CN115404286B - A a mink skin section of thick bamboo cutting device for mink skin production - Google Patents

Abstract

The invention belongs to the technical field of mink skin production, in particular to a mink skin cylinder dividing device for the mink skin production, which comprises a base, wherein a transmission mechanism is arranged on the surface of the base, the transmission mechanism comprises a conveying belt, a power supply seat, a power receiving column, pushing teeth and brackets, the brackets are fixed at four corners of the surface of the base, the conveying belt is arranged above the base, the four corners of the conveying belt are respectively connected between four groups of brackets through rotating shafts A, the power supply seat is arranged inside the conveying belt, and a dividing mechanism is arranged above the base.

Description

A a mink skin section of thick bamboo cutting device for mink skin production

Technical Field

The invention belongs to the technical field of mink skin production, and particularly relates to a mink skin barrel dividing device for mink skin production.

Background

The marten skin belongs to a thin fur and the fur clothing made of the marten skin is luxurious, the marten skin is made of ideal marten skin products, the marten skin is spliced and sewn, a marten skin cylinder is required to be cut in the production of the marten skin clothing, the conventional marten skin cylinder is usually cut manually in the cutting process, a worker needs to pick up the left ends of a plurality of marten skins firstly in the left hand, after the worker picks up the left ends of the plurality of marten skins in the left hand, the other worker needs to pull the right ends of the marten skin to one side, the two workers need to pull the left ends and the right ends of the marten skin to one side close to the other, so that the marten skin can be opened, after the marten skin is opened, the left hand of the worker needs to hold a cutter, then the right hand of the left worker pushes the cutter forward, the left hand of the worker can cut the marten skin, the left ends and the marten skin of the two workers can be loosened, and then the marten skin can automatically fall onto the ground, and if the marten skin needs to be cut the marten skin repeatedly; the existing mink skin cutting needs two workers to simultaneously pull the left end and the right end of the mink skin to the side close to the mink skin, the process of only stretching the mink skin is more complicated, meanwhile, the right hand of the left hand worker holds a cutter to scratch the hands of the workers easily, and the intermittent forward pushing of the right hand of the worker drives the cutter to cut the mink skin, so that the labor of the workers is required to be wasted, the operation is troublesome, the production efficiency is low, and the safety is poor.

To this end, we propose a mink skin cartridge splitting device for mink skin production to solve the above-mentioned problems.

Disclosure of Invention

To solve the problems set forth in the background art. The invention provides a mink skin cylinder cutting device for mink skin production, which is characterized in that a mink skin cylinder is sleeved on the surfaces of two groups of opening plates, so that the mink skin cylinder is automatically fixed and opened, the mink skin cylinder can be quickly cut, the cutting efficiency is high, meanwhile, an operator is far away from a cutting wheel during cutting, the safety is high, the transmission of the mink skin cylinder can be automatically realized, and the cutting efficiency is greatly improved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a mink skin section of thick bamboo cutting device for mink skin production, includes the base, the surface mounting of base has drive mechanism, drive mechanism includes conveyer belt, power supply seat, connects electric post, propulsion tooth and support, the surface four corners department of base all is fixed with the support, the conveyer belt sets up the top of base, and the four corners department of conveyer belt all rotates through axis of rotation A to be connected between four sets of supports, the internally mounted of conveyer belt has the power supply seat, the electric connection groove has been seted up to the inside of power supply seat, connect electric post with the power supply seat passes through electric connection groove sliding connection, the surface one side of conveyer belt is fixed with the round propulsion tooth, the top of base is provided with cutting mechanism;

the cutting mechanism comprises a spreading component, a cutting component and a pushing component, wherein the spreading component is arranged on the surface of the conveying belt, the cutting component is arranged on the surface of the base, and the pushing component is arranged above the conveying belt.

The invention discloses a mink skin barrel dividing device for mink skin production, which is preferable, the spreading assembly comprises a spreading motor, a fixing seat, spreading plates, a driving shaft A, a cam A, rollers and a supporting plate, wherein a machine body of the spreading motor is fixed on the inner wall surface of a conveying belt, an electric connection end of the spreading motor is fixed on one end of an electric connection post far away from a power supply seat, two groups of fixing seats are arranged above the conveying belt, one group of fixing seats close to the surface of the conveying belt are fixed on the surface of the conveying belt, spreading plates are symmetrically arranged on two sides of the fixing seats, one end of the spreading motor, which is far away from the driving shaft A, penetrates through the inner part of the conveying belt and extends to the upper part of the conveying belt, and is rotationally connected with the inner part of the fixing seat through the bearing A, two groups of rollers are symmetrically arranged on two sides of the cam A, two ends of each roller are rotationally connected with the supporting plate through a rotation shaft B, and one side of each supporting plate is fixed on the inner wall surface of the supporting plate.

As the mink skin barrel dividing device for mink skin production, preferably, one sides of the two groups of the expanding plates, which are close to the two groups of the fixing seats, are respectively fixed with a connecting block, one sides of the two groups of the connecting blocks, which are adjacent, are respectively fixed with two groups of sliding rods, the interiors of the two groups of the fixing seats are respectively provided with a yielding groove matched with the two groups of the sliding rods, and the sliding rods are in sliding connection with the fixing seats through the yielding grooves.

As the mink skin barrel dividing device for the production of the mink skin, the two groups of connecting plates A are preferably fixed on one side, adjacent to the two groups of fixing seats, of the two groups of connecting plates, the surfaces of the two groups of connecting plates are respectively fixed with a connecting plate B, and springs A are fixed between the connecting plates A and the connecting plates B.

As a preferable mink skin barrel dividing device for mink skin production, the roller is internally provided with a rolling groove, and the cam A and the roller are in sliding connection through the rolling groove.

The invention relates to a mink skin barrel cutting device for mink skin production, which is preferable, wherein the cutting assembly comprises a fixing plate, a driving motor, a driving shaft B, a cam B, a curved plate, a connecting rod, a cutting motor and a cutting wheel, wherein the fixing plate is fixed on the surface of a base, a machine body of the driving motor is fixed on one side of the fixing plate, which is close to a conveying belt, the driving shaft B is fixed at the output end of the driving motor, the cam B is fixed on the surface of the driving shaft B, the curved plate is arranged below the cam B, the cutting motor is arranged above the conveying belt, two sides of the connecting rod are fixed between the curved plate and the cutting motor, and the cutting wheel is fixed at the output end of the cutting motor.

As the mink skin barrel dividing device for the production of the mink skin, the invention is preferable, a support plate is arranged below the driving motor, the support plate is fixed on one side of the fixing plate, which is close to the driving motor, two sides of one end of the curved plate, which is far away from the connecting rod, are respectively connected with a support through a rotating shaft C in a rotating way, two groups of supports are respectively fixed on the surface of the support plate, a spring B is arranged below one side of the curved plate, which is close to the connecting rod, and two ends of the spring B are fixed between the curved plate and the support plate.

As the optimized mink skin barrel cutting device for the mink skin production, the pushing assembly comprises a rotary table, an eccentric shaft, connecting seats, connecting rods, pushing frames and pushing rods, wherein the rotary table is arranged on one side, away from a driving motor, of the cam B, the rotary table is fixed on the surface of the driving shaft B, the eccentric shaft is fixed on one side, away from the cam B, of the rotary table, the connecting seats are sleeved on the surface of the eccentric shaft, the pushing rods are arranged on the surface of the curved plate, the pushing frames are fixed at two ends of each pushing rod, and two groups of connecting rods are hinged between the connecting seats and the pushing frames through hinging seats.

As the mink skin barrel dividing device for the production of the mink skin, the invention is preferable, a rotating groove is formed in the connecting seat, a movable sleeve is fixed in the rotating groove, and the surface of the eccentric shaft is rotationally connected in the movable sleeve through a bearing B.

As a preferred mink skin barrel dividing device for mink skin production, a pushing groove is arranged between each pushing tooth, and the pushing rod and the pushing teeth are connected in a sliding manner through the pushing grooves.

Compared with the prior art, the invention has the beneficial effects that:

Through the drive mechanism and the segmentation mechanism that set up, realize propping up mink skin section of thick bamboo cover on the surface of two sets of board that struts, be convenient for prop up the automatic fixation of mink skin section of thick bamboo, can be fast to the cutting of mink skin section of thick bamboo, cutting efficiency is high, and operating personnel keeps away from the cutting wheel when cutting simultaneously, has higher security, can be automatic to the conveying of mink skin section of thick bamboo, has improved segmentation efficiency greatly.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

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

FIG. 2 is a partial cross-sectional view of a conveyor belt of the present invention;

FIG. 3 is a schematic view of a dividing mechanism according to the present invention;

FIG. 4 is a partial cross-sectional view of a mounting bracket of the present invention;

FIG. 5 is a schematic view of a cutting assembly according to the present invention;

FIG. 6 is a schematic view of the propulsion assembly of the present invention;

Fig. 7 is a cross-sectional view of the connection base of the present invention.

In the figure:

1. A base;

2. a transmission mechanism; 21. a conveyor belt; 22. a power supply base; 23. a power receiving groove; 24. a power connection column; 25. a propulsion tooth; 26. a bracket;

3. a dividing mechanism;

31. A spreader assembly; 311. a motor is propped open; 312. a fixing seat; 3121. a connecting plate A; 3122. a spring A; 3123. a connecting plate B; 313. an opening plate; 3131. a connecting block; 3132. a slide bar; 3133. a relief groove; 314. a drive shaft A; 315. a cam A; 316. a roller; 3161. rolling grooves; 317. a support plate;

32. A cutting assembly; 321. a fixing plate; 322. a driving motor; 323. a drive shaft B; 324. a cam B; 325. a curved plate; 3251. a spring B; 3252. a support; 3253. a support plate; 326. a connecting rod; 327. a cutting motor; 328. a cutting wheel;

33. A propulsion assembly; 331. a turntable; 332. an eccentric shaft; 333. a connecting seat; 3331. a movable sleeve; 334. a connecting rod; 335. a propulsion rack; 336. a pushing rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1:

The utility model provides a mink skin section of thick bamboo cutting device for mink skin production, including base 1, the surface mounting of base 1 has drive mechanism 2, drive mechanism 2 includes conveyer belt 21, power supply seat 22, connect electric post 24, advance tooth 25 and support 26, the surface four corners department of base 1 all is fixed with support 26, conveyer belt 21 sets up in the top of base 1, and the four corners department of conveyer belt 21 all rotates through axis of rotation A and connects between four sets of supports 26, the internally mounted of conveyer belt 21 has power supply seat 22, connect electric slot 23 has been seted up to the inside of power supply seat 22, connect electric post 24 and power supply seat 22 through connect electric slot 23 sliding connection, the surface one side of conveyer belt 21 is fixed with round advance tooth 25, the top of base 1 is provided with division mechanism 3;

The dividing mechanism 3 comprises a spreading component 31, a cutting component 32 and a pushing component 33, wherein the spreading component 31 is arranged on the surface of the conveying belt 21, the cutting component 32 is arranged on the surface of the base 1, and the pushing component 33 is arranged above the conveying belt 21.

As shown in fig. 1-7:

Further, the method comprises the following steps:

In combination with the above, the expanding assembly 31 comprises the expanding motor 311, the fixing base 312, the expanding plate 313, the driving shaft a314, the cam a315, the roller 316 and the supporting plate 317, the body of the expanding motor 311 is fixed on the inner wall surface of the conveying belt 21, the power receiving end of the expanding motor 311 is fixed on one end of the power receiving post 24 far away from the power supply seat 22, two groups of fixing bases 312 are arranged above the conveying belt 21, one group of fixing bases 312 close to the surface of the conveying belt 21 is fixed on the surface of the conveying belt 21, the expanding plate 313 is symmetrically arranged on two sides of the fixing bases 312, the driving shaft a314 is fixed on the output end of the expanding motor 311, one end of the driving shaft a314 far away from the expanding motor 311 penetrates through the inner part of the conveying belt 21 and extends to the upper side of the conveying belt 21, and is rotationally connected inside the fixing base 312 through the bearing a, the cam a315 is fixed on the surface of the driving shaft a314, two groups of rollers 316 are symmetrically arranged on two ends of the roller a315 are rotationally connected with the supporting plate 317 through the rotating shaft B, and one side of the supporting plate 317 is fixed on the inner wall surface of the expanding plate 313.

In this embodiment: when the mink skin tube needs to be segmented, the mink skin tube is sleeved on the surfaces of the two expanding plates 313, then the expanding motor 311 is started, the driving shaft A314 can be driven to rotate between the two fixing seats 312 along with the rotation of the expanding motor 311, then the cam A315 is driven to rotate, the idler wheels 316 on two sides of the cam A315 are driven to rotate in the supporting plate 317, the two groups of expanding plates 313 are pushed to move to two sides, the mink skin tube is sleeved on the surfaces of the two groups of expanding plates 313, and the automatic fixing and expanding of the mink skin tube are facilitated.

It should be noted that: based on the shape of the cam a315, when the two sets of rollers 316 contact the surfaces of the protruding ends of the cam a315, the two sets of spreader plates 313 are pushed to move to both sides.

Still further, the method comprises:

in combination with the above, the two sets of expansion plates 313 are fixed with the connecting blocks 3131 on the sides close to the two sets of fixing bases 312, the two sets of sliding bars 3132 are fixed on the sides adjacent to the two sets of connecting blocks 3131, the yielding grooves 3133 matched with the two sets of sliding bars 3132 are formed in the two sets of fixing bases 312, the sliding bars 3132 and the fixing bases 312 are in sliding connection through the yielding grooves 3133, two sets of connecting plates A3121 are fixed on the sides adjacent to the two sets of fixing bases 312, the connecting plates B3123 are fixed on the surfaces of the two sets of connecting blocks 3131, the springs A3122 are fixed between the connecting plates A3121 and the connecting plates B3123, the rolling grooves 3161 are formed in the roller 316, and the cams A315 and the rollers 316 are in sliding connection through the rolling grooves 3161.

In this embodiment: along with the movement of the two groups of expansion plates 313, the connecting block 3131 and the connecting plate B3123 can be driven to synchronously move, then the spring A3122 is pulled to deform and generate elasticity, and the sliding rod 3132 is pulled to slide in the yielding groove 3133, so that the movement of the two groups of expansion plates 313 can be limited, and the stable expansion and retraction movement of the two groups of expansion plates 313 can be realized.

It should be noted that: by the resilience force of the plurality of groups of springs A3122, along with the rotation of the cam A315, the two groups of rollers 316 can be guaranteed to be clung to the surface of the cam A315, and the roller grooves 3161 can guide the two groups of rollers 316 in the sliding process of the two groups of rollers 316 on the surface of the cam A315, so that the two groups of rollers 316 can be better clung to the surface of the cam A315.

Still further, the method comprises:

In combination with the above, the cutting assembly 32 includes the fixing plate 321, the driving motor 322, the driving shaft B323, the cam B324, the curved plate 325, the connecting rod 326, the cutting motor 327 and the cutting wheel 328, the fixing plate 321 is fixed on the surface of the base 1, the body of the driving motor 322 is fixed on one side of the fixing plate 321 near the conveyor belt 21, the driving shaft B323 is fixed at the output end of the driving motor 322, the cam B324 is fixed on the surface of the driving shaft B323, the curved plate 325 is arranged below the cam B324, the cutting motor 327 is arranged above the conveyor belt 21, two sides of the connecting rod 326 are fixed between the curved plate 325 and the cutting motor 327, and the cutting wheel 328 is fixed at the output end of the cutting motor 327.

In this embodiment: when needs cut apart a mink skin section of thick bamboo, start driving motor 322, along with driving motor 322's rotation, can drive shaft B323 and rotate, then drive cam B324 and rotate, and then drive bent board 325 and remove, then drive connecting rod 326 and remove, then drive cutting motor 327 and cutting wheel 328 and move down, during this period, through starting cutting motor 327, then drive cutting wheel 328 and rotate, and then drive pivoted cutting wheel 328 and move down, realize cutting a mink skin section of thick bamboo of cover at the strut 313 surface, can be fast to the cutting of a mink skin section of thick bamboo, cutting efficiency is high, operating personnel keep away from cutting wheel 328 when cutting simultaneously, higher security has.

It should be noted that: based on the shape of the cam B324, when the protruding portion of the cam B324 contacts the surface of the curved plate 325 to prop up the assembly 31, the curved plate 325 can be pushed to move downward, and then the curved plate 325 is intermittently driven to move.

Still further, the method comprises:

In combination with the above, the support plate 3253 is disposed below the driving motor 322, the support plate 3253 is fixed on one side of the fixing plate 321 close to the driving motor 322, two sides of one end of the curved plate 325 far away from the connecting rod 326 are rotatably connected with the support base 3252 through the rotation shaft C, the two groups of support bases 3252 are fixed on the surface of the support plate 3253, the spring B3251 is disposed below one side of the curved plate 325 close to the connecting rod 326, and two ends of the spring B3251 are fixed between the curved plate 325 and the support plate 3253.

In this embodiment: along with the rotation of the cam B324, the curved plate 325 can be extruded to move, the curved plate 325 can be made to move by taking the support 3252 as the center of a circle and taking the length of the curved plate 325 as the radius of a circle through the support of the support 3252, the spring B3251 can be extruded to deform and generate elastic force in the downward movement process of the curved plate 325, and along with the rotation of the cam B324, the curved plate 325 can be driven to recover to the original position through the restoring elastic force of the spring B3251, and then the curved plate 325 is intermittently driven to move downward.

It should be noted that: when the curved plate 325 moves down to drive the cutting wheel 328 to cut the mink skin cylinders, the mink skin cylinders fixed on the surfaces of the two groups of the expanding plates 313 are just positioned at one side of the cutting wheel 328.

Still further, the method comprises:

In combination with the above, the propulsion assembly 33 includes a turntable 331, an eccentric shaft 332, a connection base 333, a connecting rod 334, a propulsion frame 335 and a propulsion rod 336, one side of the cam B324 away from the driving motor 322 is provided with the turntable 331, the turntable 331 is fixed on the surface of the driving shaft B323, one side of the turntable 331 away from the cam B324 is fixed with the eccentric shaft 332, the surface of the eccentric shaft 332 is sleeved with the connection base 333, the surface of the curved plate 325 is provided with the propulsion rod 336, two ends of the propulsion rod 336 are fixed with the propulsion frame 335, two groups of connecting rods 334 are hinged between the connection base 333 and the propulsion frame 335 through the hinge base, a rotating groove is formed in the connection base 333, a movable sleeve 3331 is fixed in the rotating groove, the surface of the eccentric shaft 332 is rotationally connected in the movable sleeve 3331 through a bearing B, propulsion grooves are formed between each propulsion tooth 25, and the propulsion rod 336 and the propulsion teeth 25 are slidingly connected through the propulsion grooves.

In this embodiment: along with the rotation of the driving shaft B323, the turntable 331 can be driven to rotate, the eccentric shaft 332 is driven to do eccentric motion, the connecting seat 333 is driven to move, the pushing frame 335 can be driven to move through the connecting rod 334 by the movement of the connecting seat 333, the pushing rod 336 is driven to move, the pushing rod 336 can be driven to reciprocate on the surface of the pushing teeth 25 by the movement of the eccentric shaft 332, the pushing teeth 25 are intermittently pushed to move, the intermittent pushing conveyor belt 21 is driven to rotate among four groups of brackets 26, the transfer of mink skin barrels can be automatically carried out, and the segmentation efficiency is greatly improved.

It should be noted that: through the setting of movable sleeve 3331, can make connecting seat 333 can rotate on the surface of eccentric shaft 332, realize can be at eccentric shaft 332 pivoted in-process, synchronous drive connecting seat 333 carries out eccentric motion to drive the propelling rod 336 and carry out reciprocating motion.

Working principle, when using: when the mink skin cylinder needs to be segmented, the mink skin cylinder is sleeved on the surfaces of the two expanding plates 313, then the expanding motor 311 is started, along with the rotation of the expanding motor 311, the driving shaft A314 can be driven to rotate between the two fixing seats 312, then the cam A315 is driven to rotate, further the rollers 316 at the two sides of the cam A315 are driven to rotate in the supporting plate 317, the two groups of expanding plates 313 are pushed to move to the two sides, the mink skin cylinder is sleeved on the surfaces of the two groups of expanding plates 313, the automatic fixation and the expanding of the mink skin cylinder are facilitated, along with the movement of the two groups of expanding plates 313, the connecting block 3131 and the connecting plate B3123 can be driven to synchronously move, then the spring A3122 is pulled to deform and generate elasticity, the sliding rod 3132 is pulled to slide in the yielding groove 3133, the movement of the two groups of the expanding plates 313 can be limited, the stable expanding and retracting movement of the two groups of expanding plates 313 is realized, by the resilience force of the plurality of groups of springs A3122, along with the rotation of the cam A315, two groups of rollers 316 can be guaranteed to be clung to the surface of the cam A315, and can be guided in the sliding process of the two groups of rollers 316 on the surface of the cam A315 by the arrangement of the rolling groove 3161, so that the two groups of rollers 316 better cling to the surface of the cam A315, then the driving motor 322 is started, along with the rotation of the driving motor 322, the driving shaft B323 can be driven to rotate, then the cam B324 is driven to rotate, then the curved plate 325 is driven to move, then the connecting rod 326 is driven to move, then the cutting motor 327 and the cutting wheel 328 are driven to move downwards, during the period, the cutting motor 327 is started, then the cutting wheel 328 is driven to move downwards, the marten skin cylinder sleeved on the surface of the plate 313 is cut, along with the rotation of the cam B324, the bending plate 325 can be extruded to move, the bending plate 325 can be made to move by taking the supporting seat 3252 as the center of a circle through the support of the supporting seat 3252, the length of the bending plate 325 is made to move by taking the length of the bending plate as the radius of the supporting seat 3252 as the center of a circle, the bending plate 325 can be extruded to deform and generate elastic force in the downward moving process of the bending plate 325, the bending plate 325 can be driven to restore to the original position along with the rotation of the cam B324 through the restoring elastic force of the spring B3251, the bending plate 325 is driven to move downward intermittently, the turntable 331 can be driven to rotate through the rotation of the driving shaft B323, then the eccentric shaft 332 is driven to move, the connecting seat 333 is driven to move, the pushing frame 335 can be driven to move through the connecting rod 334, then the pushing rod 336 is driven to move, the pushing rod 336 can be driven to reciprocate on the surface of the pushing teeth 25 through the movement of the eccentric shaft 332, the intermittent pushing conveyor belt 21 can be driven to rotate among four groups of brackets 26, the conveying of mink barrels can be automatically carried out, and the segmentation efficiency is greatly improved.

Finally, it should be noted that: the above is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that the present invention is described in detail with reference to the foregoing embodiments, and modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. A mink skin section of thick bamboo cutting device for mink skin production, includes base (1), its characterized in that: the surface mounting of base (1) has drive mechanism (2), drive mechanism (2) include conveyer belt (21), power supply seat (22), connect electric post (24), advance tooth (25) and support (26), the surface four corners department of base (1) all is fixed with support (26), conveyer belt (21) set up the top of base (1), just four corners department of conveyer belt (21) all rotates through axis of rotation A and connects between four groups support (26), the internally mounted of conveyer belt (21) has power supply seat (22), connect electric groove (23) have been seted up to the inside of power supply seat (22), connect electric post (24) with power supply seat (22) are through connect electric groove (23) sliding connection, the surface one side of conveyer belt (21) is fixed with round advance tooth (25), the top of base (1) is provided with segmentation mechanism (3);

The cutting mechanism (3) comprises a spreading component (31), a cutting component (32) and a pushing component (33), wherein the spreading component (31) is arranged on the surface of the conveying belt (21), the cutting component (32) is arranged on the surface of the base (1), and the pushing component (33) is arranged above the conveying belt (21);

The expanding assembly (31) comprises an expanding motor (311), a fixing seat (312), an expanding plate (313), a driving shaft A (314), a cam A (315), a roller (316) and a supporting plate (317), the body of the expanding motor (311) is fixed on the inner wall surface of the conveying belt (21), the power receiving end of the expanding motor (311) is fixed on one end of the power receiving column (24) away from the power supply seat (22), two groups of fixing seats (312) are arranged above the conveying belt (21), one group of fixing seats (312) close to the surface of the conveying belt (21) is fixed on the surface of the conveying belt (21), the two sides of the fixing seats (312) are symmetrically provided with expanding plates (313), the output end of the expanding motor (311) is fixed with the driving shaft A (314), one end of the driving shaft A (314) is far away from the expanding motor (311) penetrates through the inside of the conveying belt (21) and extends to the upper part of the fixing seat (21) and is rotationally connected with the inside of the conveying belt (21) through a bearing A, the two groups of rollers (312) are rotationally connected with the two groups of the driving shaft A (316) and the two sides of the cam A (315) are symmetrically connected with the two sides of the roller (315), one side of the supporting plate (317) is fixed on the inner wall surface of the opening plate (313);

The cutting assembly (32) comprises a fixed plate (321), a driving motor (322), a driving shaft B (323), a cam B (324), a curved plate (325), a connecting rod (326), a cutting motor (327) and a cutting wheel (328), wherein the fixed plate (321) is fixed on the surface of the base (1), a machine body of the driving motor (322) is fixed on one side, close to the conveying belt (21), of the fixed plate (321), the driving shaft B (323) is fixed at the output end of the driving motor (322), the cam B (324) is fixed on the surface of the driving shaft B (323), the curved plate (325) is arranged below the cam B (324), the cutting motor (327) is arranged above the conveying belt (21), two sides of the connecting rod (326) are fixed between the curved plate (325) and the cutting motor (327), and the cutting wheel (328) is fixed at the output end of the cutting motor (327);

The propelling component (33) comprises a turntable (331), an eccentric shaft (332), a connecting seat (333), a connecting rod (334), a propelling frame (335) and a propelling rod (336), wherein the turntable (331) is arranged on one side, far away from the driving motor (322), of the cam B (324), the turntable (331) is fixed on the surface of the driving shaft B (323), the eccentric shaft (332) is fixed on one side, far away from the cam B (324), of the turntable (331), the connecting seat (333) is sleeved on the surface of the eccentric shaft (332), the propelling rod (336) is arranged on the surface of the curved plate (325), the propelling frame (335) is fixed at two ends of the propelling rod (336), and two groups of connecting rods (334) are hinged between the connecting seat (333) and the propelling frame (335) through hinging seats.

One side, close to the two groups of fixed seats (312), of the two groups of opening plates (313) is fixedly provided with a connecting block (3131), one side, adjacent to the two groups of connecting blocks (3131), of the two groups of sliding bars (3132) is fixedly provided with a yielding groove (3133) matched with the two groups of sliding bars (3132) in the two groups of fixed seats (312), and the sliding bars (3132) are in sliding connection with the fixed seats (312) through the yielding groove (3133);

Two groups of connecting plates A (3121) are fixed on one side of the two groups of fixing seats (312) adjacent to each other, connecting plates B (3123) are fixed on the surfaces of the two groups of connecting blocks (3131), and springs A (3122) are fixed between the connecting plates A (3121) and the connecting plates B (3123);

The below of driving motor (322) is provided with extension board (3253), extension board (3253) are fixed board (321) is close to one side of driving motor (322), bent board (325) are kept away from one end both sides of connecting rod (326) are all connected with support (3252) through axis of rotation C rotation, and two sets of support (3252) are all fixed the surface of extension board (3253), bent board (325) are close to the below of connecting rod (326) one side is provided with spring B (3251), the both ends of spring B (3251) are fixed bent board (325) with between extension board (3253).

2. The mink skin cartridge splitting device for mink skin production of claim 1, wherein: the inside of gyro wheel (316) has offered rolling groove (3161), cam A (315) with gyro wheel (316) are through rolling groove (3161) sliding connection.

3. The mink skin cartridge splitting device for mink skin production of claim 1, wherein: the inside of connecting seat (333) has seted up the rotation groove, and is fixed with movable sleeve (3331) in the rotation groove, the surface of eccentric shaft (332) is rotated through bearing B and is connected in the inside of movable sleeve (3331).

4. A mink skin cartridge splitting apparatus for mink skin production as claimed in claim 3, wherein: and a pushing groove is formed between each pushing tooth (25), and the pushing rod (336) is connected with the pushing teeth (25) in a sliding manner through the pushing grooves.