CN112841286B - Crab flower apparatus for producing - Google Patents

Abstract

In order to solve the problems of low processing efficiency, uneven quality, potential safety hazards and the like of the double-sided cutting of crab flowers, the invention provides a crab peanut production device, which comprises a first cutting machine and a second cutting machine, wherein the first cutting machine comprises a first support, a first conveyor belt positioned on the first support, a cutting assembly positioned above the first conveyor belt, a first driving motor and a cutting driving device used for driving the cutting assembly to move up and down; the reversing machine comprises a second support, a second conveyor belt positioned on the second support, a second driving motor, a reversing support rotationally connected to the second support and a reversing motor, wherein the rotating axes of the reversing support are distributed along the width direction of the conveyor belt; the second pattern cutting machine has the same structure as the first pattern cutting machine and is positioned behind the reversing machine; dicer, including the third support, set up third conveyer belt, third driving motor on the third support, be located the horizontal cutting knife and the vertical cutting knife of third conveyer belt top, with the crab meat dicing after the two-sided cut flower, effectively improve production efficiency.

Description

Crab flower apparatus for producing

Technical Field

The invention relates to the technical field of fishery processing devices, in particular to a crab peanut production device.

Background

Crab spawn is a food after crab meat processing, crab meat is generally made into a blocky structure, and the upper surface and the lower surface are cut into flowers, so that the crab spawn is obtained, the appearance of the product is improved, and the subsequent cooking is facilitated.

The conventional crab spawn processing generally adopts manual operation, crab meat is made into crab cakes, then two-sided cutting is carried out, and then the crab cakes are cut into blocks, or the crab cakes are firstly cut into blocks and then the two-sided cutting is carried out.

Disclosure of Invention

In order to solve the problems, the invention provides a peanut crab production device, which adopts the following technical scheme:

integrative crab peanut produces device, its characterized in that includes:

the first pattern cutting machine comprises a first support, a first conveyor belt positioned on the first support, a cutting assembly positioned above the first conveyor belt, a first driving motor used for driving the first conveyor belt to rotate, and a cutting driving device used for driving the cutting assembly to move up and down;

the reversing machine comprises a second support, a second conveyor belt positioned on the second support, a second driving motor for driving the second conveyor belt to rotate, a reversing support rotationally connected to the second support and a reversing motor for driving the reversing support to rotate, wherein the rotating axes of the reversing support are distributed along the width direction of the conveyor belt;

the second pattern cutting machine has the same structure as the first pattern cutting machine and is positioned behind the reversing machine;

dicer, including the third support, set up third conveyer belt on the third support, be used for driving this pivoted third driving motor of third conveyer belt, be located the horizontal cutting knife and the vertical cutting knife of third conveyer belt top.

Preferably, the cutting assembly comprises two groups of cutting knives, and the two groups of cutting knives are arranged at a certain included angle.

Preferably, the cutting driving device comprises a cutting driving motor, a first connecting rod, a second connecting rod and a third connecting rod which are distributed in a triangular mode, the first connecting rod is connected with the end portions of the two groups of cutting knives, the second connecting rod and the second connecting rod are connected to the other ends of the two groups of cutting knives respectively, and the three groups of connecting rods are distributed in the vertical direction and are connected with the cutting driving motor in a transmission mode through a crankshaft.

Preferably, one side of the cutting knife is fixedly connected with a compression roller, and the length of the compression roller is distributed along the length direction of the cutting knife.

Preferably, a spray rod for wetting the blade and the material is further arranged above the support, and the spray rod is positioned in front of the feeding direction of the cutting assembly.

Preferably, the conveyer belt comprises many interval distribution's endless belt, the support that reverses is including rotating to be connected in upper support and lower floor's support, upper support and lower floor's support comprise a plurality of fixed connection in the rectangular board of reversal axle, and rectangular board length distributes and is located the interval of two adjacent rectangular boards along conveyer belt length direction.

Preferably, the longitudinal cutting knife is arranged above the position of a feed inlet of the third support, the longitudinal cutting knife is composed of a plurality of blades distributed perpendicular to the third conveying belt, the blades are distributed at intervals along the moving direction of the third conveying belt, the length of the transverse cutting knife is distributed along the direction perpendicular to the third conveying belt, a first driving device used for driving the transverse cutting knife to move up and down is arranged on the third support, the first driving device comprises a servo motor, a planetary reducer connected with the power output end of the servo motor and a cutting block crankshaft connected with the output end of the planetary reducer, and the cutting block crankshaft is fixedly connected with the transverse cutting knife through a vertical connecting rod.

Preferably, a pressure plate is arranged between two adjacent blades, the pressure plate is fixedly connected to the third support and positioned above the third conveyor belt, and the pressure plate has certain elasticity.

Preferably, a height adjusting device for adjusting the height of the longitudinal cutting knife is arranged above the third support.

Preferably, the device also comprises a PLC controller, and a first feeding sensor and a first discharging sensor are respectively arranged on one side of the feeding hole and one side of the discharging hole of the first support; a second feeding sensor and a second discharging sensor are respectively arranged at the front end and the rear end of the second support, a reverse sensor is arranged at one side of a feeding hole of a rotating axis of the reverse support, and a first in-place sensor is arranged above the second support close to the rear end of the reverse support; be provided with third feed sensor on the third support in horizontal cutting knife the place ahead, first feed sensor, first ejection of compact sensor, second feed sensor, second ejection of compact sensor, reversal sensor, first position sensor, third ejection of compact sensor all link to each other with PLC control signal input, and first driving motor, second driving motor, reversal motor, third driving motor, fourth driving motor, servo motor all link to each other with PLC controller signal output part.

The invention has the beneficial effects that:

1. the crab flower surface is cut by the plurality of groups of blades which are obliquely arranged, so that the processing efficiency of the crab flower is effectively improved, and the spray rod is arranged on the front side in the feeding direction of the cutting knife to moisten the blades and materials to a certain extent, so that the material sticking of the cutting knife is avoided, and the product yield is improved;

2. the crab meat is overturned and processed by the reversing support arranged between the conveyor belts at intervals, the crab meat can be overturned without stopping the machine, the crab meat can be continuously processed, the working efficiency is effectively improved, the reversing motor is in transmission connection with the overturning shaft through the cam divider, so that the reversing support is driven to rotate, the cam divider is high in indexing precision, stable in operation, large in transmission torque, self-locking during positioning, compact in structure, small in size, low in noise, good in high-speed performance and long in service life, and product damage caused by action of the reversing motor when the crab meat does not completely move to the outer side of the reversing support can be avoided through the arrangement of the first in-place sensor;

3. the material to be cut is tightly pressed on the flexible rod through the longitudinal cutting knife and the material pressing plate at the feeding port of the dicer, so that the material is prevented from displacing when the material is longitudinally cut to act, the product quality is prevented from being influenced, and the height of the longitudinal cutting knife is adjustable, so that the dicer is convenient to adapt to different products;

4. the actions of all parts are controlled by the PLC, so that the product quality and the crab peanut production efficiency are effectively improved.

Drawings

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

FIG. 2 is a schematic view of the structure of the flower cutting machine

FIG. 3 is a front view of the flower cutting machine

FIG. 4 is a left side view of the flower cutting machine

FIG. 5 is a right side view of the flower cutting machine

FIG. 6 is a rear view of the flower cutting machine

FIG. 7 is a top view of the flower cutting machine

FIG. 8 is a bottom view of the flower cutting machine

FIG. 9 is a schematic view of a structure of a reversing machine

FIG. 10 is a front view of the inverter

FIG. 11 is a rear view of the reversing machine

FIG. 12 is a left side view of the reversing machine

FIG. 13 is a right side view of the reversing machine

FIG. 14 is a plan view of a reversing machine

FIG. 15 is a bottom view of the reversing machine

FIG. 16 is a schematic view of a dicer

FIG. 17 is a main view of the dicer

FIG. 18 is a rear view of the dicer

FIG. 19 is a right side schematic view of a dicer with a blade

FIG. 20 is a top view of the dicer

FIG. 21 is a schematic diagram of PLC control

1-a first pattern cutting machine, 101-a first bracket, 102-a first conveyor belt, 103-a first driving motor, 104-a spray rod, 105-a cutter, 106-a press roll, 107-a guide post, 108-a slide seat, 109-a cutting driving motor, 110-a first connecting rod, 111-a first crankshaft, 112-a first synchronous belt, 113-a first synchronous pulley, 114-a second connecting rod, 115-a second crankshaft, 116-a second synchronous belt, 117-a second synchronous pulley, 118-a third connecting rod, 119-a third crankshaft, 120-a third synchronous belt, 121-a third synchronous pulley, 122-a first feeding sensor and 123-a first discharging sensor;

2-inversion machine, 201-second support, 202-second conveyor belt, 203-driving shaft, 204-driven shaft, 205-inversion shaft, 206-inversion support, 2061-upper support, 2062-lower support, 207-bearing seat, 208-first arrival sensor, 209-second driving motor, 210-inversion motor, 211-cam divider, 212-second feeding sensor, 213-second discharging sensor, 214-inversion sensor, 215-horizontal sensor;

3-dicer, 301-third bracket, 302-third conveyor belt, 303-third driving motor, 304-first mounting bracket, 305-first rotating shaft, 306-flexible rod, 307-second rotating shaft, 308-fixed bracket, 309-longitudinal cutting knife, 310-adjusting bolt, 311-first guide column, 312-handle, 313-first gear, 314-second gear, 315-slideway, 316-second mounting bracket, 317-transverse cutting knife, 318-servo motor, 319-planetary reducer, 320-dicer crankshaft, 321-second guide column, 322-pressure plate, 323-third feeding sensor, 324-second arrival sensor and 325-PLC controller.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of describing the invention, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, are not to be construed as limiting the invention.

The peanut crab production device shown in fig. 1-20 mainly comprises a first flower cutting machine 1, a reversing machine, a second flower cutting machine, a reversing machine 2 and a dicer 3 which are arranged in sequence.

The first cutting machine 1 and the second cutting machine have the same structure, and as shown in fig. 2 to 8, the first cutting machine mainly comprises a first support 101, a first conveyor belt 102, a first driving motor 3 and a cutting device, the first conveyor belt 102 is arranged at the upper end of the first support 101, and is driven by the first driving motor 3 fixedly connected to the first support 101 to rotate along the length direction of the first support 101, two guide pillars 107 are arranged at the front side above the first support 101, a guide pillar 107 is arranged at the rear side, the guide pillars 107 are vertically distributed, the guide pillars 107 are vertically and slidably connected with a slide seat 108, three slide seats 108 are respectively and fixedly connected with a first connecting rod 110, a second connecting rod 114 and a third connecting rod 118 which are vertically and downwardly distributed, the cutting device comprises a cutting driving motor 109 and two groups of cutting knives 105 vertically and slidably connected to the upper side of the first support, and two groups of cutting knives 105 are respectively and fixedly connected between the slide seats 108 of the first connecting rod 110 and the second connecting rod 111, Between the sliding seats 108 of the first connecting rod 110 and the third connecting rod 118, the cutting edges of the cutting knives 105 are vertically downward, and the two groups of cutting knives 105 are arranged at an included angle of 60 degrees; the first crankshaft 111, the second crankshaft 115 and the third crankshaft 119 are all located below the first conveyor belt 102 and are horizontally distributed along the front-back direction, the lower ends of the first connecting rod 110, the second connecting rod 114 and the third connecting rod 118 are respectively fixedly connected with the front ends of the first crankshaft 111, the second crankshaft 115 and the third crankshaft 119, the rear end of the first crankshaft 111 is in transmission connection with the output end of the cutting driving motor 109 through the first synchronous belt 112 and the first synchronous pulley 113, the rear end of the second crankshaft 115 is in transmission connection with the first crankshaft 111 through the second synchronous belt 116 and the second synchronous pulley 117, the rear end of the third crankshaft 119 is in transmission connection with the first crankshaft 111 through the third synchronous belt 120 and the third synchronous pulley 121, so that the cutting driving motor 109 drives the three crankshafts to rotate, further drives the cutting knife to slide up and down, and finally drives the three support rods 105 to move up and down to perform the pattern cutting operation on the surface of the crab block, in addition, a first feeding sensor 122 and a first discharging sensor 123 are respectively arranged on the left side and the right side of the first support 101, and are used for driving the cutting driving motor 109 to act.

In addition, in this embodiment, the outside of cutting knife 105 is fixedly connected with compression roller 106 for compress tightly the crab piece on first conveyer belt 102, still is provided with two spray bars 104 on first support 101, spray bar 104 is located the place ahead of cutting knife 105 on the conveyer belt direction of motion to conveniently carry out the wetting of certain degree to crab piece and cutting knife 105 of waiting to cut, avoid the sizing, improve product processingquality.

As shown in fig. 9-15, the reversing machine 2 mainly includes a second support 201, a second conveyor belt 202 rotatably connected to the upper portion of the second support 201, and a reversing device for driving the crab block to reverse, both sides of the second support 201 in the length direction are respectively rotatably connected with a driving shaft 203 and a driven shaft 204 whose axes are distributed along the width direction of the second conveyor belt 202, the left side of the second support 201 is further fixedly connected with a second driving motor 209, the second driving motor 209 drives the driving shaft 203 to rotate through a synchronous pulley and a synchronous belt, the second conveyor belt 202 is composed of a plurality of endless belts distributed at intervals in the front-back direction, and the endless belts are connected between the driving shaft 203 and the driven shaft 204, the reversing device includes a reversing shaft 205, a reversing motor 210, and a reversing support 206 fixedly connected to the reversing shaft 205, the reversing shaft 205 is rotatably connected above the second support 201 through bearing seats 207 fixedly connected to the front and back sides of the upper end of the second support 201, the rotating axis of the reverse rotating shaft 205 is distributed along the front-back direction, the reverse rotating bracket 206 is composed of an upper bracket 2601 and a lower bracket 2602 which are distributed up and down, the upper bracket 2601 and the lower bracket 2602 are composed of a plurality of long strips which are distributed at intervals along the front-back direction, the lengths of the long strips are distributed along the left-right direction and are fixedly connected with the reverse rotating shaft 205, the long strips are positioned between two adjacent endless belts in the front-back direction, the height of the upper end surface of the long strip of the lower bracket 2602 is the same as that of the upper end surface of the endless belt, in addition, the reverse rotating motor 210 is fixedly connected below the second bracket 201, the output shaft of the reverse rotating motor 210 is in transmission connection with the input shaft of the cam divider 211 through a synchronous pulley and a synchronous belt, the cam divider 211 is fixedly connected below the second bracket 201, the output shaft of the cam divider 211 is in transmission connection with the reverse rotating shaft 205 through the synchronous pulley and the synchronous belt, thereby drive reversal axle 205 left and right sides direction and rotate, and then drive reversal support 206 and rotate about, can accurate control turned angle through cam divider 211, auto-lock when fixing a position moreover, the steady operation.

The left end and the right end above the second support 201 are respectively fixedly connected with a second feeding sensor 212 and a second discharging sensor 213, the left side position of the reversing support 206 above the second support 201 is fixedly connected with a first in-place sensor 208, when the first in-place sensor 208 detects materials, the reversing motor 210 does not act, the materials are prevented from being damaged, the reversing sensor 214 is fixedly connected onto the second support 201 on the right side of the reversing shaft 205, when the reversing sensor 214 detects the materials, the reversing motor 210 acts to drive the reversing support 206 to rotate, a level sensor 215 is arranged below the input shaft of the cam divider 211, a boss is arranged on the input shaft, the position of the boss is detected by the level sensor 215 to ensure the rotation angle of the input shaft, so that the reversing support 206 is ensured to rotate 180 degrees, and the level position is always kept.

The crab meat of an aspect cut flower enters into second conveyer belt 202 upper end from second support 201 right side, begins to move from the right side to the left, after reaching reversal support 206 right side position, enters into between upper support 2601 and the lower floor's support 2602, through the action of reversal motor 210 this moment, drives reversal support 206 anticlockwise rotation 180 degrees to make the crab meat not cut flower one side towards the top, conveniently carry out processing on next step.

As shown in fig. 16-20, the dicer 3 mainly includes a third support 301, and third conveyor belts 302 disposed above and right and left of the third support 301, the third conveyor belts 302 are connected to a driving shaft and a driven shaft on the third support 301, the driving shaft is in meshing transmission with a third driving motor 303 through a gear set, a first mounting support 304 is fixedly connected above the left end of the third support 301, the lower end inside the first mounting support 304 is rotatably connected with a first rotating shaft 305 through a bearing, the axis of the first rotating shaft 305 is distributed along the front and back direction, the first rotating shaft 305 is coaxially and fixedly connected with a flexible rod 306, the flexible rod 306 is made of rubber, the upper surface of the flexible rod 306 is flush with the upper surface of the third conveyor belt 302, a fixing support 308 is further disposed above the first rotating shaft 305, the fixing support 308 is a plate-shaped structure with a longitudinal section of "Jiong", and bearings are disposed on the front and back sides of the fixing support 308, the second rotating shaft 307 is rotatably connected between two bearings, a longitudinal cutting knife 309 is coaxially and fixedly connected to the second rotating shaft 307, the longitudinal cutting knife 309 is composed of a plurality of blades, the blades are distributed at intervals along the axial direction of the second rotating shaft 307, adjusting bolts 310 are fixedly connected to the upper end of the fixed support 308, the adjusting bolts 310 are distributed in the vertical direction, the upper portion of the adjusting bolts passes through threaded holes in the first mounting support 304 from bottom to top and are in threaded connection, a handle 312 is arranged at the upper end of the adjusting bolts 310, two first guide columns 311 distributed in the vertical direction are further connected between the first mounting support 304 and the fixed support 308, the lower end of each first guide column 311 is fixedly connected to the upper end of the fixed support 308 and is connected with the first mounting support 304 in a vertical sliding manner, in addition, a slide way 315 distributed in the vertical direction is arranged at the rear end of the first mounting support 304, and the rear end of the second rotating shaft 307 passes through the slide way 315 and extends out by a certain length backwards, the rear end of the first rotating shaft 305 extends out of the rear end of the first mounting bracket 304, the rear ends of the first rotating shaft 305 and the second rotating shaft 307 are respectively and fixedly connected with a first gear 313 and a second gear 314 coaxially, and the first gear 313 and the second gear 314 are in meshing transmission connection.

A second mounting bracket 316 is fixedly connected to the upper left side of the third bracket 301, a transverse cutting knife 317 and a driving device for driving the transverse cutting knife 317 to move up and down are arranged on the second mounting bracket 316, the driving device comprises a servo motor 318, a planetary reducer 319 and a cutting crankshaft 320, the servo motor 318 is fixedly connected to the upper side of the second mounting bracket 316 through a fixing plate, an output shaft of the servo motor 318 is connected with an input end of the planetary reducer 319, a power output end of the planetary reducer 319 is connected with the cutting crankshaft 320, the cutting crankshaft 320 is fixedly connected with a second guide post 321 through a connecting rod distributed in the vertical direction so as to drive the transverse cutting knife 317 to move up and down, the length of the transverse cutting knife 317 is distributed along the front-back direction, the second guide post 321 distributed in the vertical direction is fixedly connected to the upper side of the transverse cutting knife 317, the second guide post 321 is connected to the second mounting bracket 316 in a vertical sliding manner,

still fixedly connected with a plurality of pressure pads 320 on first installing support 304, pressure pad 320 upper end and first installing support 304 fixed connection, the lower extreme is rectangular platelike structure and distributes above the third conveyer belt to every pressure pad 320 is located between two adjacent blades, and pressure pad 320 is apart from flexible rod 306 certain height of below, and pressure pad 320 has certain elasticity, thereby conveniently compresses tightly and waits to cut the material.

In addition, a third feeding sensor 323 is fixedly connected to the third bracket 301 which is transversely cut to the right side of the cutting shaft 317 and used for detecting whether the materials are in place or not, so that the servo motor 318 is started to act, a second in-place sensor 324 is arranged on a fixing plate at the position of the cutting crankshaft 320 and used for detecting the action of the cutting crankshaft 320, and after the cutting action is completed, the servo motor 318 drives the longitudinal cutting knife 317 to be located at the highest point position.

The device further comprises a PLC controller 325, as shown in fig. 21, the first feeding sensor 122, the first discharging sensor 123, the second feeding sensor 212, the second discharging sensor 213, the reverse sensor 214, the first in-place sensor 208, the level sensor 215, the third feeding sensor 323, and the second in-place sensor 324 are all connected to a signal input end of the PLC controller 325, and the first driving motor 103, the cutting driving motor 109, the second driving motor 209, the reverse motor 210, the third driving motor 303, and the servo motor 318 are all connected to a signal output end of the PLC controller.

The overall device work flow and principle are as follows: the material is placed on one side of the feeding hole of the first conveyor belt 102, the first driving motor 103 is started to drive the first conveyor belt 102 to move, after the first feeding sensor 122 detects the material, the cutting driving motor 109 is started to drive the cutting knife 105 to move up and down, meanwhile, the spray dryer 104 sprays a certain amount of water mist to the material and the cutting knife 109 to moisten the material and the cutting knife 109, the material sticking of the cutting knife 109 during the cutting is prevented, after the first discharging sensor 123 detects the material, the second driving motor 209 is started to drive the second conveyor belt 202 to rotate, the material gradually enters the reversing bracket 206, after the reversing sensor 214 detects the material, the reversing motor 210 is started to drive the reversing bracket 206 to rotate 180 degrees along the reversing shaft 205, the material continuously moves along with the second conveyor belt 202, when the first in-position sensor 208 detects the material, the reversing motor 210 cannot be started, when the second discharging sensor 213 detects the material, the second pattern cutting machine is started, the material is cut on the other side, after the pattern cutting is finished, the material enters the block cutting machine 3, the material is driven by the third driving motor 303 to move along with the third conveyor belt 302, the material is cut into a strip-shaped structure after passing through the flexible rod 306 and the longitudinal cutting knife 309, and the longitudinal cutting knife 309 is driven to integrally move up and down by rotating the handle 312 according to the thickness of the material, so that the material is pressed by the pressure plate 322 and slides when the third feeding sensor 323 detects the material, the servo motor 318 is started to drive the strip-shaped crankshaft 320 to drive the transverse cutting knife 317 to move up and down, thereby the material is cut into a rectangular block structure, after the cutting is finished, the second in-place sensor 324 detects the rotation angle of the crankshaft, PLC controller 325 controls servo motor 318 and rotates and makes horizontal cutting knife 317 be in the peak position, avoids hindering the material, through this device, can carry out two-sided cut flower, stripping and slicing with crab meat fast, improves production efficiency, product quality.

The above description is only of the preferred embodiments of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications can be made without departing from the principles of the invention and these modifications are to be considered within the scope of the invention.

Claims (9)

1. Integrative crab peanut produces device, its characterized in that includes:

the first pattern cutting machine comprises a first support, a first conveyor belt positioned on the first support, a cutting assembly positioned above the first conveyor belt, a first driving motor used for driving the first conveyor belt to rotate, and a cutting driving device used for driving the cutting assembly to move up and down;

the reversing machine comprises a second support, a second conveyor belt positioned on the second support, a second driving motor used for driving the second conveyor belt to rotate, a reversing shaft, a reversing support connected to the second support in a rotating mode through the reversing shaft, and a reversing motor used for driving the reversing support to rotate, wherein the rotating axis of the reversing support is distributed along the width direction of the conveyor belt, the second conveyor belt comprises a plurality of annular belts distributed at intervals, the reversing support comprises an upper support and a lower support, the upper support and the lower support are both composed of a plurality of long strip plates fixedly connected to the reversing shaft, and the length of each long strip plate is distributed along the length direction of the second conveyor belt and is positioned in an interval between two adjacent long strip plates;

the second pattern cutting machine has the same structure as the first pattern cutting machine and is positioned behind the reversing machine;

dicer, including the third support, set up third conveyer belt on the third support, be used for driving this pivoted third driving motor of third conveyer belt, be located the horizontal cutting knife and the vertical cutting knife of third conveyer belt top.

2. The peanut crab production device as claimed in claim 1, wherein the cutting assembly includes two sets of cutting knives, the two sets of cutting knives being disposed at an included angle.

3. The peanut crab production device as claimed in claim 2, wherein the cutting drive device comprises a cutting drive motor, a first connecting rod, a second connecting rod and a third connecting rod which are distributed in a triangular shape, the first connecting rod is connected with the end parts of the two groups of cutting knives, the second connecting rod and the second connecting rod are respectively connected with the other ends of the two groups of cutting knives, and the three groups of connecting rods are distributed in a vertical direction and are in transmission connection with the cutting drive motor through a crankshaft.

4. The peanut crab production device as claimed in claim 2, wherein a press roller is fixedly connected to one side of the cutting knife, and the length of the press roller is distributed along the length direction of the cutting knife.

5. The peanut crab production apparatus of claim 1, wherein a spray bar for wetting the blades and the material is further disposed above the first support, the spray bar being forward of the feed direction of the cutting assembly.

6. The peanut crab production device as claimed in claim 1, wherein the longitudinal cutter is disposed above a feed inlet of the third support, the longitudinal cutter is composed of a plurality of blades distributed perpendicular to the third conveyor belt, the plurality of blades are distributed at intervals along a direction perpendicular to a movement direction of the third conveyor belt, the length of the transverse cutter is distributed along a direction perpendicular to the third conveyor belt, the third support is provided with a first driving device for driving the transverse cutter to move up and down, the first driving device comprises a servo motor, a planetary reducer connected with a power output end of the servo motor, and a cutting block crankshaft connected with an output end of the planetary reducer, and the cutting block crankshaft is fixedly connected with the transverse cutter through a vertical connecting rod.

7. The peanut crab production device as claimed in claim 6, wherein a pressure plate is disposed between two adjacent blades, the pressure plate is fixedly connected to the third support and located above the third conveyor belt, and the pressure plate has a certain elasticity.

8. The peanut crab production device as claimed in claim 1, wherein a height adjustment device for adjusting the height of the longitudinal cutter is provided above the third support.

9. The peanut crab production device according to claim 1, further comprising a PLC controller, wherein a first feeding sensor and a first discharging sensor are respectively arranged on one side of the feeding port and one side of the discharging port of the first bracket;

a second feeding sensor and a second discharging sensor are respectively arranged at the front end and the rear end of the second support, a reverse sensor is arranged at one end of a feeding hole of a rotating axis of the reverse support, and a first in-place sensor is arranged above the second support close to the rear end of the reverse support; be provided with third feed sensor on the third support in horizontal cutting knife the place ahead, first feed sensor, first ejection of compact sensor, second feed sensor, second ejection of compact sensor, reversal sensor, first position sensor, third ejection of compact sensor all link to each other with PLC control signal input, and first driving motor, second driving motor, reversal motor, third driving motor, fourth driving motor, servo motor all link to each other with PLC controller signal output part.

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