical field of slaughtering devices and comprises a rack, wherein a supporting mechanism is arranged on the rack and used for stably supporting a sheep body; the transverse cutting mechanism is used for transversely cutting sheep bodies; the vertical cutting mechanism is used for vertical cutting operation of the sheep body, and the transverse cutting mechanism is linked with the vertical cutting mechanism; and the dredging mechanism is used for conducting the cut meat blocks out in batches, and is linked with the transverse cutting mechanism. The invention can realize the cutting operation of stably supporting the sheep body, transversely cutting the sheep body, vertically cutting the sheep body and separately guiding out the sheep body by arranging the supporting mechanism, the transverse cutting mechanism, the vertical cutting mechanism and the dredging mechanism, the cutting equipment is arranged in a centralized way, the automation degree is high, the occupied area is small, and the limitation is small.

Description

Sheep is slaughtered processing and is used splitter

Technical Field

The invention relates to the technical field of slaughtering equipment, in particular to cutting equipment for sheep slaughtering and processing.

Background

Due to the flourishing of external trade and the trend of market economy development of China at the present stage, the requirement of mutton is large, and the slaughtering and processing mode of goats is gradually changed from manual slaughtering to automatic slaughtering for meeting social requirements; the efficiency is continuously improved.

Chinese patent publication No. CN213756483U discloses a slaughtering, cutting and conveying table for goats, comprising: a conveying platform, horizontal wheel steelframe, vertical wheel steelframe, horizontal motor and vertical motor, vertical wheel steelframe has been placed on the right side of a conveying platform, the last surface mounting of vertical wheel steelframe has vertical wheel main shaft, the circumference surface mounting of vertical wheel main shaft has a plurality of vertical conveying wheels, and is a plurality of vertical unified gear, leftmost end are installed at left end face and right-hand member's vertical conveying wheel respectively in vertical conveying wheel vertical unified gear and the vertical unified gear of rightmost end are connected through two vertical unified tracks respectively. The utility model discloses a mutton separator has following beneficial effect: through increasing vertical transfer wheel, horizontal transfer wheel and electric telescopic rod, realized that a passageway disperses a plurality of directions, made things convenient for the factory transportation of meat more.

The technical scheme also has the following problems: the existing segmentation equipment adopts a stage type and assembly line operation mode, mutton needs to be cut by a plurality of assembly line equipment, and the cutting equipment is dispersed, so that the equipment is wide in distribution range and large in occupied area, and has great limitation in practical application.

Disclosure of Invention

Aiming at the problems, the invention provides a cutting device for sheep slaughtering and processing, which solves the problems of wide distribution range, large occupied area and great limitation in practical application caused by low integration degree and dispersed cutting devices of the existing cutting device for sheep slaughtering and processing.

The technical scheme for solving the technical problems is as follows: a cutting device for sheep slaughtering processing comprises a frame, wherein a support mechanism is arranged on the frame and used for stably supporting a sheep body; the transverse cutting mechanism is used for transversely cutting sheep bodies; the vertical cutting mechanism is used for vertical cutting operation of the sheep body, and the transverse cutting mechanism is linked with the vertical cutting mechanism; the dredging mechanism is used for conducting the cut meat blocks out in batches, and is linked with the transverse cutting mechanism; the supporting mechanism comprises a bearing roller and a pressing plate, one end of the bearing roller is connected with a first rotating shaft, the first rotating shaft is rotatably arranged on a rack, a first motor is arranged on the rack, an output shaft of the first motor is linked with the first rotating shaft through a belt pulley group, a supporting column for supporting the bearing roller is arranged on the rack, the bearing roller is arranged in a hollow manner, a plurality of first top parts are slidably arranged on the upper side of the bearing roller, first springs for providing acting force for the first top parts are arranged on the first top parts, a plurality of rotating parts are rotatably arranged on two sides in the bearing roller, a first torsional spring is arranged at the rotating connection position of the rotating parts and the bearing roller, sleeves are connected with one another, second top parts are coaxially connected in the sleeves and are slidably connected with the first top parts, second springs for providing acting force for the second top parts are arranged in the sleeves, movable grooves for providing movable space for the second top parts are arranged on two sides of the bearing roller, and cylinders are arranged in the bearing roller, the cylinder output end coaxial coupling has the pull rod, is provided with on the pull rod to be used for promoting a plurality of sloping blocks that first liftout is gliding, is provided with on the pull rod to be used for promoting a plurality of push pedals that rotate the piece rotatory, and the clamp plate passes through link mechanism with the bearing roller and realizes the linkage, and clamp plate one end is connected with support piece, and support piece rotates and installs in the frame, and slidable mounting has a plurality of third liftout pieces on the clamp plate, is provided with the third spring that provides the effort for it on the third liftout piece.

Furthermore, the link mechanism comprises a linkage rod and a sliding part, one end of the linkage rod is hinged to the supporting part, the other end of the linkage rod is hinged to the sliding part, the sliding part is installed on the rack in a sliding mode, a fourth spring for resetting the sliding part is arranged on the sliding part, and a push rod part for pushing the sliding part to move is arranged at one end of the first rotating shaft.

Further, the transverse cutting mechanism comprises a moving frame and a supporting seat, the moving frame is slidably mounted on the rack, a first lead screw penetrates through the moving frame and is in threaded connection with the moving frame, the first lead screw is rotatably mounted on the rack, a second motor is mounted on the rack, an output shaft of the second motor is coaxially connected with the first lead screw, the supporting seat is slidably mounted on the moving frame, a second lead screw penetrates through the supporting seat and is in threaded connection with the second lead screw, the second lead screw is rotatably mounted on the moving frame, a third motor is mounted on the moving frame, and an output shaft of the third motor is coaxially connected with the second lead screw; articulated on the supporting seat have the arc guide rail, arc guide rail one side is provided with the latch, slidable mounting has the link on the arc guide rail, rotates on the link and installs the second pivot, installs the fourth motor on the link, fourth motor output shaft and second pivot coaxial coupling, second pivot coaxial coupling have with the first gear of latch meshing, rotate on the link install with arc guide rail matched with leading wheel, install first cutter on the link.

Further, vertical cutting mechanism includes back shaft and support frame, the back shaft rotates and installs in the frame, the cover is equipped with the second gear on the back shaft, it is provided with the first rack with second gear matched with to remove frame one side, the second torsional spring is installed with the junction of frame to the back shaft, the support frame sets up in the back shaft upper end, slidable mounting has the support arm on the support frame, install the second cutter on the support arm, run through on the support arm and be provided with third lead screw and both threaded connection, the third lead screw rotates and installs on the support frame, install the fifth motor on the support frame, fifth motor output shaft and third lead screw coaxial coupling.

Further, dredge the export board that the mechanism includes that two symmetries set up, be provided with a plurality of baffles on the export board, export the board both sides and all rotate and install the guide pulley, two adjacent guide pulleys are laminated each other, export the equal slidable mounting in board both sides and have the slider, be provided with the fifth spring that provides the effort for it on the slider, be connected with the third pivot on the slider, the third pivot is rotated and is installed in the frame, one of them third pivot coaxial coupling on every export board has the third gear, it all is provided with the second rack to remove the frame both sides, two second racks respectively with two third gear engagement, two second gear synchronous motion just drive two third gear antiport.

Furthermore, a cutter groove matched with the second cutter is formed in the first ejector.

Furthermore, a plurality of matched conveyor belts are arranged on the lower side of the guide-out plate of the frame.

The invention has the beneficial effects that.

(1) The invention can realize the cutting operation of stably supporting the sheep body, transversely cutting the sheep body, vertically cutting the sheep body and separately guiding out the sheep body by arranging the supporting mechanism, the transverse cutting mechanism, the vertical cutting mechanism and the dredging mechanism, the cutting equipment is arranged in a centralized way, the automation degree is high, the occupied area is small, and the limitation is small.

(2) The sheep body inner cavity can be stably supported through the arranged supporting mechanism, and the elastic arrangement of the first jacking piece and the second jacking piece can adapt to sheep bodies with different sizes, so that the subsequent cutting operation is facilitated.

(3) The invention can realize linkage with the transverse cutting mechanism by arranging the dredging mechanism, and leads out the divided meat blocks in batches, thereby improving the processing efficiency of the mutton body meat blocks and facilitating the subsequent processing operation.

Drawings

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

Fig. 2 is a first schematic view of the supporting mechanism of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a second schematic view of the supporting mechanism of the present invention.

Fig. 5 is a schematic view of the internal structure of the bearing roller of the present invention.

Fig. 6 is an enlarged view at B in fig. 5.

FIG. 7 is a first schematic view of a transverse cutting mechanism according to the present invention.

Fig. 8 is a schematic structural diagram of the moving frame according to the present invention.

Fig. 9 is a schematic view of the structure of the arc-shaped guide rail of the invention.

Fig. 10 is a schematic view of the dredging mechanism of the present invention.

Fig. 11 is an enlarged view at C in fig. 7.

Fig. 12 is a schematic view of a vertical cutting mechanism of the present invention.

Fig. 13 is an enlarged view at D in fig. 12.

Reference numerals: 1. a frame; 2. a support mechanism; 21. a bearing roller; 22. pressing a plate; 23. a first rotating shaft; 24. a first motor; 25. a pulley set; 26. a support pillar; 27. a first head member; 28. a first spring; 29. a rotating member; 210. a first torsion spring; 211. a sleeve; 212. a second head member; 213. a second spring; 214. a movable groove; 215. a cylinder; 216. a pull rod; 217. a sloping block; 218. pushing the plate; 219. a support member; 220. a third head member; 221. a third spring; 3. a transverse cutting mechanism; 31. a movable frame; 32. a supporting seat; 33. a first lead screw; 34. a second motor; 35. a second lead screw; 36. a third motor; 37. an arc-shaped guide rail; 38. ring teeth; 39. a connecting frame; 310. a second rotating shaft; 311. a fourth motor; 312. a first gear; 313. a guide wheel; 314. a first cutter; 4. a vertical cutting mechanism; 41. a support shaft; 42. a support frame; 43. a second gear; 44. a first rack; 45. a second torsion spring; 46. a support arm; 47. a second cutter; 48. a third screw rod; 49. a fifth motor; 5. a dredging mechanism; 51. a lead-out plate; 52. a partition plate; 53. a guide wheel; 54. a slider; 55. a fifth spring; 56. a third rotating shaft; 57. a third gear; 58. a second rack; 6. a link mechanism; 61. a linkage rod; 62. a slider; 63. a fourth spring; 64. a pusher member; 7. a cutter groove; 8. and (4) a conveyor belt.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, the cutting device for sheep slaughtering processing provided by the embodiment comprises a frame 1, wherein a support mechanism 2 is arranged on the frame 1 and used for stably supporting a sheep body; the transverse cutting mechanism 3 is used for transversely cutting sheep bodies; the vertical cutting mechanism 4 is used for vertical cutting operation of the sheep body, and the transverse cutting mechanism 3 is linked with the vertical cutting mechanism 4; and the dredging mechanism 5 is used for conducting the cut meat blocks out in batches, and the dredging mechanism 5 is linked with the transverse cutting mechanism 3.

As shown in fig. 1, 2, 3, 4, 5, and 6, the supporting mechanism 2 includes a bearing roller 21 and a pressing plate 22, one end of the bearing roller 21 is connected with a first rotating shaft 23, the first rotating shaft 23 is rotatably installed on the frame 1, the frame 1 is installed with a first motor 24, an output shaft of the first motor 24 is linked with the first rotating shaft 23 through a pulley set 25, the frame 1 is provided with a supporting pillar 26 for supporting the bearing roller 21, the bearing roller 21 is hollow, the upper side of the bearing roller 21 is slidably installed with a plurality of first top members 27, the first top members 27 are provided with first springs 28 for providing acting force, both sides inside the bearing roller 21 are rotatably installed with a plurality of rotating members 29, a rotating joint between the rotating members 29 and the bearing roller 21 is provided with a first torsion spring 210, the rotating members 29 are connected with a sleeve 211, a second top member 212 is coaxially connected inside the sleeve 211 and slidably connected with the second top member 212, a second spring 213 for providing acting force for the second top member 212 is arranged inside the sleeve 211, bearing roller 21 both sides all are seted up and are provided with the activity groove 214 that provides the activity space for second ejector 212, bearing roller 21 is inside to be provided with cylinder 215, cylinder 215 output coaxial coupling has pull rod 216, be provided with on the pull rod 216 and be used for promoting a plurality of sloping blocks 217 of first ejector 27 gliding, be provided with on the pull rod 216 and be used for promoting a plurality of push pedal 218 of rotating 29 rotation, clamp plate 22 realizes the linkage through link mechanism 6 with bearing roller 21, clamp plate 22 one end is connected with support piece 219, support piece 219 rotates and installs in frame 1, slidable mounting has a plurality of third ejectors 220 on clamp plate 22, be provided with the third spring 221 who provides the effort for it on the third ejector 220.

As shown in fig. 1, 2 and 3, the link mechanism 6 includes a linkage 61 and a sliding member 62, one end of the linkage 61 is hinged to the support 219, the other end of the linkage 61 is hinged to the sliding member 62, the sliding member 62 is slidably mounted on the frame 1, the sliding member 62 is provided with a fourth spring 63 for resetting, and one end of the first rotating shaft 23 is provided with a push rod member 64 for pushing the sliding member 62 to move.

As shown in fig. 1, 7, 8 and 9, the transverse cutting mechanism 3 includes a moving frame 31 and a supporting seat 32, the moving frame 31 is slidably mounted on the frame 1, a first lead screw 33 is disposed on the moving frame 31 in a penetrating manner and is in threaded connection with the moving frame, the first lead screw 33 is rotatably mounted on the frame 1, a second motor 34 is mounted on the frame 1, an output shaft of the second motor 34 is coaxially connected with the first lead screw 33, the supporting seat 32 is slidably mounted on the moving frame 31, a second lead screw 35 is disposed on the supporting seat 32 in a penetrating manner and is in threaded connection with the supporting seat, the second lead screw 35 is rotatably mounted on the moving frame 31, a third motor 36 is mounted on the moving frame 31, and an output shaft of the third motor 36 is coaxially connected with the second lead screw 35; an arc-shaped guide rail 37 is hinged to the supporting seat 32, a ring gear 38 is arranged on one side of the arc-shaped guide rail 37, a connecting frame 39 is slidably mounted on the arc-shaped guide rail 37, a second rotating shaft 310 is rotatably mounted on the connecting frame 39, a fourth motor 311 is mounted on the connecting frame 39, an output shaft of the fourth motor 311 is coaxially connected with the second rotating shaft 310, a first gear 312 meshed with the ring gear 38 is coaxially connected with the second rotating shaft 310, a guide wheel 313 matched with the arc-shaped guide rail 37 is rotatably mounted on the connecting frame 39, and a first cutter 314 is mounted on the connecting frame 39.

As shown in fig. 1, 7 and 12, the vertical cutting mechanism 4 includes a supporting shaft 41 and a supporting frame 42, the supporting shaft 41 is rotatably mounted on the frame 1, a second gear 43 is sleeved on the supporting shaft 41, a first rack 44 matched with the second gear 43 is disposed on one side of the moving frame 31, a second torsion spring 45 is mounted at a joint of the supporting shaft 41 and the frame 1, the supporting frame 42 is disposed at an upper end of the supporting shaft 41, a supporting arm 46 is slidably mounted on the supporting frame 42, and a second cutter 47 is mounted on the supporting arm 46, the second cutter 47 in this embodiment is a conventional rotary cutter, or other cutters such as a saw cutter, and can rapidly cut the sheep body, the second cutter 47 has a driving source to realize the operation of the cutter, a third screw 48 is disposed on the supporting arm 46 in a penetrating manner and in threaded connection with the supporting arm, the third screw 48 is rotatably mounted on the supporting frame 42, a fifth motor 49 is mounted on the supporting frame 42, an output shaft of the fifth motor 49 is coaxially connected with the third screw rod 48.

As shown in fig. 1, 7, 8, 10, and 11, the dredging mechanism 5 includes two symmetrically disposed guiding plates 51, a plurality of partition plates 52 are disposed on the guiding plates 51, guide wheels 53 are rotatably mounted on both sides of the guiding plates 51, two adjacent guide wheels 53 are attached to each other, sliders 54 are slidably mounted on both sides of the guiding plates 51, fifth springs 55 for providing an acting force are disposed on the sliders 54, third rotating shafts 56 are connected to the sliders 54, the third rotating shafts 56 are rotatably mounted on the rack 1, one of the third rotating shafts 56 on each guiding plate 51 is coaxially connected with a third gear 57, second racks 58 are disposed on both sides of the moving frame 31, the two second racks 58 are respectively engaged with the two third gears 57, and the two second gears 43 move synchronously and drive the two third gears 57 to rotate in opposite directions.

As shown in fig. 6, the first top member 27 is provided with a knife groove 7 matched with the second knife 47.

As shown in fig. 1 and 8, the rack 1 is provided with a plurality of belts 8 which are engaged with each other on the lower side of the guide-out plate 51, and the pitch of the plurality of belts is set to be engaged with the pitch of the plurality of partition plates 52.

The vertical direction indicated by the vertical cutting mechanism 4 of the invention is cutting along the extending direction of the spine of the corpus caprae seu ovis, and the horizontal direction indicated by the horizontal cutting mechanism 3 is cutting perpendicular to the spine direction.

The working principle of the invention is as follows.

The method comprises the following steps: a plurality of cutting devices can be arranged at different positions in a workshop, and the cutting devices and an automatic conveying line in the workshop are matched to realize integrated cutting operation, the conveying line conveys frozen sheep bodies with internal organs removed through cutting to the position above a supporting mechanism 2, a first motor 24 is operated to drive a belt pulley set 25 to operate, the belt pulley set 25 drives a first rotating shaft 23 to rotate, a bearing roller 21 is enabled to rotate to be in a vertical state, the first rotating shaft 23 drives a push rod piece 64 to rotate while rotating, the push rod piece 64 acts on a sliding piece 62, the sliding piece 62 slides on a rack 1, at the moment, a fourth spring 63 is in a compression state, the sliding piece 62 acts on a supporting piece 219 through a linkage rod 61 while sliding, the supporting piece 219 receives acting force and then rotates to drive a pressing plate 22 to rotate, the rotating pressing plate 22 extrudes and supports the sheep bodies, the sheep bodies are conveniently transferred onto the bearing roller 21, at the moment, a third spring 221 is compressed, a third ejecting piece 220 abuts against the back of the sheep bodies, the bearing roller 21 penetrates through the belly cut open by the sheep body to be supported, the operating cylinder 215 drives the pull rod 216 to move, the pull rod 216 drives the inclined block 217 and the push plate 218 to move, the inclined block 217 acts on the first ejecting piece 27, the first ejecting piece 27 moves outwards from the bearing roller 21 and supports the inner cavity of the sheep body, at the moment, the first spring 28 is in a compression state, the push plate 218 acts on the rotating piece 29, the rotating piece 29 rotates to drive the sleeve 211 and the second ejecting piece 212 to rotate, the first torsion spring 210 is in a compression state, the second ejecting piece 212 extends out of the movable groove 214 and supports the inner cavity of the sheep body, the first ejecting piece 27 and the second ejecting piece 212 form stable triangular support for the sheep body, the first motor 24 runs in the reverse direction, and the bearing roller 21 is placed on the support column 26 in a rotating mode.

Step two: the transverse cutting operation is carried out, the second motor 34 is operated to drive the first screw rod 33 to rotate, the first screw rod 33 rotates to enable the moving frame 31 to move close to the supporting mechanism 2, the moving frame 31 slides and simultaneously drives the two second racks 58 to move, the two racks respectively drive the two third gears 57 to rotate, the rotating directions of the two third gears 57 are opposite, the two third gears 57 rotate with a third rotating shaft 56 connected with the two third gears 57, the third rotating shaft 56 drives a sliding block 54 connected with the third rotating shaft to rotate, the sliding block 54 drives a guide plate 51 to rotate while rotating, so that the two guide plates 51 gradually move to a horizontal state, at the moment, guide wheels 53 on the two sides abut and rotate, the sliding block 54 slides on the guide plate 51, the fifth spring 55 is in a compressed state, the guide plate 51 moves to the horizontal state to carry out abdication for the work of the transverse cutting mechanism 3, when the supporting seat 32 moves to the lower side position of the sheep body along with the moving frame 31, rotatory arc guide rail 37 is connected with supporting seat 32, arc guide rail 37 surrounds sheep body week side, operation fourth motor 311 drives second pivot 310 and rotates, second pivot 310 drives first gear 312 and rotates, because the effect of ring tooth 38, link 39 moves on arc guide rail 37, leading wheel 313 provides direction and supporting role for link 39's motion, first cutter 314 is arc motion along with link 39, the first cutter 314 of operation carries out transverse cutting to the sheep body, the third motor 36 of intermittent operation drives second lead screw 35 and rotates, make supporting seat 32 move one section distance on removing frame 31, realize the crosscut operation of a plurality of positions.

Step three: after the transverse cutting operation is completed, the second motor 34 is operated in a reverse direction to drive the first screw rod 33 to rotate, so that the movable frame 31 is far away from the supporting mechanism 2, at the moment, due to the action of the two second gears 58, the two third gears 57 are driven to rotate, the two leading-out plates 51 are further driven to move to an inclined state, then the two second gears 58 are separated from the two third gears 57, the leading-out plates 51 do not move any more, the movable frame 31 continues to be far away from the supporting mechanism 2 to move, the first rack 44 is driven to be meshed with the second gear 43, the second gear 43 is driven to rotate, the supporting shaft 41 is further driven to rotate, after the supporting frame 42 rotates to the position right above the sheep body, the fifth motor 49 and the second cutter 47 are operated to realize vertical cutting operation, after the vertical cutting is completed, the divided sheep body meat blocks are led out from the leading-out plates 51 and slide to each conveyor belt 8 to be transported in batches.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (7)

1. The utility model provides a sheep is slaughtered processing and is used splitter equipment which characterized in that: comprises a frame (1), wherein a supporting mechanism (2) is arranged on the frame (1) and is used for stably supporting a sheep body; the transverse cutting mechanism (3) is used for transversely cutting sheep bodies; the vertical cutting mechanism (4) is used for vertically cutting the sheep body, and the transverse cutting mechanism (3) is linked with the vertical cutting mechanism (4); the dredging mechanism (5) is used for conducting the cut meat blocks out in batches, and the dredging mechanism (5) is linked with the transverse cutting mechanism (3);

the supporting mechanism (2) comprises a bearing roller (21) and a pressing plate (22), one end of the bearing roller (21) is connected with a first rotating shaft (23), the first rotating shaft (23) is rotatably installed on a rack (1), a first motor (24) is installed on the rack (1), an output shaft of the first motor (24) is linked with the first rotating shaft (23) through a belt pulley set (25), a supporting column (26) used for supporting the bearing roller (21) is arranged on the rack (1), the bearing roller (21) is arranged in a hollow mode, a plurality of first ejection pieces (27) are slidably installed on the upper side of the bearing roller (21), a first spring (28) providing acting force for the first ejection pieces (27) is arranged on each first ejection piece (27), a plurality of rotating pieces (29) are rotatably installed on two inner sides of the bearing roller (21), a first torsion spring (210) is arranged at the rotating connection position of each rotating piece (29) and the bearing roller (21), and a sleeve (211) is connected onto each rotating piece (29), a second ejecting part (212) is coaxially connected in the sleeve (211) and is in sliding connection with the second ejecting part, a second spring (213) which provides acting force for the second ejecting part (212) is arranged in the sleeve (211), a movable groove (214) which provides a movable space for the second ejecting part (212) is formed in each of two sides of the bearing roller (21), an air cylinder (215) is arranged in each bearing roller (21), a pull rod (216) is coaxially connected with an output end of the air cylinder (215), a plurality of inclined blocks (217) which are used for pushing the first ejecting part (27) to slide are arranged on each pull rod (216), a plurality of push plates (218) which are used for pushing the rotating part (29) to rotate are arranged on each pull rod (216), the pressing plate (22) and the bearing roller (21) are linked through a connecting rod mechanism (6), a supporting part (219) is connected at one end of the pressing plate (22), the supporting part (219) is rotatably arranged on the rack (1), a plurality of third ejecting parts (220) are arranged on the pressing plate (22) in a sliding manner, a third spring (221) for providing acting force for the third top piece (220) is arranged on the third top piece.

2. Splitting device for sheep slaughtering processing according to claim 1, characterized in that: the linkage mechanism (6) comprises a linkage rod (61) and a sliding piece (62), one end of the linkage rod (61) is hinged to the supporting piece (219), the other end of the linkage rod (61) is hinged to the sliding piece (62), the sliding piece (62) is installed on the rack (1) in a sliding mode, a fourth spring (63) used for resetting the sliding piece (62) is arranged on the sliding piece (62), and a push rod piece (64) used for pushing the sliding piece (62) to move is arranged at one end of the first rotating shaft (23).

3. Splitting device for sheep slaughtering processing according to claim 1, characterized in that: the transverse cutting mechanism (3) comprises a moving frame (31) and a supporting seat (32), the moving frame (31) is slidably mounted on a rack (1), a first screw rod (33) penetrates through the moving frame (31) and is in threaded connection with the first screw rod (33), the first screw rod (33) is rotatably mounted on the rack (1), a second motor (34) is mounted on the rack (1), an output shaft of the second motor (34) is coaxially connected with the first screw rod (33), the supporting seat (32) is slidably mounted on the moving frame (31), a second screw rod (35) penetrates through the supporting seat (32) and is in threaded connection with the second screw rod (35), the second screw rod (35) is rotatably mounted on the moving frame (31), a third motor (36) is mounted on the moving frame (31), and an output shaft of the third motor (36) is coaxially connected with the second screw rod (35);

articulated on supporting seat (32) have arc guide rail (37), arc guide rail (37) one side is provided with latch (38), slidable mounting has link (39) on arc guide rail (37), it installs second pivot (310) to rotate on link (39), install fourth motor (311) on link (39), fourth motor (311) output shaft and second pivot (310) coaxial coupling, second pivot (310) coaxial coupling have with latch (38) meshed first gear (312), rotate on link (39) and install and arc guide rail (37) matched with leading wheel (313), install first cutter (314) on link (39).

4. Splitting device for sheep slaughtering processing according to claim 3, characterized in that: vertical cutting mechanism (4) are including back shaft (41) and support frame (42), back shaft (41) rotate to be installed in frame (1), the cover is equipped with second gear (43) on back shaft (41), it is provided with first rack (44) with second gear (43) matched with to remove frame (31) one side, second torsional spring (45) are installed to the junction of back shaft (41) and frame (1), support frame (42) set up in back shaft (41) upper end, slidable mounting has support arm (46) on support frame (42), install second cutter (47) on support arm (46), it is provided with third lead screw (48) and both threaded connection to run through on support arm (46), third lead screw (48) rotate and install on support frame (42), install fifth motor (49) on support frame (42), fifth motor (49) output shaft and third lead screw (48) coaxial coupling.

5. Splitting device for sheep slaughtering processing according to claim 4, characterized in that: dredge mechanism (5) and include two symmetry settings's derivation board (51), be provided with a plurality of baffles (52) on derivation board (51), derivation board (51) both sides are all rotated and are installed guide pulley (53), two adjacent guide pulleys (53) are laminated each other, the equal slidable mounting in derivation board (51) both sides has slider (54), be provided with fifth spring (55) for it provides the effort on slider (54), be connected with third pivot (56) on slider (54), third pivot (56) rotate and install on frame (1), one of them third pivot (56) coaxial coupling on every derivation board (51) has third gear (57), it all is provided with second rack (58) to remove frame (31) both sides, two second rack (58) mesh with two third gear (57) respectively, two second gear (43) synchronous motion just drive two third gear (57) antiport.

6. Splitting device for sheep slaughtering processing according to claim 4, characterized in that: the first ejector (27) is provided with a cutter groove (7) matched with the second cutter (47).

7. Splitting device for sheep slaughtering processing according to claim 5, characterized in that: the lower side of the guide-out plate (51) of the frame (1) is provided with a plurality of matched conveyor belts (8).

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