CN214710050U

CN214710050U - Shrimp body conveying system

Info

Publication number: CN214710050U
Application number: CN202023344983.0U
Authority: CN
Inventors: 陈广照; 叶柯蕾; 叶春蕾; 韩远
Original assignee: Dianshuo Aquatic Technology Huazhou Co Ltd
Current assignee: Dianshuo Aquatic Technology Huazhou Co Ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-11-16
Anticipated expiration: 2030-12-31

Abstract

The utility model discloses a shrimp body conveying system, which comprises a feeding device and a conveying device; the feeding device comprises a material box, a lifting conveyor belt mechanism and a shrimp guiding mechanism; the conveying device comprises a plane conveying belt, a tabletting mechanism and a lever mechanism; the tabletting mechanism comprises a spring support, a first elastic tabletting and a picking needle elastic sheet are arranged on the spring support, and one surface of the first elastic tabletting tightly presses the shrimp bodies on the plane conveying belt through fastening force; the pick-up needle elastic sheet is provided with a fastener facing to the other surface of the first elastic pressing sheet; the lever mechanism comprises a lever support, a distance limiting lever and a lever rotating shaft; one end of the distance limiting lever is close to the picking needle elastic sheet, and the other end of the distance limiting lever is aligned with the shrimp body on the plane conveyer belt. The embodiment of the utility model provides a shrimp body conveying system can realize the loading attachment of even material loading and the conveyor that can realize evenly arranging through the establishment, thereby the two mutually supports the equipartition of having realized on the shrimp body flow direction of packaging line and arranges, has impeld the automatic process of shrimp body processing.

Description

Shrimp body conveying system

Technical Field

The utility model belongs to the technical field of shrimp processing technique and specifically relates to a shrimp body conveying system is related to.

Background

With the continuous improvement of the living standard of people, the liking of consumers to shrimp products with high protein and high nutrition is continuously promoted, which greatly promotes the rapid development of the aquatic product industry, and the great population demand of China also puts forward more urgent industry upgrading demands on the aquatic product processing industry.

In the existing aquatic product industry, in the automatic processing process of prawn bodies, various processing mechanisms on a production line are needed to be used for realizing the automatic mechanical processing of cleaning, shelling, prawn wire removing, prawn foot removing, sorting, single freezing and the like of the prawn bodies one by one, a processing device in each link usually only carries out precise processing on single prawn bodies, so that the prawn bodies on the production line are required to be uniformly and equidistantly arranged to realize the precise processing of each prawn body, a pure manual mode is mainly adopted at present, a large number of to-be-processed prawn bodies on the production line are uniformly placed on the production line by a worker, and the method is high in labor intensity and labor cost and is not beneficial to the automatic development of prawn body processing.

SUMMERY OF THE UTILITY MODEL

The utility model provides a shrimp body conveying system to solve and rely on the manual work now to put evenly with a large amount of shrimp bodies on the assembly line, it is big to lead to intensity of labour, and the technical problem that the human cost is high, through constructing the loading attachment that can realize even material loading and the conveyor that can realize evenly arranging, thereby the two mutually supports and has realized the equipartition on the shrimp body flow direction of packaging line and arrange, has impeld the automatic process of shrimp body processing.

In order to solve the technical problem, the embodiment of the utility model provides a shrimp body conveying system, include: a feeding device and a conveying device;

the feeding device comprises a material box, a lifting conveyor belt mechanism and a shrimp guiding mechanism; the conveying device comprises a plane conveying belt, a pressing mechanism and a lever mechanism, wherein the pressing mechanism and the lever mechanism are arranged at the top of the plane conveying belt;

one end of the ascending conveyor belt mechanism is arranged in the feed box, the other end of the ascending conveyor belt mechanism extends to the direction far away from the top of the feed box, the other end of the ascending conveyor belt mechanism is aligned with the shrimp inlet of the shrimp guiding mechanism, and the shrimp outlet of the shrimp guiding mechanism is aligned with the plane conveyor belt;

the tabletting mechanism comprises a spring support, a first elastic tabletting and a picking needle elastic sheet are arranged on the spring support, and one surface of the first elastic tabletting can tightly press the single shrimp body on the plane conveyer belt through fastening force; the picking needle elastic sheet is provided with a fastener facing to the other surface of the first elastic pressing sheet;

the lever mechanism comprises a lever support, a distance limiting lever and a lever rotating shaft; the lever rotating shaft penetrates through the middle part of the distance limiting lever and is arranged on the lever support; two ends of the distance limiting lever can swing relatively under the action of the lever rotating shaft; one end of the distance limiting lever is close to the picking needle elastic sheet, so that the fastening piece applies the fastening force to one surface of the first elastic pressing sheet under the swinging of the distance limiting lever, and the other end of the distance limiting lever is aligned with the single shrimp body on the plane conveyer belt.

Preferably, the conveyor belt of the ascending conveyor mechanism is provided with a plurality of upper shrimp slots at equal intervals.

As one preferable scheme, a first water outlet hole is formed in the bottom of each upper shrimp groove.

As one preferable scheme, a plurality of second water outlet holes are formed in the conveying belt.

As one of the preferable schemes, the shrimp guiding mechanism comprises a first shrimp guiding chute, a shrimp guiding swinging sheet, a swinging sheet rotating shaft and a second shrimp guiding chute;

the shrimp inlet of the first shrimp guiding chute is aligned with the other end of the ascending conveyor belt mechanism;

the swinging piece rotating shaft is arranged in the middle of the shrimp guiding swinging piece, and two end parts of the shrimp guiding swinging piece can relatively rotate under the action of the swinging piece rotating shaft; one end of the shrimp guiding swinging sheet is aligned with the plane conveying belt; the other end of the shrimp guiding swinging piece is aligned with the shrimp outlet of the first shrimp guiding chute, and the other end of the shrimp guiding swinging piece can rotate to be close to the shrimp inlet of the second shrimp guiding chute through the action of the swinging piece rotating shaft;

the shrimp outlet of the second shrimp guiding chute is aligned to the feed box.

As a preferable scheme, the conveying device further comprises a vibrating hopper, and a shrimp inlet of the vibrating hopper is aligned with one end part of the shrimp guiding swinging sheet; the shrimp outlet of the vibration hopper is aligned to the plane conveyer belt; and the periphery of the vibration hopper is also provided with a vibrator.

Preferably, a second elastic pressing sheet is further arranged on the spring support, and one surface of the second elastic pressing sheet faces to the single shrimp bodies on the plane conveying belt.

As one preferable scheme, the first elastic pressing piece and the picking needle elastic piece are respectively fixed on two sides of the spring support through screws.

Preferably, the fastener is a pressure pin.

As a preferable scheme, a shrimp guiding groove is further arranged on the plane conveyor belt, and a shrimp inlet of the shrimp guiding groove is close to the other end of the distance limiting lever.

Compared with the prior art, the embodiment of the utility model has the beneficial effects that, through establishing the shrimp body conveying system mutually matched by the feeding device and the conveying device, the feeding device therein realizes the orderly and quantitative shrimp conveying effect through the ascending conveyor belt mechanism, and the conveying device mutually matches with the lever mechanism of the specific structure through the tabletting mechanism of the specific structure, when the shrimp body passes through on the plane conveyor belt, the shrimp body positioned at the front side touches the other end of the distance limiting lever in the lever mechanism, generates corresponding thrust, causes one end of the distance limiting lever to act, downwards extrudes the picking needle elastic sheet, and further causes the fastening piece on the picking needle elastic sheet to exert corresponding fastening force on the first elastic sheet, and the shrimp body positioned at the rear side on the first elastic sheet conveyor belt is pressed; when the shrimp bodies on the front side pass through the lever mechanism under the driving of the conveyor belt, the other end of the distance limiting lever retracts, one end of the distance limiting lever correspondingly moves away from the picking needle elastic sheet, so that the fastening force for pressing the shrimp bodies on the rear side is cancelled, and the shrimp bodies on the rear side continue to advance under the driving of the conveyor belt. The shrimp bodies on the assembly line are uniformly and alternately arranged on the plane conveyor belt by the circulation. The automation degree of the whole shrimp body conveying system is higher, and the effect of uniform feeding at intervals is realized through the dual guarantee of the feeding device and the conveying device, so that the automatic processing process of the follow-up prawn is optimized, and the processing effect of the follow-up prawn body is guaranteed.

Drawings

Fig. 1 is a schematic structural diagram of a shrimp body conveying system in one embodiment of the present invention;

FIG. 2 is a schematic view of a portion of an ascending conveyor mechanism according to one embodiment of the present invention;

FIG. 3 is a schematic view of a shrimp guiding mechanism according to one embodiment of the present invention;

fig. 4 is a schematic structural diagram of a tablet pressing mechanism and a lever mechanism in one embodiment of the present invention;

fig. 5 is a schematic diagram of the movement of the shrimp bodies on the flat conveyer belt in one embodiment of the present invention;

wherein, 1, a material box; 2. a planar conveyor belt; 3. a spring support; 4. a first elastic pressing sheet; 5. picking a needle elastic sheet; 6. a fastener; 7. a lever support; 8. a distance limiting lever; 9. a lever shaft; 10. a first water outlet; 11. a second water outlet; 12. a first shrimp guiding chute; 13. leading the shrimps to swing; 14. a swing piece rotating shaft; 15. a second shrimp guiding chute; 16. a vibrating hopper; 17. a vibrator; 18. a second elastic pressing sheet; 19. a shrimp guiding groove; A. a driving roller; a1, a driving roller; B. a conveyor belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present application, the terms "first", "second", "third", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, features defined as "first," "second," "third," etc. may explicitly or implicitly include one or more of the features. In the description of the present application, "a plurality" means two or more unless otherwise specified.

In the description of the present application, it is to 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; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

In the description of the present application, it is to be noted that, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the present invention, and the specific meanings of the terms in the present application will be understood to those skilled in the art in a specific context.

An embodiment of the utility model provides a shrimp body conveying system, it is concrete, please refer to fig. 1 to fig. 5, wherein fig. 1 shows as the utility model discloses the shrimp body conveying system's in one of them embodiment structural schematic diagram, fig. 2 shows as the utility model discloses one of them embodiment of the utility model discloses the part schematic structure of ascending conveyer belt mechanism, fig. 3 shows do the utility model discloses the schematic diagram of leading shrimp mechanism in one of them embodiment, fig. 4 shows do the utility model discloses sheeting mechanism and lever mechanism's in one of them embodiment structural schematic diagram, fig. 5 shows do the utility model discloses the motion schematic diagram of the shrimp body on plane conveyer belt in one of them embodiment, wherein shrimp body conveying system includes: a feeding device and a conveying device;

the feeding device comprises a material box 1, a lifting conveyor belt mechanism and a shrimp guiding mechanism; the conveying device comprises a plane conveying belt 2 (the plane conveying belt is composed of two driving rollers A1 and a plane conveying belt), a tabletting mechanism and a lever mechanism, wherein the tabletting mechanism and the lever mechanism are arranged at the top of the plane conveying belt 2;

the tabletting mechanism comprises a spring support 3, a first elastic tabletting 4 and a picking needle elastic sheet 5 are arranged on the spring support 3, and one surface of the first elastic tabletting 4 can tightly press the single shrimp body on the plane conveyer belt 2 through fastening force; the picking needle elastic sheet 5 is provided with a fastener 6 facing to the other surface of the first elastic pressing sheet 4;

the lever mechanism comprises a lever support 7, a distance limiting lever 8 and a lever rotating shaft 9; the lever rotating shaft 9 penetrates through the middle part of the distance limiting lever 8 and is arranged on the lever support 7; two ends of the distance limiting lever 8 can swing relatively under the action of the lever rotating shaft 9; one end of the distance limiting lever 8 is close to the picking needle shrapnel 5, so that the fastening piece 6 applies the fastening force to one surface of the first elastic pressing piece 4 under the swinging of the distance limiting lever 8, and the other end of the distance limiting lever 8 is aligned with the single shrimp body on the plane conveyer belt 2.

It should be noted that in the seafood processing industry, a large amount of shrimp bodies to be processed are often placed in an open container (i.e., a bin), and in order to ensure the freshness of food, a large amount of water is stored in the container to keep fresh (the shrimp bodies are floating in the water). In this embodiment, the bin is preferably a rectangular parallelepiped, the top of the bin is provided with an opening, the ascending conveyor mechanism comprises two driving rollers a (only one driving roller is shown in the figure, and the other driving roller is shielded by the bin), a conveyor belt B (the structure is the same as that of the prior art) is wound on the driving rollers a, in order to realize orderly and quantitative shrimp feeding, one end of the ascending conveyor mechanism is lifted, instead of adopting a horizontal conveying mode, so that the shrimp bodies cannot be completely conveyed on the conveyor belt B under the action of gravity (the conveyor belt drives upwards), and only a small number of shrimp bodies can be conveyed obliquely upwards under the action of friction force of the conveyor belt B; since one end of the ascending conveyor belt mechanism is higher, in order to match the position of the plane conveyor belt 2 in the subsequent conveyor device, a shrimp guiding mechanism is further arranged for transition in the embodiment, and the shrimp guiding mechanism is used for conveying the shrimp bodies at the high position onto the plane conveyor belt so as to enable the plane conveyor belt of the shrimp bodies to perform subsequent actions.

Further, in the above embodiment, the conveyor belt B of the ascending conveyor mechanism is provided with a plurality of upper shrimp tanks 9 at equal intervals. The upper shrimp tank can optimize the conveying effect of the shrimp bodies in the ascending process, and the size and the shape of the upper shrimp tank are determined by different types of shrimps and actual product processing requirements.

Further, in the above embodiment, the bottom of each upper shrimp tank 9 is opened with a first water outlet hole 10. Last shrimp in-process, when last shrimp groove when having gone into the shrimp, this shrimp body can block the first apopore that is located the bottom for rivers can't pass through, and this is that go up the shrimp groove and just be difficult to reentrant shrimp, thereby guarantees that every goes up the shrimp groove and only acquires a shrimp body and upwards transports.

Further, in the above embodiment, the conveyor belt B is provided with a plurality of second water outlet holes 11. The second apopore can discharge the water that flows through on the conveyer belt to improve the frictional force of the shrimp body on conveyer belt, optimize the transportation process of the shrimp body.

Further, in the above embodiment, the shrimp guiding mechanism includes the first shrimp guiding chute 12, the shrimp guiding swing sheet 13, the swing sheet rotating shaft 14, and the second shrimp guiding chute 15;

the shrimp inlet of the first shrimp guiding chute 12 is aligned with the other end of the ascending conveyor belt mechanism;

the swinging piece rotating shaft 14 is arranged in the middle of the shrimp guiding swinging piece 13, and two end parts of the shrimp guiding swinging piece 13 can relatively rotate under the action of the swinging piece rotating shaft 14; one end of the shrimp guiding swinging sheet 13 is aligned with the plane conveying belt 2; the other end of the shrimp guiding swinging piece 13 is aligned with the shrimp outlet of the first shrimp guiding chute 12, and the other end of the shrimp guiding swinging piece 13 can be rotated to be close to the shrimp inlet of the second shrimp guiding chute 15 through the action of the swinging piece rotating shaft 14;

the shrimp outlet of the second shrimp guiding chute 15 is aligned with the feed box 1.

It should be noted that, in this embodiment, in consideration of the fact that the other end of the ascending conveyor mechanism is higher in height, the shrimp guiding mechanism is designed to have a two-gradient buffer structure, and the shrimp bodies conveyed from the ascending conveyor mechanism are received by the first shrimp guiding chute, and then received by the shrimp guiding swinging piece. Preferably, the structure formed by the shrimp guiding swinging piece and the swinging piece rotating shaft is used for further optimizing the flow of feeding the shrimps individually, the swinging piece rotating shaft is arranged in the middle of the shrimp guiding swinging piece, two end parts of the shrimp guiding swinging piece can rotate relatively under the action of the swinging piece rotating shaft, when a single shrimp body falls into the other end part of the shrimp guiding swinging piece from the first shrimp guiding chute, the shrimp guiding swinging piece only slightly swings due to smaller inertia of the single shrimp body, and then the shrimp body slides onto one end part of the shrimp guiding swinging piece and is discharged from the shrimp guiding mechanism; when a plurality of shrimp bodies fall into the other end part of the shrimp guiding swing piece from the first shrimp guiding chute, the impact force on the other end part of the shrimp guiding swing piece is larger due to larger inertia of the plurality of shrimp bodies, so that the shrimp guiding swing piece rotates downwards and is close to the shrimp inlet of the second shrimp guiding chute, and then the plurality of shrimp bodies are retransmitted back to the feed box through the second shrimp guiding chute.

Further, in the above embodiment, the conveying device further includes a vibrating hopper 16, and the shrimp inlet of the vibrating hopper 16 is aligned with one end of the shrimp guiding swinging piece 13; the shrimp outlet of the vibration hopper 16 is aligned with the plane conveyer belt 2; the vibrator 17 is disposed around the vibrating bucket 16. The vibrating force is provided for the vibrating hopper through the vibrator, so that the position of the shrimp body falling into the vibrating hopper is calibrated, and the conveying process of the shrimp body is optimized.

Further, in the above embodiment, the spring support 3 is further provided with a second elastic pressing piece 18, and one surface of the second elastic pressing piece 18 faces the single shrimp bodies on the plane conveyer belt 2. The second elastic pressing piece is matched with the first elastic pressing piece, so that the two shrimp bodies on the plane conveying belt are restricted by the pressing pieces, and a foundation is laid for subsequent separation and arrangement.

In addition, it should be noted that the shape of the flat conveyer belt can be changed according to different processing requirements, for example, in the embodiment of the present invention, a tablet mechanism and a lever mechanism are disposed above a certain section of the flat conveyer belt, and preferably, the conveyer belt of the certain section is configured to be in a groove shape (communicated with the subsequent shrimp guiding groove 19) to form an accommodating space for the tablet mechanism and the lever mechanism to operate the shrimp body.

Further, in the above embodiment, the first elastic pressing piece 4 and the picking needle elastic piece 5 are respectively fixed on two sides of the spring support 3 by screws. Of course, the connection of the related components needs to be considered in consideration of the cost and the actual structure of the system.

Further, in the above embodiment, the fastener 6 is a pressure pin. A fastening force is applied to one surface of the first elastic pressing piece by a pressing pin.

Further, in the above embodiment, the flat conveyer belt 2 is further provided with a shrimp guiding groove 19, and a shrimp inlet of the shrimp guiding groove 19 is close to the other end of the distance limiting lever 8. After the shrimp bodies pass through the action of the tabletting mechanism and the lever mechanism, the orientation and the position of each shrimp body are preferably adjusted by configuring the shape of the shrimp guiding groove (such as a U-shaped groove and a V-shaped groove) on the plane conveyor belt, so that the shrimp bodies can be precisely processed by the subsequent related processing device.

The embodiment of the utility model provides a shrimp body conveying system, beneficial effect lies in, through establishing the shrimp body conveying system by feed arrangement and conveyor mutually supporting, feed arrangement wherein realizes orderly, the quantitative shrimp effect of sending through ascending conveyer belt mechanism, and conveyor mutually supports through the sheeting mechanism of specific structure and the lever mechanism of specific structure, when having the shrimp body to pass through on the plane conveyer belt, the shrimp body that is located the front side touches the other end of range limit lever in the lever mechanism, produce corresponding thrust, lead to the one end action of range limit lever, extrude the tucking shell fragment downwards, and then make the fastener on the tucking shell fragment exert corresponding clamping force to first elastic pressing piece, the shrimp body that is located the rear side on the conveyer belt is pushed down to first elastic pressing piece; when the shrimp bodies on the front side pass through the lever mechanism under the driving of the conveyor belt, the other end of the distance limiting lever retracts, one end of the distance limiting lever correspondingly moves away from the picking needle elastic sheet, so that the fastening force for pressing the shrimp bodies on the rear side is cancelled, and the shrimp bodies on the rear side continue to advance under the driving of the conveyor belt. The shrimp bodies on the assembly line are uniformly and alternately arranged on the plane conveyor belt by the circulation. The automation degree of the whole shrimp body conveying system is higher, and the effect of uniform feeding at intervals is realized through the dual guarantee of the feeding device and the conveying device, so that the automatic processing process of the follow-up prawn is optimized, and the processing effect of the follow-up prawn body is guaranteed.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims

1. A shrimp body conveying system, comprising: a feeding device and a conveying device;

2. A shrimp body conveying system as in claim 1 wherein the conveyor belt of the ascending conveyor means has a plurality of upper shrimp slots spaced at equal intervals.

3. A shrimp body transfer system as in claim 2 wherein the bottom of each upper shrimp tank defines a first outlet opening.

4. A shrimp body conveying system as in claim 2 wherein the conveyor belt has a plurality of second outlet openings formed therein.

5. A shrimp body conveying system as in claim 1 wherein the shrimp directing mechanism comprises a first shrimp directing chute, a shrimp directing swing plate, a swing plate pivot, and a second shrimp directing chute;

6. A shrimp body transfer system as in claim 5 wherein the transfer means further comprises a vibrating hopper, the shrimp inlet of the vibrating hopper being aligned with an end of the shrimp guiding flaps; the shrimp outlet of the vibration hopper is aligned to the plane conveyer belt; and the periphery of the vibration hopper is also provided with a vibrator.

7. A shrimp body conveying system as in claim 1 wherein a second resilient tab is further provided on the spring support, one side of the second resilient tab facing individual shrimp bodies on the flat conveyor belt.

8. A shrimp body transfer system as in claim 1 wherein the first resilient tab and the pick pin spring are each secured to both sides of the spring mount by screws.

9. A shrimp body transfer system as in claim 1 wherein the fasteners are pressure pins.

10. A shrimp body conveying system as in claim 1 wherein the flat belt further comprises a shrimp chute having a shrimp inlet near the other end of the distance limiting lever.