CN117469913A

CN117469913A - Aquatic product refrigerating and conveying device

Info

Publication number: CN117469913A
Application number: CN202311766624.XA
Authority: CN
Inventors: 蒋咏梅
Original assignee: Rudong Xinmiao Food Machinery Co ltd
Current assignee: Rudong Xinmiao Food Machinery Co ltd
Priority date: 2023-12-21
Filing date: 2023-12-21
Publication date: 2024-01-30

Abstract

The invention belongs to the technical field of refrigeration, and particularly relates to an aquatic product refrigeration conveying device, which comprises a refrigerator outer wall, a transmission device, a state exchange device and a conveying device, wherein the transmission device and the state exchange device are arranged on the refrigerator outer wall, the conveying device is arranged on the state exchange device, the transmission device is meshed with the conveying device, other devices are arranged on the refrigerator outer wall and divide the refrigerator and the outside, the transmission device provides power for the conveying device, then the conveying device drives a product to be refrigerated to move into the refrigerator, then the product is frozen along with the product and then falls into the refrigerator from the conveying device, and then the conveying device is pushed out of the refrigerator by changing the transmission of the transmission device and the conveying device by the state exchange device, so that the product is refrigerated independently in batches and refrigerated.

Description

Aquatic product refrigerating and conveying device

Technical Field

The invention belongs to the technical field of refrigeration, and particularly relates to an aquatic product refrigeration conveying device.

Background

With the improvement of life quality, the things we eat become various, and seafood and inland water products without land can be eaten at will, but the products all need to be refrigerated and fresh-keeping.

Then, some products need to be frozen separately to avoid adhesion, and most of the products are finished by manual operation, which is time-consuming and labor-consuming.

Disclosure of Invention

The invention aims to provide an aquatic product refrigerating and conveying device, which aims to solve the technical problem that products are refrigerated and refrigerated independently in batches.

In order to achieve the above purpose, the aquatic product refrigerating and conveying device comprises a refrigerating outer wall, a transmission device, a state exchange device and a conveying device, wherein the transmission device and the state exchange device are arranged on the refrigerating outer wall, the conveying device is arranged on the refrigerating outer wall and the state exchange device, and the transmission device is meshed with the conveying device.

Further, the refrigerator outer wall includes storehouse wall, first mounting groove, second mounting groove, first installation chamber and first through hole, be equipped with first mounting groove, second mounting groove, first installation chamber and first through hole on the storehouse wall, first mounting groove and second mounting groove, first installation chamber intercommunication, first installation chamber and first through hole intercommunication, transmission sets up inside first mounting groove and second mounting groove, state change device sets up inside first installation chamber, conveyer is at first through downthehole reciprocating motion, conveyer sets up on the storehouse wall.

Further, one side of the wall without the opening end of the second installation groove is arranged in the refrigerator.

Further, transmission includes servo motor, band pulley group, first gear train and second gear train, servo motor and band pulley group connect, first gear train and second gear train are connected through two band pulley groups, servo motor sets up inside the second mounting groove, the band pulley group sets up inside first mounting groove, the inside of first mounting groove is equipped with first gear train and second gear train, first gear train, second gear train and conveyer meshing, first gear train and second gear train are at the inside slip of state change device.

Further, the number of the belt pulley groups is two, and the servo motor is connected with one belt pulley group.

Further, the state change device comprises a mounting bolt, a sliding plate, a first sliding groove, a first spring, a second sliding groove, a third sliding groove and a sliding mounting hole, wherein the sliding plate is arranged on the mounting bolt through the first sliding groove, the first spring is arranged between the first sliding groove and the mounting bolt, the second sliding groove, the third sliding groove and the sliding mounting hole are formed in the sliding plate, the second sliding groove, the third sliding groove and the sliding mounting hole are communicated, the mounting bolt and the sliding plate are arranged in a first mounting cavity, the first gear set slides in the second sliding groove, the second gear set slides in the third sliding groove, and the conveying device is arranged on the sliding mounting hole.

Further, the number of the mounting bolts and the number of the first springs are two.

Further, conveyer includes transfer board, blowing hole, installation spacing chamber, discharging equipment, control emission rack, promote strip, first flank of tooth, second flank of tooth and sliding tray, the transfer board is equipped with blowing hole and installation spacing chamber, blowing hole and installation spacing chamber intercommunication, discharging equipment passes through installation spacing chamber setting inside the transfer board, control emission rack is through connecting on the storehouse wall that the high setting was in the freezer, control emission rack is used for with discharging equipment meshing, the both sides of transfer board all are equipped with the promote strip, be equipped with first flank of tooth and second flank of tooth on the promote strip, transfer board and promote strip setting are on the sliding mounting hole, first flank of tooth and second gear set meshing, second flank of tooth and first gear set meshing are equipped with the sliding tray on the promote strip that the control emission rack corresponds the end, the inside discharging equipment that is provided with of sliding tray.

Further, discharging equipment includes threaded rod, drive gear, L shape internal thread movable block, impeller and arc reset spring, be equipped with drive gear, L shape internal thread movable block and impeller on the threaded rod, the both ends of threaded rod are arranged in respectively to the quantity of impeller, the impeller is equipped with arc reset spring, the inside threaded rod, L shape internal thread movable block, piece impeller and the arc reset spring of being equipped with of installation spacing intracavity, drive gear sets up inside the sliding tray.

Further, the first tooth surface and the second tooth surface are asymmetric.

The invention has the advantages that:

according to the invention, other devices are arranged on the outer wall of the refrigerator, the refrigerator and the outside are divided, the transmission device provides power for the transmission device, then the transmission device drives a product to be refrigerated to move into the refrigerator, then the product falls into the refrigerator from the transmission device along with the refrigeration of the product, and then the transmission device is changed by the state change device and the transmission of the transmission device to push the transmission device out of the refrigerator, so that the product is refrigerated and refrigerated independently in batches.

Drawings

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

FIG. 2 is a schematic diagram of the overall structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the overall structure of the present invention;

FIG. 4 is a schematic cross-sectional view of the overall structure of the present invention;

FIG. 5 is a schematic view of the enlarged partial structure A of FIG. 4;

FIG. 6 is a schematic cross-sectional view of a conveyor of the present invention;

FIG. 7 is a schematic view B of the enlarged partial structure of FIG. 6;

FIG. 8 is a schematic cross-sectional view of a state change device of the present invention;

FIG. 9 is a schematic view C of the enlarged partial structure of FIG. 8;

FIG. 10 is a schematic diagram of a transmission mechanism of the present invention;

FIG. 11 is a schematic diagram of a transmission mechanism of the present invention;

fig. 12 is a partially enlarged schematic view D of fig. 11.

The figure indicates:

a refrigerator outer wall 1; a wall 1-1; a first mounting groove 1-2; a second mounting groove 1-3; a first mounting cavity 1-4; first through holes 1-5; a transmission 2; a servo motor 2-1; 2-2 of belt pulley groups; a first gear set 2-3; a second gear set 2-4; a state exchanging device 3; a mounting bolt 3-1; a sliding plate 3-2; a first sliding groove 3-3; a first spring 3-4; a second sliding groove 3-5; a third sliding groove 3-6; 3-7 of a sliding mounting hole; the conveying device 4 conveys the plate 4-1; a discharging hole 4-2; installing a limiting cavity 4-3; a discharge device 4-4; 4-4-1 of threaded rods; 4-4-2 of a transmission gear; l-shaped internal thread moving blocks 4-4-3; pushing the plate 4-4-4; 4-4-5 of arc-shaped return springs; controlling a discharge rack 4-5; pushing strips 4-6; a first tooth surface 4-7; 4-8 of a second tooth surface; sliding grooves 4-9.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, the aquatic product refrigerating and conveying device comprises a refrigerating outer wall 1, a transmission device 2, a state exchange device 3 and a conveying device 4, wherein the transmission device 2 and the state exchange device 3 are arranged on the refrigerating outer wall 1, the conveying device 4 is arranged on the refrigerating outer wall 1 and the state exchange device 3, and the transmission device 2 is meshed with the conveying device 4.

As shown in fig. 3, 4 and 8, the refrigerator outer wall 1 includes a wall 1-1, a first installation groove 1-2, a second installation groove 1-3, a first installation cavity 1-4 and a first through hole 1-5, the wall 1-1 is provided with the first installation groove 1-2, the second installation groove 1-3, the first installation cavity 1-4 and the first through hole 1-5, the first installation groove 1-2, the second installation groove 1-3 and the first installation cavity 1-4 are communicated, the first installation cavity 1-4 and the first through hole 1-5 are communicated, the transmission device 2 is arranged inside the first installation groove 1-2 and the second installation groove 1-3, the state exchange device 3 is arranged inside the first installation cavity 1-4, the transmission device 4 reciprocates in the first through hole 1-5, and the transmission device 4 is arranged on the wall 1-1.

As shown in FIG. 1-2, one side of the wall 1-1 without the open end of the second installation groove 1-3 is in the refrigerator.

As shown in fig. 10-11, the transmission device 2 includes a servo motor 2-1, a pulley set 2-2, a first gear set 2-3 and a second gear set 2-4, the servo motor 2-1 is connected with the pulley set 2-2, the first gear set 2-3 and the second gear set 2-4 are connected through the two pulley sets 2-2, the servo motor 2-1 is disposed in the second mounting groove 1-3, the pulley set 2-2 is disposed in the first mounting groove 1-2, the first gear set 2-3 and the second gear set 2-4 are disposed in the first mounting groove 1-2, the first gear set 2-3, the second gear set 2-4 are engaged with the transmission device 4, the first gear set 2-3 and the second gear set 2-4 slide in the state exchange device 3, the moving sliding plate 3-2 drives the transmission device 4 to move, so that the first gear set 4-7 and the second gear set 2-4 of the transmission device 2 are in contact engagement, and then the servo motor 2-1 drives the first gear set 2-3 and the second gear set 2-4 to rotate through the belt 2-2 to drive the first gear set 2-3 and the second gear set 2-4 to move toward the first gear set 4-6 and the second gear set 4 to be engaged with the refrigerator 4.

Wherein, as shown in fig. 10, the number of the pulley groups 2-2 is two, and the servo motor 2-1 is connected with one pulley group 2-2.

Wherein, as shown in fig. 8 and 9, the state exchanging device 3 comprises a mounting bolt 3-1, a sliding plate 3-2, a first sliding groove 3-3, a first spring 3-4, a second sliding groove 3-5, a third sliding groove 3-6 and a sliding mounting hole 3-7, wherein the sliding plate 3-2 is arranged on the mounting bolt 3-1 through the first sliding groove 3-3, the first spring 3-4 is arranged between the first sliding groove 3-3 and the mounting bolt 3-1, the sliding plate 3-2 is provided with a second sliding groove 3-5, a third sliding groove 3-6 and the sliding mounting hole 3-7, the second sliding groove 3-5, the third sliding groove 3-6 and the sliding mounting hole 3-7 are communicated, the mounting bolt 3-1 and the sliding plate 3-2 are arranged in the first mounting cavity 1-4, the first gear set 2-3 slides in the second sliding groove 3-5, the second gear set 2-4 slides in the third sliding groove 3-6, the conveying device 4 is arranged on the sliding mounting hole 3-7, the weight of the conveying device 4 and the state exchanging device 3 is increased due to the fact that the conveying plate 4-1 is provided with a product, then the sliding plate 3-2 moves downwards when the conveying device 4 moves, the sliding plate 3-2 slides in the first mounting cavity 1-4 and compresses the first spring 3-4, and the moving sliding plate 3-2 drives the conveying device 4 to move.

Wherein, as shown in fig. 8, there are two mounting bolts 3-1 and the number of first springs 3-4.

Wherein, as shown in figures 3-7 and 10, the conveying device 4 comprises a conveying plate 4-1, a discharging hole 4-2, a mounting limiting cavity 4-3, a discharging device 4-4, a control discharging rack 4-5, a pushing bar 4-6, a first tooth surface 4-7, a second tooth surface 4-8 and a sliding groove 4-9, wherein the conveying plate 4-1 is provided with the discharging hole 4-2 and the mounting limiting cavity 4-3, the discharging hole 4-2 is communicated with the mounting limiting cavity 4-3, the discharging device 4-4 is arranged in the conveying plate 4-1 through the mounting limiting cavity 4-3, the control discharging rack 4-5 is arranged on a wall 1-1 in a refrigerator through a connecting rod, the control discharging rack 4-5 is used for being meshed with the discharging device 4-4, pushing strips 4-6 are arranged on two sides of the conveying plate 4-1, a first tooth surface 4-7 and a second tooth surface 4-8 are arranged on the pushing strips 4-6, the conveying plate 4-1 and the pushing strips 4-6 are arranged on the sliding mounting holes 3-7, the first tooth surface 4-7 is meshed with the second gear set 2-4, the second tooth surface 4-8 is meshed with the first gear set 2-3, sliding grooves 4-9 are arranged on the pushing strips 4-6 at the corresponding ends of the control discharge racks 4-5, a discharge device 4-4 is arranged in the sliding grooves 4-9, refrigerated products are poured onto the conveying plate 4-1 of the conveying device 4, and then enter the discharge holes 4-2, the discharging device 4-4 can block the discharging hole 4-2 to limit the position of the product to prevent the product from falling from the discharging hole 4-2, then the product outside the discharging hole 4-2 is scraped from the conveying plate 4-1 by utilizing the scraping plate, the weight of the whole of the conveying device 4 and the state changing device 3 is increased due to the fact that the conveying plate 4-1 is provided with the product, then the sliding plate 3-2 moves downwards together with the movable conveying device 4, the first tooth surface 4-7 is in contact engagement with the second gear set 2-4 of the conveying device 2, then the conveying device 2 can push the conveying plate 4-1 and the device and the aquatic product arranged on the conveying plate 4-1 to the inside of the refrigerator through the first tooth surface 4-7, the discharging hole 4-2 close to the end of the refrigerator enters the inside of the refrigerator, then continues to move to the depth of the refrigerator, the aquatic product in the discharging hole 4-2 is frozen continuously, after a period of movement, the discharging device 4-4 is in contact engagement with the control discharging rack 4-5 in the inside the refrigerator, then the discharging device 4-4 is separated from the inside the refrigerator 4-3 after the discharging hole 4-3 is arranged in the first tooth surface 4-7, the aquatic product is separated from the discharging device 4-4 is separated from the inside the refrigerating device through the discharging device 4-3, the aquatic product is separated through the discharging device 4-4 after the movement of the discharging hole is completely arranged, the product is separated from the aquatic product is separated through the discharging device 4-4, and the product is separated from the aquatic product is completely separated, the upward moving conveying plate 4-1 can prevent the control discharge rack 4-5 from contacting with the discharge device 4-4, so that the second tooth surface 4-8 is in contact engagement with the first gear set 2-3, then the rotating first gear set 2-3 can push the pushing strip 4-6 outwards through the second tooth surface 4-8, the pushing strip 4-6 drives the conveying plate 4-1 to move outwards until the first gear set 2-3 and the second tooth surface 4-8 are stopped after being in contact with no tooth, and the next product conveying is performed after the first gear set 2-3 and the second tooth surface 4-8 are moved back to the original positions.

Wherein, as shown in fig. 4, 5, 6, 7, 11 and 12, the discharging device 4-4 comprises a threaded rod 4-4-1, a transmission gear 4-2, an L-shaped internal thread moving block 4-4-3, a pushing plate 4-4-4 and an arc-shaped return spring 4-5, the threaded rod 4-4-1 is provided with the transmission gear 4-4-2, the L-shaped internal thread moving block 4-4-3 and the pushing plate 4-4, the pushing plate 4-4 is provided with two pushing springs 4-4-5 respectively arranged at two ends of the threaded rod 4-1, the pushing plate 4-4 is provided with the arc-shaped return spring 4-4-5, the threaded rod 4-4-1, the L-shaped internal thread moving block 4-3, the pushing plate 4-4 and the arc-shaped return spring 4-5 are arranged in the inside the sliding groove 4-9, the discharging device 4-4-4 is provided with the L-shaped internal thread moving block 4-3 and the pushing plate 4-4-4, the discharging device is prevented from moving to the refrigerating chamber 2 and further moving to the refrigerating chamber 2 from the inside the refrigerating chamber, the refrigerating chamber is prevented from moving to the refrigerating chamber 2 and the refrigerating chamber, the refrigerating chamber is prevented from moving to the inside the refrigerating chamber 2 and the refrigerating chamber 2 is further being blocked by the refrigerating chamber and the refrigerating chamber 2, after a period of movement, the transmission gear 4-4-2 on the discharge device 4-4 is in contact engagement with the control discharge rack 4-5 in the refrigerator, when the transmission plate 4-1 continues to move, the fixed control discharge rack 4-5 pushes the transmission gear 4-4-2 to rotate, the transmission gear 4-4-2 drives the threaded rod 4-4-1 to rotate, the rotating threaded rod 4-4-1 compresses the arc-shaped reset spring 4-5 through the pushing plate 4-4, the threaded rod 4-4-1 enables the L-shaped internal thread moving block 4-4-3 to slide in the installation limiting cavity 4-3, then the discharge hole 4-2 is opened, an aquatic product frozen in the discharge hole 4-2 falls into the refrigerator from the discharge hole 4-2, the aquatic product in the rear discharge hole 4-2 also gradually falls into the refrigerator, because the length of the control discharge rack 4-5 is set, when the L-shaped internal thread moving block 4-3 slides away from the discharge hole 4-2, the control discharge rack 4-5 and the gear 4-4-1 are separated, and then the L-shaped internal thread moving block 4-4-4 is separated from the arc-4-2, and the compression rack 4-4-4 is separated, and the compression threaded rod 4-4-4-4 is cooled again is prepared to separate, and the freezing threaded rod 4-4-4 is cooled, and the compression 4 is cooled again, and the compression 4 is not cooled, and the compression 4 is separated.

Working principle:

firstly, pouring the product to be refrigerated on a conveying plate 4-1 of a conveying device 4, then, the product enters a discharging hole 4-2, an L-shaped internal thread moving block 4-4-3 of the discharging device 4-4 can block the discharging hole 4-2 to limit the position of the product to prevent the product from falling from the discharging hole 4-2, then, scraping the product outside the discharging hole 4-2 from the conveying plate 4-1 by utilizing a scraping plate, the weight of the conveying device 4 and the state exchanging device 3 is increased due to the fact that the conveying plate 4-1 has the product, then, a sliding plate 3-2 moves downwards together with the movable conveying device 4, the sliding plate 3-2 slides in a first mounting cavity 1-4 and compresses a first spring 3-4, the moving sliding plate 3-2 drives the conveying device 4 to move, the first tooth surface 4-7 is contacted and meshed with the second gear set 2-4 of the transmission device 2, then the servo motor 2-1 drives the first gear set 2-3 and the second gear set 2-4 to move through the belt pulley set 2-2, the rotating second gear set 2-4 and the first tooth surface 4-7 are meshed to push the pushing strip 4-6 to move towards the inside of the refrigerator, the pushing strip 4-6 drives the conveying plate 4-1 to move, the conveying plate 4-1 drives the device arranged on the conveying plate 4-1 and the aquatic products to move towards the inside of the refrigerator, the discharging hole 4-2 close to the end of the refrigerator firstly enters the inside of the refrigerator and then moves deeply, the aquatic products in the discharging hole 4-2 are continuously frozen in the moving process, the transmission gear 4-4-2 on the discharge device 4-4 is in contact engagement with the control discharge rack 4-5 in the refrigerator, when the transmission plate 4-1 continues to move, the fixed control discharge rack 4-5 pushes the transmission gear 4-4-2 to rotate, the transmission gear 4-4-2 drives the threaded rod 4-4-1 to rotate, the rotating threaded rod 4-4-1 compresses the arc-shaped reset spring 4-5 through the pushing plate 4-4, the threaded rod 4-4-1 enables the L-shaped internal thread moving block 4-4-3 to slide in the installation limiting cavity 4-3, then the discharging hole 4-2 is opened, the frozen aquatic product in the discharging hole 4-2 falls into the refrigerator from the discharging hole 4-2, the aquatic products in the rear discharging hole 4-2 can gradually drop into the refrigerator, because the length of the discharging rack 4-5 is controlled to be set, when the L-shaped internal thread moving block 4-4-3 slides away from the discharging hole 4-2, the discharging rack 4-5 is controlled to be separated from the transmission gear 4-2, then the compressed arc-shaped reset spring 4-4-5 drives the threaded rod 4-4-1 to rotate through the pushing plate 4-4, so that the L-shaped internal thread moving block 4-3 blocks the discharging hole 4-2 again to prepare for the next freezing, the separated frozen products can not be adhered, after all the aquatic products drop, the weight of the state exchanging device 3 and the conveying device 4 can be reduced, then the compressed first spring 3-4 drives the conveying device 4 to move upwards, the upward moving conveying plate 4-1 can enable the control discharge rack 4-5 not to contact with the transmission gear 4-2, the second tooth surface 4-8 is enabled to be in contact engagement with the first gear set 2-3, then the rotating first gear set 2-3 can push the pushing strip 4-6 outwards through the second tooth surface 4-8, the pushing strip 4-6 drives the conveying plate 4-1 to move outwards until the first gear set 2-3 and the second tooth surface 4-8 are stopped after being in contact with each other, and the next product conveying is carried out after the first gear set 2-3 and the second tooth surface 4-8 are moved back to the original positions.

It will be understood that the invention has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. The utility model provides a cold-stored conveyer of aquatic products, its characterized in that includes refrigerator outer wall (1), transmission (2), state change device (3), conveyer (4), be equipped with transmission (2) and state change device (3) on refrigerator outer wall (1), be equipped with conveyer (4) on refrigerator outer wall (1) and the state change device (3), transmission (2) and conveyer (4) meshing.

2. The aquatic product refrigerating and conveying device according to claim 1, wherein the outer wall (1) of the refrigerator comprises a wall (1-1), a first mounting groove (1-2), a second mounting groove (1-3), a first mounting cavity (1-4) and a first through hole (1-5), the wall (1-1) is provided with the first mounting groove (1-2), the second mounting groove (1-3), the first mounting cavity (1-4) and the first through hole (1-5), the first mounting groove (1-2) is communicated with the second mounting groove (1-3) and the first mounting cavity (1-4), the first mounting cavity (1-4) is communicated with the first through hole (1-5), the transmission device (2) is arranged inside the first mounting groove (1-2) and the second mounting groove (1-3), the state change device (3) is arranged inside the first mounting cavity (1-4), and the conveying device (4) is arranged inside the first mounting cavity (1-4), and the conveying device (1-4) is arranged on the wall (1-1) in the reciprocating manner.

3. A refrigerated aquatic product conveying device according to claim 2, characterized in that the side of the wall (1-1) free from the open end of the second installation groove (1-3) is in a refrigerated warehouse.

4. The aquatic product refrigerating and conveying device according to claim 2, wherein the transmission device (2) comprises a servo motor (2-1), a pulley group (2-2), a first gear group (2-3) and a second gear group (2-4), the servo motor (2-1) is connected with the pulley group (2-2), the first gear group (2-3) and the second gear group (2-4) are connected through the two pulley groups (2-2), the servo motor (2-1) is arranged inside a second mounting groove (1-3), the pulley group (2-2) is arranged inside a first mounting groove (1-2), the first mounting groove (1-2) is internally provided with the first gear group (2-3) and the second gear group (2-4), the first gear group (2-3), the second gear group (2-4) are meshed with the conveying device (4), and the first gear group (2-3) and the second gear group (2-4) are in sliding state in the first mounting groove (1-2).

5. A refrigerated aquatic product conveyor as claimed in claim 4 wherein there are two pulley sets (2-2) and the servo motor (2-1) is connected to one of the pulley sets (2-2).

6. The chilled aquatic product conveying device according to claim 4, wherein the state exchanging device (3) comprises a mounting bolt (3-1), a sliding plate (3-2), a first sliding groove (3-3), a first spring (3-4), a second sliding groove (3-5), a third sliding groove (3-6) and a sliding mounting hole (3-7), the sliding plate (3-2) is arranged on the mounting bolt (3-1) through the first sliding groove (3-3), a first spring (3-4) is arranged between the first sliding groove (3-3) and the mounting bolt (3-1), the sliding plate (3-2) is provided with a second sliding groove (3-5), a third sliding groove (3-6) and the sliding mounting hole (3-7), the second sliding groove (3-5), the third sliding groove (3-6) and the sliding mounting hole (3-7) are communicated, the mounting bolt (3-1) and the sliding plate (3-2) are arranged in the first gear set (3-4) and the second gear set (3-4) is arranged in the second sliding groove (3-2), the conveying device (4) is arranged on the sliding mounting holes (3-7).

7. A refrigerated aquatic product delivery apparatus as claimed in claim 6 wherein there are two mounting pegs (3-1) and two first springs (3-4).

8. The aquatic product refrigerating and conveying device according to claim 6, wherein the conveying device (4) comprises a conveying plate (4-1), a discharging hole (4-2), a mounting limiting cavity (4-3), a discharging device (4-4), a control discharging rack (4-5), a pushing bar (4-6), a first tooth surface (4-7), a second tooth surface (4-8) and a sliding groove (4-9), the conveying plate (4-1) is provided with the discharging hole (4-2) and the mounting limiting cavity (4-3), the discharging hole (4-2) is communicated with the mounting limiting cavity (4-3), the discharging device (4-4) is arranged inside the conveying plate (4-1) through the mounting limiting cavity (4-3), the control discharging rack (4-5) is arranged on a warehouse wall (1-1) in a refrigerator through connection, the control discharging rack (4-5) is used for being meshed with the discharging device (4-4), both sides of the conveying plate (4-1) are provided with the pushing bar (4-6), the first tooth surface (4-6) and the second tooth surface (4-6) are arranged on both sides of the pushing plate (4-1), the conveying plate (4-1) and the pushing strip (4-6) are arranged on the sliding mounting hole (3-7), the first tooth surface (4-7) is meshed with the second gear set (2-4), the second tooth surface (4-8) is meshed with the first gear set (2-3), the pushing strip (4-6) at the corresponding end of the control discharge rack (4-5) is provided with a sliding groove (4-9), and the discharge device (4-4) is arranged in the sliding groove (4-9).

9. The aquatic product refrigerating and conveying device according to claim 8, wherein the discharging device (4-4) comprises a threaded rod (4-4-1), a transmission gear (4-4-2), an L-shaped internal thread moving block (4-4-3), a pushing plate (4-4-4) and an arc-shaped return spring (4-4-5), the threaded rod (4-4-1) is provided with the transmission gear (4-4-2), the L-shaped internal thread moving block (4-4-3) and the pushing plate (4-4-4), the pushing plate (4-4-4) is arranged at two ends of the threaded rod (4-4-1) respectively, the pushing plate (4-4-4) is provided with the arc-shaped return spring (4-4-5), the threaded rod (4-4-1), the L-shaped internal thread moving block (4-3), the pushing plate (4-4) and the arc-shaped return spring (4-5) are arranged inside the installation limiting cavity (4-3), and the transmission gear (4-4-4-4) is arranged inside the sliding groove (4-9).

10. A refrigerated marine product transportation means as claimed in claim 8 wherein the first and second tooth surfaces (4-7, 4-8) are asymmetric.