CN113693121A

CN113693121A - Shrimp processing conveyor and shell shrimp machine

Info

Publication number: CN113693121A
Application number: CN202110980873.3A
Authority: CN
Inventors: 凌浩然; 吕小波
Original assignee: Hubei Kefeng Intelligent Transmission Co Ltd
Current assignee: Hubei Kefeng Intelligent Transmission Co Ltd
Priority date: 2021-08-25
Filing date: 2021-08-25
Publication date: 2021-11-26

Abstract

The invention discloses a shrimp processing and conveying device and a shrimp peeling machine, which comprise a vibrating disk assembly, a base frame, a feeding belt assembly, a separating belt assembly, a slide way assembly, a material receiving assembly and a material returning belt assembly, wherein the vibrating disk assembly comprises a vibrating disk bracket, an upper vibrating disk and a lower vibrating disk, the feeding belt assembly comprises an upper feeding belt assembly and a lower feeding belt assembly which are arranged side by side up and down and horizontally, one end of the feeding belt assembly is connected to the upper vibrating disk assembly, and the other end of the feeding belt assembly is connected to the upper side and the lower side of the material receiving assembly; the material returning belt group comprises a horizontal belt section and a climbing belt section, one end of the horizontal belt section is located under the material returning port, the other end of the horizontal belt section is located over the climbing belt section, and the other end of the climbing belt section is located above the lower vibration disc. The invention designs a complete automatic head-tail separation and separation conveying line, realizes automatic production, can effectively reduce the labor intensity of workers and improve the efficiency.

Description

Shrimp processing conveyor and shell shrimp machine

Technical Field

The invention relates to the technical field of shrimp conveying, in particular to a shrimp processing and conveying device and a shrimp peeling machine.

Background

With the continuous improvement of the living standard of people, the favor of consumers to shrimp products with high protein and high nutrition is also continuously improved.

In the prior art, the shrimp body is complex in structure, directional feeding and discharging are not easy to perform in production, so that most production processes mainly adopt a pure manual mode, a large amount of scattered shrimp bodies on a production line are uniformly placed by workers, the labor intensity of the method is high, the labor cost is high, the production efficiency and quality are affected, and the automatic development of shrimp processing is not facilitated.

In order to meet the requirement of rapid processing of shrimps, in the process of automatic processing of the shrimps, various processing mechanisms on a production line are needed to realize the automatic mechanical processing of clearing, sorting, head-tail separation, single freezing and the like of the shrimps one by one, and in the head-tail separation processing link of the shrimps, a large amount of scattered shrimps on the production line are required to be placed on a feeding conveying belt uniformly and at intervals to realize the independent visual identification of each shrimp, so that the head-tail separation mechanism is driven to perform rapid picking and separation, and the separated shrimps are conveyed to a corresponding material channel; and for shrimps which cannot be identified, the shrimps need to be returned to the starting position of the conveyor line body for re-placement, and then are conveyed again to be identified by the visual camera for re-separation operation.

Therefore, a shrimp processing and conveying device needs to be designed to meet the rapid requirement of automatic processing of the existing shrimps.

Disclosure of Invention

In order to solve the defects of the prior art, the invention provides a shrimp processing and conveying device, which comprises a vibrating disk assembly, a base frame positioned on one side of the vibrating disk assembly, a feeding belt group and a separating belt group connected on the base frame, a slide way assembly and a receiving component positioned on one side of the base frame, and a returning belt group connected on the base frame,

the vibration disk assembly comprises a vibration disk bracket, an upper vibration disk and a lower vibration disk which are positioned on the vibration disk bracket,

the feeding belt group comprises an upper feeding belt group and a lower feeding belt group which are arranged side by side up and down and horizontally, one end of the same side of the upper feeding belt group and the lower feeding belt group is respectively and correspondingly connected to the upper vibrating disc and the lower vibrating disc, and the other end of the same side of the upper feeding belt group and the lower feeding belt group is respectively and correspondingly connected to the upper side and the lower side of the material receiving component;

the separation belt group comprises an upper separation belt group and a lower separation belt group which are horizontally arranged side by side with the upper feeding belt group and the lower feeding belt group respectively,

an upper feed port and a lower feed port are respectively formed in one side, close to the feeding belt group, of the material receiving component, a return port is further formed in the bottom of the material receiving component, and the return port is close to one side of the return belt group;

the feeding belt group is including being located horizontal belt section of feeding belt group below down with be located the climbing belt section of vibration dish subassembly one side, the one end of horizontal belt section is located under the material returning mouth, the other end is located directly over the one end of climbing belt section, the other end of climbing belt section is located the top of vibration dish down.

Optionally, the base frame comprises a lower base frame, an upper base frame and a top support which are sequentially stacked and connected upwards, the left side and the right side of the lower base frame along the vertical direction are respectively provided with a first cross beam, a second cross beam and a third cross beam, the left side and the right side of the upper base frame along the vertical direction are respectively provided with a fourth cross beam and a fifth cross beam,

the two ends of the horizontal belt section are placed on the first cross beam, the two ends of the lower feeding belt group and the lower separation belt group are connected to the second cross beam, and the two ends of the upper feeding belt group and the lower separation belt group are connected to the fourth cross beam.

Optionally, the upper feeding belt set includes a first motor, a first conveyor line body, a first belt line baffle, and a first connecting plate, the first motor is installed on one side of the first belt line baffle and is adapted to drive the first conveyor line body to move, and the first connecting plate is connected to a lower surface of the first conveyor line body;

the lower feeding belt group comprises a second motor, a second conveyor line body, a second belt line baffle and a second connecting plate, the second motor is installed on one side of the second belt line baffle and is suitable for driving the second conveyor line body to move, and the second connecting plate is connected to the lower surface of the second conveyor line body.

Optionally, one end of the upper separation belt set, which is far away from the upper vibration disc, is connected to the upper end of the slide assembly, the upper separation belt set includes a third motor, a third conveyor line body, a third belt line baffle, a third connecting plate, and a first material guide partition plate, the third motor is installed on one side of the third conveyor line body and one side of the third belt line baffle, and is adapted to drive the third conveyor line body to move, and the third connecting plate is connected to the lower surface of the third conveyor line body;

one end, far away from the lower vibration disc, of the lower separation belt set is connected with the lower end of the slide way assembly, the lower separation belt set comprises a fourth motor, a fourth conveying line body, a fourth belt line baffle, a fourth connecting plate and a second material guide partition plate, the fourth motor is installed on one side of the fourth conveying line body and one side of the fourth belt line baffle and is suitable for driving the fourth conveying line body to move, and the fourth connecting plate is connected to the lower surface of the fourth conveying line body.

Optionally, the slide assembly includes an upper slide and a lower slide, the upper slide is suitable for being connected to one end of the third conveyor line body and one end of the first material guiding partition plate, which are far away from the upper vibration disk, and the lower slide is suitable for being connected to one end of the fourth conveyor line body and one end of the second material guiding partition plate, which are far away from the lower vibration disk.

Optionally, the upper chute comprises a first shrimp head chute and a first shrimp tail chute, the first material guide partition plate divides the upper surface of the third conveyor line into a first shrimp head conveyor channel and a first shrimp tail conveyor channel, the first shrimp head chute is connected with the tail end of the first shrimp head conveyor channel, and the first shrimp tail chute is connected with the tail end of the first shrimp tail chute;

the lower slideway comprises a second shrimp head slideway and a second shrimp tail slideway, the second guide division plate divides the upper surface of the fourth conveying line body into a second shrimp head conveying channel and a second shrimp tail conveying channel, the second shrimp head slideway is connected with the tail end of the second shrimp head conveying channel, and the second shrimp tail slideway is connected with the tail end of the second shrimp tail conveying channel.

Optionally, the first shrimp head slideway is communicated with the second shrimp head slideway, and an inclined slideway is further arranged at the tail end of the second shrimp head slideway.

Optionally, baffles are uniformly arranged inside the material receiving component.

Optionally, go up the vibration dish with vibration dish all is equipped with two down, two go up vibration dish and two the outer circumference department that vibration dish pressed close to each other respectively down all is equipped with the discharge gate, the discharge gate slope sets up downwards, just the terminal butt of discharge gate is in on the feeding belt group.

Compared with the prior art, the invention at least has the following beneficial effects:

1. the processing and conveying device and the vibrating disc assembly are arranged, so that shrimps can be placed on the conveying line body uniformly before being subjected to head-tail separation processing, the situation that a plurality of shrimps to be processed are stacked mutually to influence the identification of a subsequent visual identification device is avoided, the head-tail separation processing cannot be completed correctly, the subsequent automatic processing of the shrimps is not facilitated, and finally the processing and treatment effect on the shrimps is poor;

2. the automatic processing and conveying device can save sorting labor, and can greatly facilitate real-time and accurate data acquisition of shrimp head-tail separation and sorting, so that the accuracy of data acquisition is improved;

3. the automatic shrimp head and tail separating and sorting conveyor line is formed, shrimps can be automatically transferred to the head and tail separating work position and the shrimp head and shrimp tail shunting and collecting work position from the feeding work position, so that the shrimps are shunted and collected from the feeding work position, the head and tail separating work position and the shrimp head and shrimp tail shunting and collecting work position, the automatic production is realized, and the labor intensity of workers can be effectively reduced.

The invention also provides a shrimp peeling machine which comprises the shrimp processing and conveying device.

The beneficial effects of the shrimp peeling machine and the shrimp processing and conveying device in the embodiment of the invention are the same, and are not described again.

Drawings

FIG. 1 is a schematic three-dimensional structure diagram of a shrimp processing and conveying device in an embodiment of the invention;

FIG. 2 is a schematic front view of the shrimp processing and conveying device in the embodiment of the invention;

FIG. 3 is a schematic structural diagram of a base frame according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a feeding belt set in an embodiment of the present invention;

FIG. 5 is a schematic view of a connection structure of the separation belt set and the chute assembly in an embodiment of the invention;

FIG. 6 is a schematic view of a chute assembly according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a material receiving component in the embodiment of the invention;

FIG. 8 is a schematic structural view of a vibratory plate assembly according to an embodiment of the invention.

Description of reference numerals:

1-a vibratory tray assembly, 11-a vibratory tray support, 12-an upper vibratory tray, 13-a lower vibratory tray, 14-a discharge port, 142-a base frame, 21-a lower base frame, 211-a first beam, 212-a second beam, 213-a third beam, 22-an upper base frame, 221-a fourth beam, 222-a fifth beam, 23-a top support, 3-a feeding belt set, 31-an upper feeding belt set, 311-a first conveyor belt body, 312-a first belt line baffle, 313-a first connecting plate, 32-a lower feeding belt set, 321-a second conveyor belt body, 322-a second belt line baffle, 323-a second connecting plate 4114-a separating belt set, 41-an upper separating belt set, 411-a third conveyor belt body, 1-a first shrimp head conveying passage, 4112-a first shrimp tail conveying channel, 412-a third belt line baffle, 413-a third connecting plate, 414-a first guide separating plate, 42-a lower separating belt group, 421-a fourth conveying line body, 4211-a second shrimp head conveying channel, 4212-a second shrimp tail conveying channel, 422-a fourth belt line baffle, 423-a fourth connecting plate, 424-a second guide separating plate, 5-a slide way component, 51-an upper slide way, 511-a first shrimp head slide way, 512-a first shrimp tail slide way, 52-a lower slide way, 521-a second shrimp head slide way, 5211-an inclined slide way, 522-a second shrimp tail slide way, 6-a material receiving component, 61-an upper material inlet, 62-a lower material inlet, 63-a material returning opening, 64-a baffle, 7-a material returning belt group, 71-horizontal belt section, 72-climbing belt section.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. 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.

In the description of the present invention, it should be noted that the terms "first", "second", and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, or may be communicated with each other inside the two elements, or may be wirelessly connected or wired connected. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In order to solve the above problems, fig. 1-8 show a shrimp processing and conveying device provided by an embodiment of the present invention, which includes a vibration tray assembly 1, a base frame 2 located on one side of the vibration tray assembly 1, a feeding belt assembly 3 and a separating belt assembly 4 connected to the base frame 2, a chute assembly 5 and a receiving member 6 located on one side of the base frame 2, and a returning belt assembly 7 connected to the base frame 2,

vibratory pan assembly 1 includes a vibratory pan support 11 and upper and lower

vibratory pans

12 and 13 on vibratory pan support 11,

the feeding belt group 3 comprises an upper feeding belt group 31 and a lower feeding belt group 32 which are arranged side by side up and down and horizontally, one end of the same side of the upper feeding belt group 31 and the lower feeding belt group 32 is respectively and correspondingly connected to the upper vibrating disc 12 and the lower vibrating disc 13, and the other end of the same side of the upper feeding belt group 31 and the lower feeding belt group 32 is respectively and correspondingly connected to the upper side and the lower side of the material receiving part 6;

the separation belt group 4 includes an upper separation belt group 41 and a lower separation belt group 42 which are horizontally arranged side by side with the upper feeding belt group 31 and the lower feeding belt group 32 respectively,

an upper feed port 61 and a lower feed port 62 are respectively arranged on one side of the material receiving component 6 close to the feeding belt group 3, a material returning port 63 is also arranged at the bottom of the material receiving component 6, and the material returning port 63 is close to one side of the material returning belt group 7;

the material returning belt group 7 comprises a horizontal belt section 71 located below the lower feeding belt group 32 and a climbing belt section 72 located on one side of the vibration disc assembly 1, one end of the horizontal belt section 71 is located under the material returning port 63, the other end of the horizontal belt section is located over one end of the climbing belt section 72, and the other end of the climbing belt section 72 is located over the lower vibration disc 13.

Specifically, referring to fig. 2 and 3, in the embodiment of the present invention, the base frame 2 includes a lower base frame 21, an upper base frame 22 and a top bracket 23 stacked and connected in sequence, a first beam 211, a second beam 212 and a third beam 213 are respectively disposed on left and right sides of the lower base frame 21 along the vertical direction, a fourth beam 221 and a fifth beam 222 are respectively disposed on left and right sides of the upper base frame 22 along the vertical direction,

both ends of the horizontal belt section 71 rest on the first cross beam 211, both ends of the lower feeding belt group 32 and the lower separation belt group 42 are connected to the second cross beam 212, and both ends of the upper feeding belt group 31 and the upper separation belt group 41 are connected to the fourth cross beam 221.

Specifically, referring to fig. 4, in the embodiment of the present invention, the upper feeding belt set 31 includes a first motor, a first conveyor line body 311, a first belt line blocking plate 312 and a first connecting plate 313, the first motor is installed at one side of the first belt line blocking plate 312 and is adapted to drive the first conveyor line body 311 to move, and the first connecting plate 313 is connected to a lower surface of the first conveyor line body 311;

the lower feeding belt set 32 comprises a second motor, a second conveyor line body 321, a second belt line baffle 322 and a second connecting plate 323, the second motor is installed on one side of the second belt line baffle 322 and is suitable for driving the second conveyor line body 321 to move, and the second connecting plate 323 is connected to the lower surface of the second conveyor line body 321.

Specifically, referring to fig. 5, in the embodiment of the present invention, one end of the upper separation belt set 41, which is far away from the upper vibration plate 12, is connected to the upper end of the chute assembly 5, the upper separation belt set 41 includes a third motor, a third conveyor line body 411, a third conveyor line baffle 412, a third connecting plate 413 and a first material guide dividing plate 414, the third motor is installed at one side of the third conveyor line body 411 and the third conveyor line baffle 412 and is adapted to drive the third conveyor line body 411 to move, and the third connecting plate 413 is connected to the lower surface of the third conveyor line body 411;

one end, far away from the lower vibration disc 13, of the lower separation belt group 42 is connected with the lower end of the slide assembly 5, the lower separation belt group 42 comprises a fourth motor, a fourth conveying line body 421, a fourth belt line baffle 422, a fourth connecting plate 423 and a second material guide partition plate 424, the fourth motor is installed on one side of the fourth conveying line body 421 and one side of the fourth belt line baffle 422 and is suitable for driving the fourth conveying line body 421 to move, and the fourth connecting plate 423 is connected to the lower surface of the fourth conveying line body 421.

Specifically, referring to fig. 3 and 5, in the embodiment of the present invention, the chute assembly 5 includes an upper chute 51 and a lower chute 52, the upper chute 51 is adapted to be connected to the third conveyor line body 411 and an end of the first material guiding partition plate 414 away from the upper vibration plate 12, and the lower chute 52 is adapted to be connected to the fourth conveyor line body 421 and an end of the second material guiding partition plate 424 away from the lower vibration plate 13.

Specifically, referring to fig. 5, in an embodiment of the present invention, the upper chute 51 includes a first shrimp head chute 511 and a first shrimp tail chute 512, the first material guiding partition plate 414 divides the upper surface of the third conveyor line 411 into a first shrimp head conveying passage 4111 and a first shrimp tail conveying passage 4112, the first shrimp head chute 511 is connected to the end of the first shrimp head conveying passage 4111, and the first shrimp tail chute 512 is connected to the end of the first shrimp tail chute 512;

the lower chute 52 comprises a second shrimp head chute 521 and a second shrimp tail chute 522, the second guide partition plate 424 divides the upper surface of the fourth conveyor line 421 into a second shrimp head conveying passage 4211 and a second shrimp tail conveying passage 4212, the second shrimp head chute 521 is connected with the tail end of the second shrimp head conveying passage 4211, and the second shrimp tail chute 522 is connected with the tail end of the second shrimp tail conveying passage 4212.

Specifically, referring to fig. 5, in the embodiment of the present invention, the first shrimp head slide 511 is connected to the second shrimp head slide 521, and the end of the second shrimp head slide 521 is further provided with an inclined slide 5211.

Specifically, referring to fig. 7, in the embodiment of the present invention, baffles 64 are uniformly disposed inside the receiving component 6.

Specifically, referring to fig. 8, in the embodiment of the present invention, two upper vibration discs 12 and two lower vibration discs 13 are provided, two discharge ports 14 are provided at the outer circumferences of the two upper vibration discs 12 and the two lower vibration discs 13 respectively close to each other, the discharge ports 14 are arranged obliquely downward, and the ends of the discharge ports 14 abut against the feeding belt set 3.

The embodiment of the invention also provides a shrimp peeling machine which comprises the shrimp processing and conveying device.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the spirit and scope of the present disclosure, and these changes and modifications are intended to be within the scope of the present disclosure.

Claims

1. A shrimp processing and conveying device is characterized by comprising a vibrating disc assembly (1), a base frame (2) positioned on one side of the vibrating disc assembly (1), a feeding belt group (3) and a separating belt group (4) connected to the base frame (2), a slide way assembly (5) and a material receiving component (6) positioned on one side of the base frame (2) and a material returning belt group (7) connected to the base frame (2),

the vibrating disk assembly (1) comprises a vibrating disk bracket (11), an upper vibrating disk (12) and a lower vibrating disk (13) which are positioned on the vibrating disk bracket (11),

the feeding belt group (3) comprises an upper feeding belt group (31) and a lower feeding belt group (32) which are arranged side by side up and down and horizontally, one ends of the upper feeding belt group (31) and one ends of the lower feeding belt group (32) on the same side are respectively and correspondingly connected to the upper vibrating disc (12) and the lower vibrating disc (13), and the other ends of the upper feeding belt group and the lower feeding belt group are respectively and correspondingly connected to the upper side and the lower side of the material receiving component (6);

the separation belt group (4) comprises an upper separation belt group (41) and a lower separation belt group (42) which are horizontally arranged side by side with the upper feeding belt group (31) and the lower feeding belt group (32) respectively,

an upper feeding port (61) and a lower feeding port (62) are respectively formed in one side, close to the feeding belt group (3), of the material receiving component (6), a material returning port (63) is further formed in the bottom of the material receiving component (6), and the material returning port (63) is close to one side of the material returning belt group (7);

return material belt group (7) are including being located horizontal belt section (71) of feeding belt group (32) below down with be located climbing belt section (72) of vibration dish subassembly (1) one side, the one end of horizontal belt section (71) is located under return material mouth (63), the other end is located directly over the one end of climbing belt section (72), the other end of climbing belt section (72) is located the top of vibration dish (13) down.

2. The shrimp processing and conveying device as claimed in claim 1, wherein the base frame (2) comprises a lower base frame (21), an upper base frame (22) and a top support (23) which are sequentially connected in an upward stacking manner, the lower base frame (21) is provided with a first beam (211), a second beam (212) and a third beam (213) along the left and right sides of the vertical direction, the upper base frame (22) is provided with a fourth beam (221) and a fifth beam (222) along the left and right sides of the vertical direction,

the two ends of the horizontal belt section (71) rest on the first cross beam (211), the two ends of the lower feeding belt group (32) and the lower separation belt group (42) are connected to the second cross beam (212), and the two ends of the upper feeding belt group (31) and the lower separation belt group (42) are connected to the fourth cross beam (221).

3. The shrimp processing and conveying device as claimed in claim 1, wherein the upper feeding belt set (31) comprises a first motor, a first conveyor line body (311), a first belt line baffle (312) and a first connecting plate (313), the first motor is installed on one side of the first belt line baffle (312) and is suitable for driving the first conveyor line body (311) to move, and the first connecting plate (313) is connected to the lower surface of the first conveyor line body (311);

the lower feeding belt group (32) comprises a second motor, a second conveyor line body (321), a second belt line baffle (322) and a second connecting plate (323), the second motor is installed on one side of the second belt line baffle (322) and is suitable for driving the second conveyor line body (321) to move, and the second connecting plate (323) is connected to the lower surface of the second conveyor line body (321).

4. The shrimp processing and conveying device as claimed in claim 1, wherein one end of the upper separating belt set (41) far away from the upper vibrating disk (12) is connected with the upper end of the chute assembly (5), the upper separating belt set (41) comprises a third motor, a third conveyor line body (411), a third conveyor line baffle (412), a third connecting plate (413) and a first material guiding and separating plate (414), the third motor is installed at one side of the third conveyor line body (411) and the third conveyor line baffle (412) and is suitable for driving the third conveyor line body (411) to move, and the third connecting plate (413) is connected with the lower surface of the third conveyor line body (411);

one end, far away from the lower vibration disc (13), of the lower separation belt group (42) is connected with the lower end of the slide assembly (5), the lower separation belt group (42) comprises a fourth motor, a fourth conveying line body (421), a fourth belt line baffle (422), a fourth connecting plate (423) and a second material guide separating plate (424), the fourth motor is installed on one side of the fourth conveying line body (421) and one side of the fourth belt line baffle (422) and is suitable for driving the fourth conveying line body (421) to move, and the fourth connecting plate (423) is connected to the lower surface of the fourth conveying line body (421).

5. The shrimp processing conveyor as claimed in claim 4 wherein the chute assembly (5) comprises an upper chute (51) and a lower chute (52), the upper chute (51) is adapted to be connected to the third conveyor line body (411) and the end of the first guide divider plate (414) away from the upper vibrating disk (12), and the lower chute (52) is adapted to be connected to the fourth conveyor line body (421) and the end of the second guide divider plate (424) away from the lower vibrating disk (13).

6. The shrimp processing conveyor as claimed in claim 5 wherein the upper chute (51) comprises a first shrimp head chute (511) and a first shrimp tail chute (512), the first material guiding partition plate (414) divides the upper surface of the third conveyor line body (411) into a first shrimp head conveyor duct (4111) and a first shrimp tail conveyor duct (4112), the first shrimp head chute (511) is connected to an end of the first shrimp head conveyor duct (4111), and the first shrimp tail chute (512) is connected to an end of the first shrimp tail chute (512);

the lower slideway (52) comprises a second shrimp head slideway (521) and a second shrimp tail slideway (522), the upper surface of the fourth conveying line body (421) is divided into a second shrimp head conveying channel (4211) and a second shrimp tail conveying channel (4212) by a second material guide division plate (424), the second shrimp head slideway (521) is connected with the tail end of the second shrimp head conveying channel (4211), and the second shrimp tail slideway (522) is connected with the tail end of the second shrimp tail conveying channel (4212).

7. The shrimp processing and conveying apparatus as claimed in claim 6 wherein the first shrimp head slide (511) is connected to the second shrimp head slide (521), and the second shrimp head slide (521) is further provided with an inclined slide (5211) at its end.

8. The shrimp processing and conveying device as claimed in claim 4, wherein the inside of the receiving part (6) is uniformly provided with a baffle (64).

9. The shrimp processing and conveying device as claimed in claim 8, wherein there are two upper vibrating disks (12) and two lower vibrating disks (13), there are two discharge ports (14) on the outer circumferences of the two upper vibrating disks (12) and the two lower vibrating disks (13) respectively close to each other, the discharge ports (14) are arranged obliquely downwards, and the ends of the discharge ports (14) abut against the feeding belt set (3).

10. A shrimp peeling machine comprising the shrimp processing conveyor as claimed in any one of claims 1 to 9.