阅读说明：本技术 一种自适应鱿鱼切花装置 (Self-adaptation squid cut flower device ) 是由 韩昌余 田伟华 周莹 韩金腾 于 2020-07-13 设计创作，主要内容包括：一种自适应鱿鱼切花装置,皮带自适应调节机构设置在传输皮带形成的皮带运行间隙内,拉簧互相间隔的分布在适应基座上端,适应轴穿过若干互相并列的适应键的侧部,适应键从若干相互并列的张紧轮的间隙穿过,张紧轴穿过适应键,张紧轴还穿过张紧轮,适应键的末端位于压紧轴的下方,压紧轴对适应键的末端施加压力以使拉簧张紧；若干环形外刀圈的内沿置于第一带槽轴和第二带槽轴的环槽中,环形内刀、第一带槽轴和第二带槽轴呈三角状分布于环形外刀圈的内部；传输皮带从皮带自适应调节机构和切花刀组件的间隙穿过,处于传输皮带上的物料由切花刀组件压紧于皮带自适应调节机构。本发明对鱿鱼的切花面进行平整度适应,保证鱿鱼切花深度一致性。(A self-adaptive squid pattern cutting device, the adaptive adjustment mechanism of the belt is set up in the belt running gap that the conveying belt forms, the extension spring is distributed on adapting the upper end of the base each other at intervals, the adaptation axle passes the lateral part of several adaptation keys juxtaposed each other, the adaptation key passes from the interval of several tension pulleys juxtaposed each other, the tension axle passes the adaptation key, the tension axle also passes the tension pulley, the end of the adaptation key locates under the hold-down shaft, the hold-down shaft exerts pressure to the end of the adaptation key so as to make the extension spring tension; the inner edges of the annular outer cutter rings are arranged in the annular grooves of the first grooved shaft and the second grooved shaft, and the annular inner cutter, the first grooved shaft and the second grooved shaft are distributed in the annular outer cutter rings in a triangular shape; the conveying belt penetrates through a gap between the belt self-adaptive adjusting mechanism and the pattern cutting knife assembly, and materials on the conveying belt are tightly pressed on the belt self-adaptive adjusting mechanism by the pattern cutting knife assembly. The method disclosed by the invention can be used for carrying out flatness adaptation on the cut flower surface of the squid, so that the cut flower depth consistency of the squid is ensured.)

1. A self-adaptive squid pattern cutting device comprises a conveying frame (1), wherein a transmission mechanism (2) and a cutter frame (3) are arranged at the upper end of the conveying frame (1), the cutter frame (3) spans the upper end of the conveying frame (1) and is fixed with the side part of the conveying frame (1), the transmission mechanism (2) comprises a transmission belt (35), and the transmission belt (35) penetrates through an inner side through opening of the cutter frame (3); the automatic flower cutting machine is characterized by also comprising a belt self-adaptive adjusting mechanism (4) and a flower cutter component (5);

the belt self-adaptive adjusting mechanism (4) is arranged in a belt running clearance (6) formed by the conveying belt (35), and the belt self-adaptive adjusting mechanism (4) comprises an adaptive base (7), a tension spring (8), an adaptive key (9), an adaptive shaft (10), a tension wheel (11), a tension shaft (12) and a compression shaft (13); the tension springs (8) are distributed at the upper end of the adaptive base (7) at intervals, the end parts of the adaptive keys (9) are connected with the top ends of the tension springs (8), the adaptive shafts (10) penetrate through the side parts of the adaptive keys (9) which are mutually parallel, the adaptive keys (9) penetrate through gaps of the tension wheels (11) which are mutually parallel, the tension shafts (12) penetrate through the adaptive keys (9), the tension shafts (12) further penetrate through the tension wheels (11), the tail ends of the adaptive keys (9) are positioned below the compression shafts (13), and the compression shafts (13) apply pressure on the tail ends of the adaptive keys (9) to enable the tension springs (8) to be tensioned;

the pattern cutting knife assembly (5) comprises an annular outer knife ring (14), an annular inner knife (15), a first grooved shaft (16) and a second grooved shaft (17); the inner edges of the annular outer cutter rings (14) are arranged in annular grooves of the first grooved shaft (16) and the second grooved shaft (17), the annular inner cutters (15), the first grooved shaft (16) and the second grooved shaft (17) are distributed in the annular outer cutter rings (14) in a triangular shape, and the blade points of the annular inner cutters (15) pass through the gaps between two adjacent annular outer cutter rings (14);

the conveying belt (35) penetrates through a gap between the belt self-adaptive adjusting mechanism (4) and the cutter assembly (5), and materials on the conveying belt (35) are pressed on the belt self-adaptive adjusting mechanism (4) by the cutter assembly (5).

2. An adaptive squid pattern cutting device as claimed in claim 1, wherein the adaptive shaft (10) is located at an eccentric position of the adaptive key (9), the tensioning shaft (12) is located between the adaptive shaft (10) and the pressing shaft (13), and the tensioning shaft (12) is also located at an eccentric position of the adaptive key (9).

3. The adaptive squid cutting device as claimed in claim 2, wherein the side part of the cutter frame (3) is connected with a crank member (30), and the middle part of the crank member (30) is provided with a groove; the center of the annular inner cutter (15) is connected with an inner cutter shaft (31), and the end part of the inner cutter shaft (31) is connected with the groove position of the crank throw piece (30) through a bearing piece; an adjusting strip hole (32) is formed in the side portion of the cutter holder (3), the end portion of the pressing shaft (13) extends out of the adjusting strip hole (32), and a first adjusting bolt (33) is connected between the end portion of the pressing shaft (13) and the crank throw piece (30).

4. A self-adaptive squid cutting flower device as claimed in claim 2, wherein the two sides of the adaptive base (7) are fixedly connected with the conveying frame (1) through second adjusting bolts (34).

5. A self-adaptive squid pattern cutting device as claimed in claim 1, wherein one side of the transmission belt (35) is provided with a feeding disc (18), the other side of the transmission belt (35) is provided with a discharging disc (19), and the feeding disc (18) and the discharging disc (19) are both fixedly connected with the conveying frame (1); a water receiving tray (20) is further arranged below the conveying belt (35), and the water receiving tray (20) is fixed on the inner side of the conveying frame (1).

6. The self-adaptive squid cutting device as claimed in claim 1, wherein the inner side of the conveying frame (1) is connected with a driving motor (21), the side part of the cutting frame (3) is connected with a first switching chain wheel pair (22), and the side part of the conveying frame (1) is connected with a second switching chain wheel pair (23) and a third switching chain wheel pair (24); the driving motor (21) is connected with the first transfer chain wheel pair (22) through a first chain (25), and a second chain (26) is connected with the first transfer chain wheel pair (22) and the end gear of the annular inner knife (15); the driving motor (21) is connected with the second switching chain wheel pair (23) through a third chain (27), and a fourth chain (28) is connected among the second switching chain wheel pair (23), the first grooved shaft (16) and the second grooved shaft (17); the third switching chain wheel pair (24) is meshed with the end gear of the second switching chain wheel pair (23), and a fifth chain (29) is connected between the third switching chain wheel pair (24) and the driving shaft of the transmission belt (35).

7. An adaptive squid pattern cutting device as claimed in claim 1, wherein a plurality of annular outer cutter rings (14) form an annular cutter cylinder therebetween, and the annular cutter cylinder is supported by the first grooved shaft (16) and the second grooved shaft (17).

8. The adaptive squid pattern cutting device as claimed in claim 1, wherein when the material on the transmission belt (35) passes between the belt adaptive adjusting mechanism (4) and the pattern cutting knife assembly (5), the pattern cutting knife assembly (5) presses the material on the transmission belt (35) to the belt adaptive adjusting mechanism (4) for pattern cutting, and the adaptive key (9) is up and down fluctuated according to the flatness of the material to enable the pattern cutting surface of the material to be subjected to flatness adaptation to the pattern cutting knife assembly (5).

9. A self-adaptive squid cutting device as claimed in claim 8, wherein after the materials on the transmission belt (35) pass between the belt self-adaptive adjusting mechanism (4) and the cutting flower knife assembly (5), the adaptive key (9) is reset under the tension of the tension spring (8).

10. An adaptive squid pattern cutting device as claimed in claim 8, wherein the adaptive key (9) is up and down based on the adaptive axis (10) according to the flatness of the material.

Technical Field

The invention relates to the technical field of aquatic product processing, in particular to a self-adaptive squid flower cutting device.

Background

The squid cut flower is processed by cleaning internal organs and epidermis of the squid, so as to facilitate later processing to prepare dishes with different shapes. Because the unevenness on squid surface, traditional cut flower scheme when unevenness's squid passes through the cutter, can't guarantee the homogeneity of cut flower degree of depth to cut the squid easily and pierce through, the cut flower effect is not ideal.

Disclosure of Invention

Therefore, the invention provides a self-adaptive squid cutting device which can adapt to the squid in the cutting process and ensure the depth uniformity of the cut flower.

In order to achieve the above purpose, the invention provides the following technical scheme: a self-adaptive squid pattern cutting device comprises a conveying frame, wherein a transmission mechanism and a cutting tool rest are arranged at the upper end of the conveying frame, the cutting tool rest stretches across the upper end of the conveying frame and is fixed with the side part of the conveying frame, the transmission mechanism comprises a transmission belt, and the transmission belt penetrates through an inner side opening of the cutting tool rest; the automatic flower cutting machine also comprises a belt self-adaptive adjusting mechanism and a flower cutting knife component;

the belt self-adaptive adjusting mechanism is arranged in a belt running gap formed by the conveying belt and comprises an adaptive base, a tension spring, an adaptive key, an adaptive shaft, a tension pulley, a tension shaft and a compression shaft; the tension springs are distributed at the upper end of the adaptive base at intervals, the end parts of the adaptive keys are connected with the top ends of the tension springs, the adaptive shafts penetrate through the side parts of the adaptive keys which are mutually parallel, the adaptive keys penetrate through gaps of the tension wheels which are mutually parallel, the tensioning shafts penetrate through the adaptive keys and the tension wheels, the tail ends of the adaptive keys are positioned below the pressing shafts, and the pressing shafts apply pressure to the tail ends of the adaptive keys so as to tension the tension springs;

the pattern cutting knife assembly comprises an annular outer knife ring, an annular inner knife, a first grooved shaft and a second grooved shaft; the inner edges of the annular outer cutter rings are arranged in the annular grooves of the first grooved shaft and the second grooved shaft, the annular inner cutters, the first grooved shaft and the second grooved shaft are distributed in the annular outer cutter rings in a triangular shape, and the blade points of the annular inner cutters pass through the gaps between the two adjacent annular outer cutter rings;

the conveying belt penetrates through a gap between the belt self-adaptive adjusting mechanism and the pattern cutting knife assembly, and materials on the conveying belt are pressed on the belt self-adaptive adjusting mechanism by the pattern cutting knife assembly.

As the preferred scheme of self-adaptation squid cut-flower device, the adaptation axle is located the eccentric position of adaptation key, the tensioning axle is in between adaptation axle and the compress tightly axle, the tensioning axle is also located the eccentric position of adaptation key.

As a preferred scheme of the self-adaptive squid pattern cutting device, the side part of the cutter frame is connected with a crank throw part, and a groove is formed in the middle of the crank throw part; the center of the annular inner cutter is connected with an inner cutter shaft, and the end part of the inner cutter shaft is connected with the groove position of the crank throw piece through a bearing piece; an adjusting strip hole is formed in the side portion of the cutter frame, the end portion of the pressing shaft extends out of the adjusting strip hole, and a first adjusting bolt is connected between the end portion of the pressing shaft and the crank throw piece.

As the preferred scheme of self-adaptation squid cut-flower device, pass through second adjusting bolt fixed connection between the both sides of adaptation base and the carriage.

As a preferred scheme of the self-adaptive squid pattern cutting device, one side of the transmission belt is provided with a feeding disc, the other side of the transmission belt is provided with a discharging disc, and the feeding disc and the discharging disc are both fixedly connected with the conveying frame; and a water receiving tray is further arranged below the conveying belt and fixed on the inner side of the conveying frame.

As a preferred scheme of the self-adaptive squid pattern cutting device, the inner side of the conveying frame is connected with a driving motor, the side part of the cutter frame is connected with a first switching chain wheel pair, and the side part of the conveying frame is connected with a second switching chain wheel pair and a third switching chain wheel pair; the driving motor is connected with the first transfer sprocket pair through a first chain, and the first transfer sprocket pair and the end gear of the annular inner cutter are connected with a second chain; the driving motor is connected with the second switching chain wheel pair through a third chain, and a fourth chain is connected among the second switching chain wheel pair, the first grooved shaft and the second grooved shaft; and the third switching chain wheel pair is meshed with the end gear of the second switching chain wheel pair, and a fifth chain is connected between the third switching chain wheel pair and the driving shaft of the transmission belt.

As the preferred scheme of self-adaptation squid cut-flower device, a plurality of form annular sword section of thick bamboo between the outer cutter ring of annular, annular sword section of thick bamboo passes through first slotted axle and second slotted axle support.

As the preferred scheme of self-adaptation squid cut flower device, work as material on the transmission belt passes through when belt self-adaptation adjustment mechanism and cut flower sword subassembly between, the cut flower sword subassembly will be in material on the transmission belt compress tightly in belt self-adaptation adjustment mechanism carries out the cut flower, the adaptation key is undulant about the roughness of material so that the cut flower of material carries out the roughness adaptation to the cut flower sword subassembly.

As the preferred scheme of self-adaptation squid cut flower device, work as material on the transmission belt passes through behind belt self-adaptation adjustment mechanism and the cut flower sword subassembly, the adaptation key resets under the pulling force of extension spring.

As the preferred scheme of self-adaptation squid cut-flower device, the adaptation key is according to the roughness of material with the adaptation axle is the fluctuation from top to bottom as the baseline.

The belt self-adaptive adjusting mechanism is arranged in a belt running gap formed by a conveying belt and is provided with an adaptive base, a tension spring, an adaptive key, an adaptive shaft, a tension pulley, a tension shaft and a compression shaft; the tension springs are distributed at the upper end of the adaptive base at intervals, the end parts of the adaptive keys are connected with the top ends of the tension springs, the adaptive shafts penetrate through the side parts of the adaptive keys which are mutually parallel, the adaptive keys penetrate through gaps of the tension wheels which are mutually parallel, the tension shafts penetrate through the adaptive keys, the tension shafts penetrate through the tension wheels, the tail ends of the adaptive keys are positioned below the compression shafts, and the compression shafts apply pressure to the tail ends of the adaptive keys so as to tension the tension springs; the pattern cutting knife assembly is provided with an annular outer knife ring, an annular inner knife, a first grooved shaft and a second grooved shaft; the inner edges of the annular outer cutter rings are arranged in annular grooves of the first grooved shaft and the second grooved shaft, the annular inner cutter, the first grooved shaft and the second grooved shaft are distributed in the annular outer cutter rings in a triangular shape, and the cutter points of the annular inner cutter pass through the gaps between two adjacent annular outer cutter rings; the conveying belt penetrates through a gap between the belt self-adaptive adjusting mechanism and the pattern cutting knife assembly, and materials on the conveying belt are tightly pressed on the belt self-adaptive adjusting mechanism by the pattern cutting knife assembly. The squid flatness adjusting device can adapt to the flatness of the squid cut-flower surface, and the squid has flexibility, so that the convex part can be sunken downwards along with the adaptive key, the squid cut-flower surface always has consistent flatness, and the annular inner cutter can ensure that the squid cut-flower surface can be scratched with even cut-flower depth.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so that those skilled in the art can understand and read the present invention, and do not limit the conditions for implementing the present invention, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the functions and purposes of the present invention, should still fall within the scope of the present invention.

Fig. 1 is a schematic perspective view of an adaptive squid cutting device provided in an embodiment of the present invention;

fig. 2 is a schematic structural view of the adaptive squid pattern cutting device provided in the embodiment of the present invention after the transmission belt is removed;

fig. 3 is a schematic diagram of a belt adaptive adjustment mechanism shown in an emphasis point in an adaptive squid pattern cutting device provided in an embodiment of the present invention;

fig. 4 is a schematic view of a flower cutter assembly of the adaptive squid cutting device provided in the embodiment of the present invention;

FIG. 5 is a schematic view of the arrangement of the inner annular cutter, the first grooved shaft and the second grooved shaft in the cutting blade assembly provided in an embodiment of the present invention;

fig. 6 is a schematic view of a driving part of an adaptive squid cutting device provided in an embodiment of the present invention.

In the figure: 1. a carriage; 2. a transport mechanism; 3. a cutter frame; 4. a belt self-adaptive adjusting mechanism; 5. a cutting flower knife assembly; 6. a belt running clearance; 7. an adaptive base; 8. a tension spring; 9. an adaptive key; 10. an adaptive shaft; 11. a tension wheel; 12. tensioning the shaft; 13. a pressing shaft; 14. an annular outer cutter ring; 15. an annular inner cutter; 16. a first slotted shaft; 17. a second grooved shaft; 18. a feed tray; 19. a discharging tray; 20. a water pan; 21. a drive motor; 22. a first transfer sprocket set; 23. a second switching chain wheel pair; 24. a third switching chain wheel pair; 25. a first chain; 26. a second chain; 27. a third chain; 28. a fourth chain; 29. a fifth chain; 30. a bell crank member; 31. an inner cutter shaft; 32. adjusting the bar holes; 33. a first adjusting bolt; 34. a second adjusting bolt; 35. a transfer belt.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Taking a common piano as an example, a soft planar medium is laid on the keys of the piano, and if the surface of the planar medium is uneven and has a raised position, a planar object is applied to the upper part of the planar medium, the raised part is pressed down along with the piano keys, and the surface of the planar medium is in a flat state. That is, if the surface of a planar soft object is uneven, but the supporting region is selectively depressed or depressed like a piano key, the surface of the planar soft object with uneven surface can be flattened by applying a uniform force. The technical idea and the bright spots of the invention can be more conveniently understood based on the physical phenomenon.

Referring to fig. 1 and 2, a self-adaptive squid pattern cutting device is provided, which comprises a conveying frame 1, wherein a conveying mechanism 2 and a cutting tool rest 3 are arranged at the upper end of the conveying frame 1, the cutting tool rest 3 spans the upper end of the conveying frame 1 and is fixed with the side part of the conveying frame 1, the conveying mechanism 2 comprises a conveying belt 35, and the conveying belt 35 penetrates through an inner side through hole of the cutting tool rest 3; the automatic belt adjustment device further comprises a belt self-adaptive adjustment mechanism 4 and a cutter assembly 5.

Referring to fig. 3, the belt self-adaptive adjusting mechanism 4 is arranged in a belt running gap 6 formed by the conveying belt 35, and the belt self-adaptive adjusting mechanism 4 comprises an adaptive base 7, a tension spring 8, an adaptive key 9, an adaptive shaft 10, a tension pulley 11, a tension shaft 12 and a compression shaft 13; the tension springs 8 are distributed at the upper end of the adaptive base 7 at intervals, the end parts of the adaptive keys 9 are connected with the top ends of the tension springs 8, the adaptive shafts 10 penetrate through the side parts of the adaptive keys 9 which are mutually parallel, the adaptive keys 9 penetrate through gaps of the tension wheels 11 which are mutually parallel, the tension shafts 12 penetrate through the adaptive keys 9, the tension shafts 12 further penetrate through the tension wheels 11, the tail ends of the adaptive keys 9 are positioned below the compression shafts 13, and the compression shafts 13 apply pressure to the tail ends of the adaptive keys 9 to enable the tension springs 8 to be tensioned. Although the adaptive shaft 10 and the tensioning shaft 12 are inserted between the adaptive keys 9, the adaptive keys 9 are independent and can move downwards locally under the action of pressure, so that the adaptive keys are adaptive to unevenness of the surface of the squid, and the smooth cut surface is ensured.

Referring to fig. 4 and 5, the cutting flower knife assembly 5 includes an annular outer knife ring 14, an annular inner knife 15, a first grooved shaft 16 and a second grooved shaft 17; the inner edges of the annular outer cutter rings 14 are arranged in annular grooves of the first grooved shaft 16 and the second grooved shaft 17, the annular inner cutters 15, the first grooved shaft 16 and the second grooved shaft 17 are distributed in the annular outer cutter rings 14 in a triangular shape, and the blade points of the annular inner cutters 15 pass through the gaps between two adjacent annular outer cutter rings 14; the conveying belt 35 passes through the gap between the belt self-adaptive adjusting mechanism 4 and the cutter assembly 5, and the material on the conveying belt 35 is pressed on the belt self-adaptive adjusting mechanism 4 by the cutter assembly 5. An annular cutter cylinder is formed between the annular outer cutter rings 14 and is supported by the first grooved shaft 16 and the second grooved shaft 17. When the material on the transmission belt 35 passes through between the belt self-adaptive adjusting mechanism 4 and the pattern cutting knife assembly 5, the pattern cutting knife assembly 5 compresses the material on the transmission belt 35 to the belt self-adaptive adjusting mechanism 4 for pattern cutting, and the adaptive key 9 fluctuates up and down according to the flatness of the material so that the pattern cutting face of the material adapts to the flatness of the pattern cutting knife assembly 5. When the materials on the transmission belt 35 pass through the position between the belt self-adaptive adjusting mechanism 4 and the pattern cutting knife assembly 5, the adaptive key 9 resets under the tension of the tension spring 8. The adaptive key 9 fluctuates up and down by taking the adaptive shaft 10 as a base line according to the flatness of the material.

Specifically, the adaptive shaft 10 is located at an eccentric position of the adaptive key 9, the tensioning shaft 12 is located between the adaptive shaft 10 and the pressing shaft 13, and the tensioning shaft 12 is also located at the eccentric position of the adaptive key 9. Adaptation axle 10 and tensioning shaft 12 all adopt eccentric design, adaptation key 9 one side is pushed down through pressing shaft 13, thereby the other end of adaptation key 9 is in the state of tensile extension spring 8, can move down when adaptation key 9 pushes down, remove the pressure to adaptation key 9, adaptation key 9 can reset under extension spring 8's effect, thereby it can push down like the piano button to reach local adaptation key 9, in order to guarantee to adapt to unevenness's squid piece, the face of cutting flower that makes the squid is in the leveling condition.

Specifically, a feeding disc 18 is arranged on one side of the transmission belt 35, a discharging disc 19 is arranged on the other side of the transmission belt 35, and the feeding disc 18 and the discharging disc 19 are both fixedly connected with the conveying frame 1; a water pan 20 is further arranged below the conveying belt 35, and the water pan 20 is fixed on the inner side of the conveying frame 1. The feeding plate 18 is used for adding the squid slices to the transmission belt 35, and the squid slices after the cut flower are discharged through the discharging plate 19, and simultaneously can be fed in again, through adjusting the squid slice feeding angle, the squid slices are cut flower again and are processed, and the residual moisture produced in the cutting flower process falls into the water receiving plate 20 to be collected and discharged.

Specifically, referring to fig. 1, 2 and 6, the inner side of the conveying frame 1 is connected with a driving motor 21, the side of the cutting frame 3 is connected with a first switching sprocket pair 22, and the side of the conveying frame 1 is connected with a second switching sprocket pair 23 and a third switching sprocket pair 24; the driving motor 21 is connected with the first transfer chain wheel pair 22 through a first chain 25, and a second chain 26 is connected with the first transfer chain wheel pair 22 and the end gear of the annular inner knife 15; the driving motor 21 is connected with the second switching chain wheel pair 23 through a third chain 27, and a fourth chain 28 is connected among the second switching chain wheel pair 23, the first grooved shaft 16 and the second grooved shaft 17; the third transfer sprocket pair 24 is engaged with the end gear of the second transfer sprocket pair 23, and a fifth chain 29 is connected between the third transfer sprocket pair 24 and the driving shaft of the transmission belt 35. Drive motor 21 drives first switching sprocket pair 22 through first chain 25, first switching sprocket pair 22 drives annular inner cutter 15 through second chain 26, drive motor 21 drives second switching sprocket pair 23 through third chain 27 simultaneously, second switching sprocket pair 23 drives first slotted shaft 16 and second slotted shaft 17 through fourth chain 28 in proper order, second switching sprocket pair 23 drives third switching sprocket pair 24 simultaneously, third switching sprocket pair 24 drives transmission belt 35 through fifth chain 29. The overall operation only adopts one driving motor 21 through the overall arrangement, guarantees the stability of squid piece process cut-flower that marchs.

In one embodiment of the self-adaptive squid pattern cutting device, the side part of the cutter frame 3 is connected with a crank member 30, and the middle part of the crank member 30 is provided with a groove; the center of the annular inner cutter 15 is connected with an inner cutter shaft 31, and the end part of the inner cutter shaft 31 is connected with the groove position of the crank throw member 30 through a bearing member; the side of the cutter holder 3 is also formed with an adjusting bar hole 32, the end of the pressing shaft 13 extends out of the adjusting bar hole 32, and a first adjusting bolt 33 is connected between the end of the pressing shaft 13 and the crank member 30. The height of the position of the pressing shaft 13 can be adjusted through the first adjusting bolt 33, so that the pressing force of the adaptive key 9 can be changed. The two sides of the adaptive base 7 are fixedly connected with the conveying frame 1 through second adjusting bolts 34. The second adjusting bolt 34 can adjust the height of the adaptive base 7, and the first adjusting bolt 33 and the second adjusting bolt 34 are matched to enable the belt adaptive adjusting mechanism 4 and the pattern cutting knife assembly 5 to be in the optimal pattern cutting state after a limited number of adjustment tests.

The belt self-adaptive adjusting mechanism 4 is arranged in a belt running gap 6 formed by a conveying belt 35, and the belt self-adaptive adjusting mechanism 4 is provided with an adaptive base 7, a tension spring 8, an adaptive key 9, an adaptive shaft 10, a tension pulley 11, a tension shaft 12 and a compression shaft 13; the tension springs 8 are distributed at the upper end of the adaptive base 7 at intervals, the end parts of the adaptive keys 9 are connected with the top ends of the tension springs 8, the adaptive shafts 10 penetrate through the side parts of the adaptive keys 9 which are mutually parallel, the adaptive keys 9 penetrate through gaps of the tension wheels 11 which are mutually parallel, the tension shafts 12 penetrate through the adaptive keys 9, the tension shafts 12 further penetrate through the tension wheels 11, the tail ends of the adaptive keys 9 are positioned below the compression shafts 13, and the compression shafts 13 apply pressure to the tail ends of the adaptive keys 9 to enable the tension springs 8 to be tensioned; the pattern cutting knife component 5 is provided with an annular outer knife ring 14, an annular inner knife 15, a first grooved shaft 16 and a second grooved shaft 17; the inner edges of the annular outer cutter rings 14 are arranged in annular grooves of a first grooved shaft 16 and a second grooved shaft 17, the annular inner cutters 15, the first grooved shaft 16 and the second grooved shaft 17 are distributed in the annular outer cutter rings 14 in a triangular shape, and the blade points of the annular inner cutters 15 pass through the gaps between two adjacent annular outer cutter rings 14; the conveying belt 35 passes through the gap between the belt self-adaptive adjusting mechanism 4 and the cutter assembly 5, and the materials on the conveying belt 35 are pressed on the belt self-adaptive adjusting mechanism 4 by the cutter assembly 5. The squid flatness adaptation device can adapt to the flatness of the squid cut-flower surface, and the squid has flexibility, so that the convex part can be sunken downwards along with the adaptation key 9, the squid cut-flower surface always has consistent flatness, and the annular inner cutter 15 can ensure that the squid cut-flower surface can be scratched with even cut-flower depth.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.