CN113927650B - Automatic rotary cutter core assembly for cowhells machining and using method thereof - Google Patents

Abstract

The invention relates to the technical field of cowhells processing, in particular to an automatic rotary cutter core assembly for cowhells processing, which comprises two rectangular core boxes which are symmetrically arranged; two ends of the rectangular core box are respectively provided with a core disc and a belt wheel disc; one end of the feeding shaft is fixed on the first fixed seat, and the other end of the feeding shaft is arranged in the center of the machine core disc through a bearing; one end of the discharging shaft is arranged on the second fixed seat through a bearing, and the other end of the discharging shaft is fixed at the center of the belt pulley disc; be provided with hold-down mechanism between feeding axle and the ejection of compact axle, this hold-down mechanism includes: a left pinch roller having a pair; a pair of right pinch rollers; the feeding shaft is provided with a driving mechanism, the working end of the driving mechanism is in transmission connection with each left pinch roller and each right pinch roller respectively, the equipment realizes three actions of pressing, screwing and moving in the cowhells processing process, the processing is stable and efficient, the left pinch roller and the right pinch roller can be adjusted as required, and the practicability is improved.

Description

Automatic rotary cutter core assembly for cowhells machining and using method thereof

Technical Field

The invention relates to the technical field of cowhells processing, in particular to an automatic rotary cutter core assembly for cowhells processing and a using method thereof.

Background

Among cooked foods in south China, a beef tendon cooked food is in a long strip twisted shape, has strong flexibility and good chewing strength, and is very popular with the majority of users; among the current cowhells class food processing equipment, some can only cut the T-shirt, some can only cut long plain cowhells, and can't reach accurate control processing to the rotary-cut length and the distortion dynamics of cowhells, make the cowhells pliability that processes out inconsistent, the distortion degree is inconsistent, length is inconsistent, and is uneven, has reduced production quality and production efficiency, and the pinch roller of current peeler can't adjust, and the practicality is poor, consequently, we have provided an automatic peeler core subassembly is used in cowhells processing, so that solve above-mentioned problem that provides.

Disclosure of Invention

In order to solve the technical problem, an automatic rotary cutter core assembly for cowhells processing and a using method thereof are provided.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

an automatic rotary cutter core assembly for cowhells processing comprises two rectangular core boxes which are symmetrically arranged; two ends of the rectangular core box are respectively provided with a core disc and a belt wheel disc;

one end of the feeding shaft is fixed on the first fixed seat, and the other end of the feeding shaft is arranged in the center of the machine core disc through a bearing;

one end of the discharging shaft is arranged on the second fixed seat through a bearing, and the other end of the discharging shaft is fixed at the center of the belt pulley disc;

be provided with hold-down mechanism between feeding axle and the ejection of compact axle, this hold-down mechanism includes:

the left pinch roller is provided with a pair of pinch rollers and is arranged on one side in the rectangular mechanical box side by side;

the right pinch rollers are arranged in the rectangular case side by side and are away from the other side of each pinch roller, each right pinch roller is respectively arranged corresponding to each left pinch roller one by one, and an extrusion gap for the cowhells to pass through is arranged between each adjacent left pinch roller and each adjacent right pinch roller;

and the feeding shaft is provided with a driving mechanism, and the working end of the driving mechanism is in transmission connection with each left pinch roller and each right pinch roller respectively.

Preferably, one side that left pinch roller and right pinch roller kept away from each other all is equipped with the riser, the upper and lower extreme of riser all is equipped with the extension horizontal plate, left pinch roller and right pinch roller rotate with every extension horizontal plate through the pivot to be connected, every corner of one side that two risers kept away from each other all is equipped with the spacing polished rod that the level set up, be equipped with the spacing sleeve pipe that supplies every spacing polished rod to walk on the rectangle movement case, department all is equipped with the screw rod that the level set up in the middle of the one side that two risers kept away from each other, the one end of every screw rod all rotates with the riser that corresponds to be connected, be equipped with the thread bush that supplies every screw rod thread engagement on the rectangle movement case, the one end that riser was kept away from to every screw rod all passes the thread bush that corresponds and outwards extends.

Preferably, the outside one end of every screw rod all is equipped with lock nut, is equipped with the lock ring that can be connected with every lock nut cooperation on the rectangle location case, and the one end that the riser was kept away from to every screw rod all is equipped with the handle.

Preferably, the outer ring of each left pinch roller and each right pinch roller is provided with an annular groove, and the bottom surface of the annular groove is uniformly provided with arc-shaped protrusions.

Preferably, the drive mechanism comprises:

the first conical teeth are coaxially arranged outside the feeding shaft;

the second bevel teeth are symmetrically arranged on two sides of the first bevel teeth, and each second bevel tooth is meshed with the first bevel tooth;

the rotating rods are the same in number with the second conical teeth and correspond to the second conical teeth one to one, one end of each rotating rod is arranged at the center of the corresponding second conical teeth, and one end, far away from the second conical teeth, of each rotating rod can rotate to penetrate through two faces of the rectangular movement box to extend outwards.

Preferably, the extension end of each rotating rod is coaxially provided with a first rotating disc, the rotating shaft end parts of one left pressing wheel and one right pressing wheel which are adjacent to the first rotating disc in all the left pressing wheels and all the right pressing wheels are respectively provided with a second rotating disc, each second rotating disc is on the same horizontal plane with the upper surface of the adjacent first rotating disc, and a first avoidance penetrating opening for each first rotating disc to move is formed in the rectangular movement box.

Preferably, telescopic links are arranged between all adjacent left pinch rollers and right pinch rollers, toggle columns are symmetrically arranged at the top edges of the first rotary table and the second rotary table, one end of each telescopic link is hinged to the toggle column of the first rotary table, and the other end of each telescopic link is hinged to the toggle column of the second rotary table.

Preferably, synchronizing wheels are correspondingly arranged at one end, away from each second turntable, of each left pinch roller and each right pinch roller respectively, the two adjacent synchronizing wheels are connected through synchronous belt transmission, the center of each synchronizing wheel is coaxially connected with the rotating shaft of each corresponding left pinch roller and each corresponding right pinch roller through a guide shaft, and a second avoidance penetrating opening used for avoiding movement of each synchronizing wheel is formed in the rectangular movement case.

Preferably, the tail end of the discharge shaft, which is positioned in the rectangular movement box, is coaxially provided with a horn hopper, and the inner ring of the horn hopper is provided with a spiral line extending towards the direction of the discharge shaft.

A use method of a core assembly of an automatic rotary cutter for cowhells processing comprises the following steps:

step one, a motor drives a belt pulley disc through a belt, then drives a rectangular movement box and a movement disc to rotate, a feeding shaft is fixed on a first fixed seat, each second bevel gear rotates around the circumference of the first bevel gear, and simultaneously drives each rotating rod to rotate, so that the two rotating rods rotate reversely;

step two, each rotating rod drives the corresponding first rotating disc to rotate respectively, each first rotating disc drives one end of the corresponding telescopic rod to rotate around the corresponding first rotating disc respectively, one end, far away from each first rotating disc, of each telescopic rod drives the second rotating discs to rotate synchronously respectively, and the two rotating rods rotate reversely, so that the two second rotating discs rotate reversely, and each second rotating disc drives the corresponding left pinch roller and the corresponding right pinch roller to rotate respectively, so that the corresponding left pinch roller and the corresponding right pinch roller rotate reversely;

the two second turntables which rotate reversely drive the corresponding left pinch roller and the right pinch roller to rotate reversely, so that the cowhells entering the corresponding left pinch roller and the right pinch roller are stably dragged and compressed;

step three, when one of the left pinch rollers and one of the right pinch rollers rotate, the corresponding synchronous wheels and the synchronous belts are respectively used for transmission, so that the left pinch roller and the right pinch roller rotate, the cowhells enter between the left pinch roller and the right pinch roller, and the corresponding left pinch roller and the corresponding right pinch roller are meshed to rotate to push and compress the cowhells and send the cowhells into the discharging shaft;

the corresponding left pinch roller and the right pinch roller are driven to rotate through each synchronous wheel and each synchronous belt, and the cowhells are further processed through a plurality of rows of left pinch rollers and right pinch rollers;

fourthly, the beef tendon processed by the corresponding left pressing wheel and the right pressing wheel is fed into the horn hopper, the beef tendon guided by the spiral line arranged in the horn hopper can rapidly enter the discharging shaft, the beef tendon entering the discharging shaft is twisted, and when the beef tendon comes out of the discharging shaft, the beef tendon enters a subsequent cutting process;

the beef tendon can be rapidly guided into the discharging shaft through the spiral line arranged on the inner ring of the horn hopper;

step five, after the cowhells enter into the left pinch roller and the right pinch roller that correspond, evenly compress tightly the cowhells and impel through the arc bellying that sets up respectively on the left pinch roller that corresponds and the right pinch roller

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

1. according to the invention, the corresponding left pinch roller and the right pinch roller are respectively driven to rotate reversely by the two second rotating discs rotating reversely, so that the cowhells entering the corresponding left pinch roller and right pinch roller are stably dragged and compressed, and the stability and the processing speed are improved.

2. According to the invention, each synchronizing wheel and the synchronizing belt respectively drive the corresponding left pressing wheel and the corresponding right pressing wheel to rotate, and the cowhells are further processed through the rows of the left pressing wheels and the right pressing wheels, so that the processing uniformity is improved.

3. According to the invention, the beef tendon can be rapidly guided into the discharging shaft through the spiral line arranged on the inner ring of the horn hopper, so that the processing efficiency is improved.

4. According to the invention, the two vertical plates respectively provided with the left pinch roller and the right pinch roller are driven to move towards or away from each other through the matching of the screw and the nut, and are locked by each locking nut and the corresponding locking ring, so that the distance between the left pinch roller and the right pinch roller is convenient for workers, and the practicability is improved.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is an enlarged view of the invention at A in FIG. 1;

FIG. 3 is a perspective view of the present invention

FIG. 4 is a side view of the present invention;

FIG. 5 is a top view of the present invention;

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 5 of the present invention;

FIG. 7 is a partial perspective view of the first embodiment of the present invention;

FIG. 8 is a partial perspective view of the second embodiment of the present invention;

FIG. 9 is a partial perspective view of the present invention;

fig. 10 is a partial perspective view of the discharge shaft of the present invention.

The reference numbers in the figures are: 1-rectangular movement box; 2-a core plate; 3-a pulley disc; 4-a feeding shaft; 5-a first fixed seat; 6-discharging shaft; 7-a second fixed seat; 8-a left pinch roller; 9-right pinch roller; 10-a vertical plate; 11-an extended horizontal plate; 12-a limit polish rod; 13-a limit sleeve; 14-a screw; 15-thread bushing; 16-a lock nut; 17-a locking ring; 18-a handle; 19-an annular groove; 20-an arc-shaped convex part; 21-a first bevel gear; 22-second taper teeth; 23-a rotating rod; 24-a first carousel; 25-a second carousel; 26-a first avoidance crossing; 27-a telescopic rod; 28-toggle post; 29-a synchronizing wheel; 30-a synchronous belt; 31-a second avoidance crossing; 32-horn hopper; 33-helix.

Detailed Description

The following description is provided to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments described below are by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 10, an automatic rotary cutter deck assembly for cowhells processing includes:

a rectangular movement box 1; two ends of the rectangular core box 1 are respectively provided with an organic core disc 2 and a belt wheel disc 3;

one end of the feeding shaft 4 is fixed on the first fixed seat 5, and the other end of the feeding shaft is arranged in the center of the movement disc 2 through a bearing;

one end of the discharging shaft 6 is arranged on the second fixed seat 7 through a bearing, and the other end of the discharging shaft is fixed at the center of the belt pulley disc 3;

be provided with hold-down mechanism between feeding shaft 4 and the ejection of compact axle 6, this hold-down mechanism includes:

a pair of left pinch rollers 8 arranged side by side on one side of the inside of the rectangular mechanical box;

the right pinch rollers 9 are provided with a pair of right pinch rollers and are arranged in parallel at the other side of the inside of the rectangular case, which is far away from each pinch roller, each right pinch roller 9 is respectively arranged corresponding to each left pinch roller 8 one by one, and an extrusion gap for allowing a bracket to pass through is arranged between the adjacent left pinch rollers 8 and the right pinch rollers 9;

and a driving mechanism is arranged on the feeding shaft 4, and the working end of the driving mechanism is in transmission connection with each left pinch roller 8 and each right pinch roller 9 respectively.

Concretely, the motor passes through the belt and drives pulley disc 3, then it is rotatory to drive rectangle core case 1 and core disc 2, feeding shaft 4 is fixed on first fixing base 5, it is rotatory to drive every left pinch roller 8 and every right pinch roller 9 through the actuating mechanism on the feeding shaft 4, make corresponding left pinch roller 8 and right pinch roller 9 counter rotation, the material is sent into from feeding shaft 4, when getting into between corresponding left pinch roller 8 and the right pinch roller 9, it is rotatory to push in and compress tightly the cowhells with right pinch roller 9 meshing corresponding left pinch roller 8 and right pinch roller 9, and send into out in the material axle 6, the cowhells that get into in the discharging shaft 6 take place to twist reverse, when the cowhells come out from discharging shaft 6, get into the follow-up process of cutting off, actuating mechanism drives every left pinch roller 8 counter rotation of clock, actuating mechanism drives every right pinch roller 9 and rotates along the clock, then obtain corresponding left pinch roller 8 and right pinch roller 9 counter rotation.

One side that left pinch roller 8 and right pinch roller 9 kept away from each other all is equipped with riser 10, the last lower extreme of riser 10 all is equipped with extension horizontal plate 11, left side pinch roller 8 and right pinch roller 9 rotate with every extension horizontal plate 11 through the pivot to be connected, every corner of one side that two riser 10 kept away from each other all is equipped with spacing polished rod 12 that the level set up, be equipped with the stop collar 13 that supplies every spacing polished rod 12 to walk on the rectangle movement case 1, the department all is equipped with the screw rod 14 that the level set up in the middle of the one side that two riser 10 kept away from each other, the one end of every screw rod 14 all rotates with the riser 10 that corresponds to be connected, be equipped with the thread bush 15 that supplies 14 thread engagement of every screw rod on the rectangle movement case 1, the one end that riser 10 was kept away from to every screw rod 14 all passes corresponding thread bush 15 and outwards extends.

The outward one end of every screw rod 14 all is equipped with lock nut 16, is equipped with the lock ring 17 that can be connected with every lock nut 16 cooperation on the rectangle position case, and the one end that riser 10 was kept away from to every screw rod 14 all is equipped with handle 18.

Specifically, before operation, the distance between the corresponding left pinch roller 8 and the corresponding right pinch roller 9 can be adjusted in advance, when adjustment is performed, each handle 18 is manually rotated to drive the corresponding vertical plate 10 to translate, each vertical plate 10 drives each left pinch roller 8 and each right pinch roller 9 to translate, and after the corresponding left pinch roller 8 and the corresponding right pinch roller 9 are adjusted to the required positions, the locking nut is manually rotated to be matched with the locking ring 17 to be locked;

through the cooperation drive two risers 10 of taking left pinch roller 8 and right pinch roller 9 respectively of screw rod 14 and nut move in opposite directions or to the back to through every lock nut and the locking of corresponding retainer ring 17, the interval between the left pinch roller 8 of the staff of being convenient for and the right pinch roller 9 promotes the practicality.

The outer ring of each left pinch roller 8 and the outer ring of each right pinch roller 9 are provided with an annular groove 19, and arc-shaped protrusions 20 are uniformly arranged on the bottom surface of the annular groove 19.

Specifically, after the cowhells entered into corresponding left pinch roller 8 and right pinch roller 9, evenly compress tightly the cowhells and impel through the arc bellying 20 that sets up respectively on corresponding left pinch roller 8 and the right pinch roller 9.

The drive mechanism includes:

a first conical tooth 21 coaxially arranged outside the feeding shaft 4;

the second bevel teeth 22 are provided with a pair of second bevel teeth, symmetrically positioned on two sides of the first bevel teeth 21, and each second bevel tooth 22 is meshed with the first bevel tooth 21;

the number of the rotating rods 23 is the same as that of the second conical teeth 22, the rotating rods correspond to the second conical teeth 22 one by one, one end of each rotating rod 23 is arranged at the center of the corresponding second conical tooth 22, and one end, far away from the second conical teeth 22, of each rotating rod 23 can rotate and extends outwards to penetrate through two faces of the rectangular movement box 1.

Specifically, the motor passes through the belt and drives pulley disc 3, drives rectangle core case 1 then and core disc 2 is rotatory, and feed shaft 4 is fixed on first fixing base 5, and every second cone tooth 22 all rotates around first cone tooth 21 circumference, and every bull stick 23 of drive simultaneously is rotatory, makes two bull sticks 23 counter-rotations.

The extending end of each rotating rod 23 is coaxially provided with a first rotating disc 24, the rotating shaft end portions of one left pressing wheel 8 and one right pressing wheel 9 which are adjacent to the first rotating disc 24 in all the left pressing wheels 8 and all the right pressing wheels 9 are respectively provided with a second rotating disc 25, each second rotating disc 25 is on the same horizontal plane with the upper surface of the adjacent first rotating disc 24, and a first avoidance penetrating opening 26 for each first rotating disc 24 to move is arranged on the rectangular movement case 1.

All be equipped with telescopic link 27 between all adjacent left pinch roller 8 and the right pinch roller 9, the top edge symmetry of first carousel 24 and second carousel 25 is equipped with stirs post 28, and the one end of telescopic link 27 sets up with stirring post 28 of first carousel 24 is articulated, and the other one end of telescopic link 27 sets up with stirring post 28 of second carousel 25 is articulated.

Specifically, each rotating rod 23 drives the corresponding first rotating disk 24 to rotate, each first rotating disk 24 drives one end of the corresponding telescopic rod 27 to rotate around the first rotating disk 24, one end of each telescopic rod 27 far away from each first rotating disk 24 drives the second rotating disk 25 to rotate synchronously, due to the fact that the two rotating rods 23 rotate reversely, the two second rotating disks 25 rotate reversely, each second rotating disk 25 drives the corresponding left pressing wheel 8 and the corresponding right pressing wheel 9 to rotate, and the corresponding left pressing wheel 8 and the corresponding right pressing wheel 9 rotate reversely;

the two second turntables 25 which rotate reversely respectively drive the corresponding left pinch roller 8 and the right pinch roller 9 to rotate reversely, so that the cowhells entering the corresponding left pinch roller 8 and the right pinch roller 9 are stably dragged and compressed, and the stability and the processing speed are improved.

One end of each left pressing wheel 8 and one end of each right pressing wheel 9, which are far away from each second turntable 25, are correspondingly provided with synchronizing wheels 29 one by one, the two adjacent synchronizing wheels 29 are in transmission connection through a synchronizing belt 30, the center of each synchronizing wheel 29 is coaxially connected with the rotating shaft of each corresponding left pressing wheel 8 and right pressing wheel 9 through a guide shaft, and a second avoidance penetrating opening 31 for avoiding the movement of each synchronizing wheel 29 is formed in the rectangular movement case 1.

Specifically, when one of the left pinch rollers 8 and one of the right pinch rollers 9 rotate, the corresponding synchronizing wheel 29 and the corresponding synchronizing belt 30 are respectively used for transmission, so that the left pinch roller 8 and the right pinch roller 9 rotate, the ox tendon enters between the left pinch roller 8 and the right pinch roller 9, and the corresponding left pinch roller 8 and the right pinch roller 9 are meshed for rotation to push and compress the ox tendon and send the ox tendon into the discharging shaft 6;

through every synchronizing wheel 29 and hold-in range 30 drive respectively that the left pinch roller 8 and the right pinch roller 9 that correspond are rotatory, the cowhells pass through the further processing of multirow left pinch roller 8 and right pinch roller 9, improve the degree of consistency of processing.

The discharging shaft 6 is coaxially provided with a horn hopper 32 at the end thereof located in the rectangular movement box 1, and the inner ring of the horn hopper 32 is provided with a spiral line 33 extending towards the discharging shaft 6.

Specifically, the cowhells processed by the corresponding left pinch roller 8 and the right pinch roller 9 are fed into the horn hopper 32, the cowhells can be guided by the spiral line 33 arranged in the horn hopper 32 to rapidly enter the discharge shaft 6, the cowhells entering the discharge shaft 6 are twisted, and when the cowhells come out from the discharge shaft 6, the cowhells enter a subsequent cutting process;

spiral lines 33 arranged through the inner ring of the horn hopper 32 can rapidly guide the beef tendon into the discharging shaft 6, and machining efficiency is improved.

The working principle of the invention is as follows:

step one, specifically, a motor drives a belt pulley 3 through a belt, then drives a rectangular core box 1 and a core plate 2 to rotate, a feeding shaft 4 is fixed on a first fixed seat 5, each second bevel gear 22 rotates around the circumference of a first bevel gear 21, and simultaneously drives each rotating rod 23 to rotate, so that the two rotating rods 23 rotate reversely;

step two, specifically, each rotating rod 23 drives the corresponding first rotating disc 24 to rotate, each first rotating disc 24 drives one end of the corresponding telescopic rod 27 to rotate around the first rotating disc 24, one end of each telescopic rod 27 far away from each first rotating disc 24 drives the second rotating disc 25 to rotate synchronously, due to the fact that the two rotating rods 23 rotate reversely, the two second rotating discs 25 rotate reversely, and each second rotating disc 25 drives the corresponding left pressing wheel 8 and the corresponding right pressing wheel 9 to rotate respectively, so that the corresponding left pressing wheel 8 and the corresponding right pressing wheel 9 rotate reversely;

the two second turntables 25 which rotate reversely respectively drive the corresponding left pinch roller 8 and right pinch roller 9 to rotate reversely, so that the cowhells entering the corresponding left pinch roller 8 and right pinch roller 9 are stably dragged and compressed, and the stability and the processing speed are improved;

step three, specifically, when one of the left pinch rollers 8 and one of the right pinch rollers 9 rotate, the corresponding synchronous wheels 29 and the corresponding synchronous belts 30 are respectively used for transmission, so that the left pinch roller 8 and the right pinch roller 9 rotate, the cowhells enter between the left pinch roller 8 and the right pinch roller 9, and the corresponding left pinch roller 8 and the corresponding right pinch roller 9 are meshed to rotate to push and compress the cowhells and send the cowhells into the discharging shaft 6;

each synchronous wheel 29 and each synchronous belt 30 respectively drive the corresponding left pinch roller 8 and the corresponding right pinch roller 9 to rotate, and the cowhells are further processed through the rows of left pinch rollers 8 and the rows of right pinch rollers 9, so that the processing uniformity is improved;

step four, specifically, the cowhells processed by the corresponding left pinch roller 8 and the right pinch roller 9 are sent into the horn hopper 32, the cowhells can be guided by the spiral line 33 arranged in the horn hopper 32 to rapidly enter the discharging shaft 6, the cowhells entering the discharging shaft 6 are twisted, and when the cowhells come out from the discharging shaft 6, the cowhells enter a subsequent cutting process;

the beef tendon can be rapidly guided into the discharging shaft 6 through the spiral line 33 arranged on the inner ring of the horn hopper 32, so that the processing efficiency is improved;

step five, specifically, after the ox muscle enters into corresponding left pinch roller 8 and right pinch roller 9, evenly compress tightly and impel the ox muscle through the arc bellying 20 that sets up respectively on corresponding left pinch roller 8 and the right pinch roller 9.

Before operation, the distance between the corresponding left pinch roller 8 and the right pinch roller 9 can be adjusted in advance, when the adjustment is carried out, each handle 18 is manually rotated to drive the corresponding vertical plate 10 to translate, each vertical plate 10 drives each left pinch roller 8 and each right pinch roller 9 to translate, and after the corresponding left pinch roller 8 and the corresponding right pinch roller 9 are adjusted to the required positions, the locking nut is manually rotated to be matched with the locking ring 17 for locking;

through the cooperation drive two risers 10 of taking left pinch roller 8 and right pinch roller 9 respectively of screw rod 14 and nut move in opposite directions or to the back to through every lock nut and the locking of corresponding retainer ring 17, the interval between the left pinch roller 8 of the staff of being convenient for and the right pinch roller 9 promotes the practicality.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a cowhells processing is with automatic peeler core assembly, includes:

a rectangular movement box (1); two ends of the rectangular core box (1) are respectively provided with an organic core disc (2) and a belt pulley disc (3);

one end of the feeding shaft (4) is fixed on the first fixed seat (5), and the other end of the feeding shaft is arranged in the center of the machine core disc (2) through a bearing;

one end of the discharging shaft (6) is arranged on the second fixed seat (7) through a bearing, and the other end of the discharging shaft is fixed at the center of the belt pulley disc (3);

the device is characterized in that a pressing mechanism is arranged between the feeding shaft (4) and the discharging shaft (6), and the pressing mechanism comprises:

a pair of left pinch rollers (8) which are arranged on one side of the inside of the rectangular mechanical box side by side;

the right pinch rollers (9) are provided with a pair of right pinch rollers and are arranged in the rectangular case side by side at the other side far away from each pinch roller, each right pinch roller (9) is respectively arranged corresponding to each left pinch roller (8) one by one, and an extrusion gap for a cowhell to pass through is arranged between each adjacent left pinch roller (8) and each adjacent right pinch roller (9);

the feeding shaft (4) is provided with a driving mechanism, and the working end of the driving mechanism is in transmission connection with each left pinch roller (8) and each right pinch roller (9) respectively;

one side that left pinch roller (8) and right pinch roller (9) kept away from each other all is equipped with riser (10), the upper and lower end of riser (10) all is equipped with extends horizontal plate (11), left pinch roller (8) and right pinch roller (9) are rotated with every through the pivot and are connected, every corner of the one side that two risers (10) kept away from each other all is equipped with spacing polished rod (12) that the level set up, be equipped with spacing sleeve pipe (13) that supply every spacing polished rod (12) to walk on rectangle movement case (1), department all is equipped with screw rod (14) that the level set up in the middle of the one side that two risers (10) kept away from each other, the one end of every screw rod (14) all rotates with riser (10) that correspond and is connected, be equipped with on the rectangle movement case (1) and supply every screw rod (14) thread engagement's thread bush (15), the one end that riser (10) were kept away from in every screw rod (14) all passes corresponding thread bush (15) and outwards extend.

2. The automatic rotary cutter core assembly for cowhells processing according to claim 1, wherein a locking nut (16) is arranged at an outward end of each screw rod (14), a locking ring (17) which can be matched and connected with each locking nut (16) is arranged on the rectangular positioning box, and a handle (18) is arranged at one end of each screw rod (14) far away from the vertical plate (10).

3. The automatic rotary cutter core assembly for cowhells processing according to claim 2, wherein an annular groove (19) is formed in an outer ring of each left pinch roller (8) and each right pinch roller (9), and arc-shaped protrusions (20) are uniformly arranged on the bottom surface of the annular groove (19).

4. The automatic rotary cutter core assembly for cowhells processing according to claim 1, wherein the drive mechanism comprises:

the first conical tooth (21) is coaxially arranged outside the feeding shaft (4);

the second conical teeth (22) are provided with a pair of pairs and symmetrically positioned on two sides of the first conical teeth (21), and each second conical tooth (22) is meshed with the first conical teeth (21);

the number of the rotating rods (23) is the same as that of the second conical teeth (22), the rotating rods correspond to the second conical teeth (22) one by one, one end of each rotating rod (23) is arranged at the center of the corresponding second conical tooth (22), and one end, far away from the second conical teeth (22), of each rotating rod (23) can rotate and penetrates through two faces of the rectangular movement box (1) to extend outwards.

5. The automatic rotary cutter core assembly for cowhells processing according to claim 4, wherein a first rotary table (24) is coaxially arranged at the extending end of each rotary rod (23), second rotary tables (25) are arranged at the rotating shaft end parts of one left pressing wheel (8) and one right pressing wheel (9) which are adjacent to the first rotary table (24) in all the left pressing wheels (8) and all the right pressing wheels (9), each second rotary table (25) is arranged on the same horizontal plane with the upper surface of the adjacent first rotary table (24), and a first avoidance through hole (26) for each first rotary table (24) to move is formed in the rectangular core box (1).

6. The automatic rotary cutter core assembly for beef tendon processing according to claim 5, wherein a telescopic rod (27) is arranged between all adjacent left pinch rollers (8) and right pinch rollers (9), toggle columns (28) are symmetrically arranged at the top edges of the first rotary table (24) and the second rotary table (25), one end of the telescopic rod (27) is hinged with the toggle column (28) of the first rotary table (24), and the other end of the telescopic rod (27) is hinged with the toggle column (28) of the second rotary table (25).

7. The automatic rotary cutter core assembly for beef tendon processing according to claim 6, wherein each left pinch roller (8) and each right pinch roller (9) are provided with a synchronizing wheel (29) at one end far away from each second turntable (25), the two adjacent synchronizing wheels (29) are in transmission connection through a synchronizing belt (30), the center of each synchronizing wheel (29) is coaxially connected with the rotating shaft of each corresponding left pinch roller (8) and right pinch roller (9) through a guide shaft, and a second avoidance through hole (31) for avoiding the movement of each synchronizing wheel (29) is formed in the rectangular core box (1).

8. The automatic rotary cutter core assembly for cowhells processing according to claim 7, wherein the end of the discharging shaft (6) positioned in the rectangular core box (1) is coaxially provided with a horn hopper (32), and the inner ring of the horn hopper (32) is provided with a spiral line (33) extending towards the discharging shaft (6).

9. The use method of the automatic rotary cutter core assembly for cowhells processing according to claim 8, wherein,

the method comprises the following steps that firstly, a motor drives a belt wheel disc (3) through a belt, then drives a rectangular movement box (1) and a movement disc (2) to rotate, a feeding shaft (4) is fixed on a first fixing seat (5), each second bevel gear (22) rotates around the circumference of a first bevel gear (21), and each rotating rod (23) is driven to rotate at the same time, so that the two rotating rods (23) rotate reversely;

step two, each rotating rod (23) drives the corresponding first rotating disc (24) to rotate respectively, each first rotating disc (24) drives one end of the corresponding telescopic rod (27) to rotate around the corresponding first rotating disc (24) respectively, one end, far away from each first rotating disc (24), of each telescopic rod (27) drives the corresponding second rotating disc (25) to synchronously rotate respectively, due to the fact that the two rotating rods (23) rotate reversely, the two second rotating discs (25) rotate reversely, each second rotating disc (25) drives the corresponding left pressing wheel (8) and the corresponding right pressing wheel (9) to rotate respectively, and the corresponding left pressing wheel (8) and the corresponding right pressing wheel (9) rotate reversely;

the two second turntables (25) which rotate reversely drive the corresponding left pinch roller (8) and right pinch roller (9) to rotate reversely, so that the cowhells entering the corresponding left pinch roller (8) and right pinch roller (9) are stably dragged and compressed;

step three, when one of the left pinch rollers (8) and one of the right pinch rollers (9) rotate, the corresponding synchronizing wheel (29) and the synchronizing belt (30) are respectively used for transmission, so that the left pinch roller (8) and the right pinch roller (9) rotate, the cowhells enter between the left pinch roller (8) and the right pinch roller (9), and the corresponding left pinch roller (8) and the corresponding right pinch roller (9) are meshed to rotate to push and compress the cowhells and send the cowhells into the discharging shaft (6);

each synchronous wheel (29) and each synchronous belt (30) respectively drive the corresponding left pinch roller (8) and the corresponding right pinch roller (9) to rotate, and the cowhells are further processed through the rows of left pinch rollers (8) and the rows of right pinch rollers (9);

after the cowhells enter the corresponding left pinch roller (8) and the right pinch roller (9), uniformly compressing and propelling the cowhells through arc-shaped protrusions (20) respectively arranged on the corresponding left pinch roller (8) and the corresponding right pinch roller (9);

fifthly, the beef tendon processed by the corresponding left pressing wheel (8) and the right pressing wheel (9) is sent into the horn hopper (32), the beef tendon guided by the spiral line (33) arranged in the horn hopper (32) can rapidly enter the discharging shaft (6), the beef tendon entering the discharging shaft (6) is twisted, and when the beef tendon comes out from the discharging shaft (6), the beef tendon enters a subsequent cutting process;

the beef tendon can be quickly guided into the discharging shaft (6) through a spiral line (33) arranged on the inner ring of the horn hopper (32).

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