CN217650312U - Frozen fish conveying device - Google Patents

Abstract

The utility model provides a frozen fish conveyor, which comprises a frame, carry the track, wash the pond, the refrigeration jar, water conservancy diversion mechanism, transport the conveyer belt, high stop gear, helical conveyer belt, the refrigeration pipe, air guide mechanism and output conveyer belt, in operation, the horizontal part on the track is carried the fish to washing in the pond, water flow in the washing pond is ordered about to water to the fish of water conservancy diversion mechanism, slope portion on the track transports the fish to transporting conveyer belt department afterwards, the high stop gear restriction on the transport conveyer belt is passed through the height of material so that the fish can comparatively even shop and is put, and carry the fish that will pave through helical conveyer belt and freeze the processing to refrigerating in the jar, air guide mechanism orders about air conditioning diffusion and cooperation helical conveyer belt's helical structure in the refrigeration jar so that the fish can fully carry out the heat transfer with the air conditioning contact, refrigeration efficiency is improved, self-cleaning and quick-frozen function have, the manpower resources have been practiced thrift and have been improved refrigeration efficiency.

Description

Frozen fish conveying device

Technical Field

The utility model relates to a food cold chain technical field, concretely relates to frozen fish conveyor.

Background

In order to keep fresh food fresh, it is generally necessary to freeze the food. The fish belongs to a large group of fresh foods, the conventional fish freezing process is single, the fish needs to be cleaned manually and placed in a refrigerated cabinet or a refrigerating chamber, the freezing process needs to consume too much time and needs to consume more manpower and labor resources; in order to save time, all fishes are generally stacked in the placing frame and the placing frame is wholly moved into a refrigerator for freezing, a plurality of fishes refrigerated in the refrigerator are easy to freeze together and difficult to separate, the fishes generally need to be unfrozen and then can be separated, the meat quality of the fishes is easily influenced in the unfreezing process, the freshness of the fishes is influenced, and improvement is needed in the existing fish freezing technology.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the weak point that exists in the above-mentioned technique, provide a freezing fish conveyor, aim at solving above-mentioned problem.

The utility model provides a frozen fish conveyor, include:

the device comprises a rack, wherein a conveying crawler, a cleaning pool and a refrigerating tank are arranged on the rack, the conveying crawler sequentially comprises a horizontal part and an inclined part along the material conveying direction, the cleaning pool is arranged at the horizontal part, water in the cleaning pool can completely immerse the horizontal part, and the inclined part is used for lifting the material at the horizontal part and conveying the material away from the cleaning pool;

the flow guide mechanism is arranged at the cleaning tank and can drive the tank water in the cleaning tank to flow;

the transfer conveyer belt is arranged on the frame and is positioned at the butt joint of the output ends of the conveying tracks so as to receive the materials at the conveying tracks;

the height limiting mechanism is arranged on the transfer conveying belt and can adjust the height of the materials on the transfer conveying belt so that the materials can be uniformly laid on the transfer conveying belt;

the spiral conveying belt is arranged inside the refrigerating tank, the input end of the spiral conveying belt is in butt joint with the output end of the transfer conveying belt to receive materials at the transfer conveying belt, a refrigerating pipe is arranged inside the refrigerating tank, and the spiral conveying belt is arranged on the periphery of the refrigerating pipe in a winding mode;

the air guide mechanism is arranged on the refrigeration tank and can drive cold air generated by the refrigeration pipe to diffuse in the refrigeration tank;

and the output conveying belt is butted with the output end of the spiral conveying belt and is used for outputting the materials at the spiral conveying belt.

Preferably, a plurality of grid plates used for pushing materials are arranged on the conveying track at intervals, the grid plates are matched with the conveying track to form a plurality of cavities used for containing the materials, and a plurality of drainage gaps used for water supply circulation are formed in the grid plates.

Preferably, high stop gear includes support frame, limit baffle and bolt fastener, the support frame sets up in the frame and be located transport conveyer belt department, limit baffle removes to be installed on the support frame, bolt fastener sets up on the support frame and can fix limit baffle's position is in order to adjust limit baffle's high position.

Preferably, the water conservancy diversion mechanism includes that the water intaking is responsible for, the drainage is responsible for, water pump and moisturizing pipe, moisturizing pipe and water pipe intercommunication, the water intaking be responsible for with the drainage is responsible for the intercommunication respectively and is set up wash the pond both sides, the water pump sets up in the frame, the end of drawing water of water pump respectively with the drainage is responsible for with the moisturizing pipe intercommunication, the water outlet end of water pump with the water intaking is responsible for the intercommunication, the last intercommunication of drainage is responsible for and is provided with the blow off pipe, the blow off pipe with the drainage is responsible for intercommunication department and is provided with the switching-over valve, moisturizing pipe department is provided with the solenoid valve.

Preferably, the water inlet main pipe is provided with a plurality of water inlet branch pipes for communicating the water inlet main pipe with the cleaning tank, and the water drainage main pipe is provided with a plurality of water drainage branch pipes for communicating the water drainage main pipe with the cleaning tank.

Preferably, the refrigeration pipe is of a spiral tubular structure.

Preferably, air guide mechanism includes the fan and has the air-out pipeline of a plurality of venthole, the fan with air-out pipeline intercommunication can order about the air in the air-out pipeline via a plurality of the venthole is discharged, a plurality of the venthole is the circumference array and arranges on the air-out pipeline, the refrigeration pipe coils the setting and is in air-out pipeline periphery.

Compared with the prior art, the utility model discloses following beneficial effect has:

the during operation, the horizontal part on the transport track carries the fish to washing the pond in, water flow in the washing pond is ordered about to the water of water flow in order to carry out cleaning work to the fish by water conservancy diversion mechanism, slope portion on the transport track transports the fish to transporting conveyer belt department afterwards, the high stop gear restriction on the transport conveyer belt is passed through the height of material so that the fish can comparatively even shop, and carry the fish of laying flat to the refrigeration jar through helical conveyer belt and carry out the refrigeration processing, air guide mechanism orders about air conditioning diffusion and cooperation helical conveyer belt's helical structure in the refrigeration jar so that the fish can fully carry out the heat transfer with the air conditioning contact, refrigeration efficiency has been improved, the function of self-cleaning and quick-freeze has been improved when having practiced thrift the human labor resource.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the description below are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of a flow guide mechanism according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a transfer conveyor belt according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a height limiting mechanism according to an embodiment of the present invention;

fig. 5 is a schematic diagram of an internal structure of the refrigeration tank according to an embodiment of the present invention.

In the figure, 10-gantry; 11-a conveyor track; 111-a horizontal portion; 112-an inclined portion; 12-a cleaning pool; 13-a refrigeration tank; 131-a refrigerating pipe; 20-a flow guide mechanism; 21-a main water inlet pipe; 211-water inlet branch pipe; 22-a main drain pipe; 221-a sewage draining pipe; 222-a direction valve; 223-a branch drain pipe; 23-a water pump; 24-a water replenishing pipe; 241-electromagnetic valve; 30-a transfer conveyor belt; 40-a height limiting mechanism; 41-a support frame; 42-a limit baffle; 43-bolt fasteners; 50-a spiral conveyer belt; 60-an air guide mechanism; 61-a fan; 62-air outlet pipeline; 621-air outlet; 70-output conveyor belt; 80-a grid plate.

Detailed Description

Reference will now be made in detail to the present embodiments of the present invention, preferred embodiments of which are illustrated in the accompanying drawings, wherein the drawings are provided to supplement the description of the text of the specification with figures, so that the present invention can be visually and vividly understood as to each technical feature and the whole technical solution of the present invention, but the present invention should not be construed as limiting the scope of the present invention.

Example 1:

referring to fig. 1 to 5, the utility model provides a frozen fish conveying device, include:

the device comprises a frame 10, wherein a conveying crawler 11, a cleaning pool 12 and a refrigerating tank 13 are arranged on the frame 10, the conveying crawler 11 sequentially comprises a horizontal part 111 and an inclined part 112 along the material conveying direction, the cleaning pool 12 is arranged at the horizontal part 111, water in the cleaning pool 12 can completely submerge the horizontal part 111, and the inclined part 112 is used for lifting the material at the horizontal part 111 and conveying the material away from the cleaning pool 12;

the flow guide mechanism 20 is arranged at the cleaning pool 12 and can drive pool water in the cleaning pool 12 to flow;

the transfer conveyer belt 30 is arranged on the frame 10 and is positioned at the butt joint of the output ends of the conveying tracks 11 so as to receive the materials at the conveying tracks 11;

the height limiting mechanism 40 is arranged on the transfer conveyer belt 30 and can adjust the height of the materials on the transfer conveyer belt 30 so that the materials can be uniformly laid on the transfer conveyer belt 30;

the spiral conveying belt 50 is arranged inside the refrigerating tank 13, the input end of the spiral conveying belt 50 is in butt joint with the output end of the transfer conveying belt 30 to receive materials at the position of the transfer conveying belt 30, a refrigerating pipe 131 is arranged inside the refrigerating tank 13, and the spiral conveying belt 50 is arranged on the periphery of the refrigerating pipe 131 in a winding mode;

the air guide mechanism 60 is arranged on the refrigeration tank 13 and can drive the cold air generated by the refrigeration pipe 131 to diffuse inside the refrigeration tank 13;

and the output conveyer belt 70 is butted with the output end of the spiral conveyer belt 50, and is used for outputting the materials at the spiral conveyer belt 50.

During operation, horizontal part 111 on the transport track 11 carries the fish to washing pond 12 in, water flow in washing pond 12 is ordered to water guide mechanism 20 and is washd the work in order to carry out the washing to the fish, slope 112 on the transport track 11 transports the fish to transport conveyer belt 30 department afterwards, the high stop gear 40 restriction on the transport conveyer belt 30 passes through the height of material so that the fish can comparatively even shop, and carry the fish of laying to refrigeration jar 13 through spiral conveyer belt 50 and carry out the refrigeration processing, air guide mechanism 60 orders about air conditioning diffusion and cooperation spiral conveyer belt 50's helical structure in refrigeration jar 13 so that the fish can fully carry out the heat transfer with the air conditioning contact, refrigeration efficiency has been improved, has the function of self-cleaning and quick-freeze, human labor resource has been practiced thrift the time and has improved freezing efficiency.

Specifically, a plurality of grid plates 80 used for pushing materials are arranged on the conveying crawler 11 at intervals, the plurality of grid plates 80 are matched with the conveying crawler 11 to form a plurality of cavities used for containing materials, and a plurality of drainage gaps used for water supply circulation are formed in the grid plates 80.

The grid plates 80 are arranged so that the conveying tracks 11 push the fish to move during the material conveying process, so as to prevent the fish from slipping on the conveying tracks 11, and the grid plates 80 are provided with a plurality of drainage gaps so that water at the inclined part 112 can flow back to the cleaning tank 12 through the drainage gaps under the action of gravity.

Specifically, the height limiting mechanism 40 includes a support frame 41, a limiting baffle 42 and a bolt fastener 43, the support frame 41 is disposed on the rack 10 and located at the transfer conveyer belt 30, the limiting baffle 42 is movably mounted on the support frame 41, and the bolt fastener 43 is disposed on the support frame 41 and can fix the position of the limiting baffle 42 to adjust the height position of the limiting baffle 42.

The position of fixing limit baffle 42 through bolt fastening piece 43 is in order to adjust limit baffle 42's high position, and when transporting fish stack on the conveyer belt 30 and carrying to limit baffle 42 department along with transporting conveyer belt 30, limit baffle 42 plays limiting displacement and pushes away the fish of stack flat to make the fish can comparatively even shop on transporting conveyer belt 30, be convenient for separate the fish of stack together in advance, with the condition that many fishes of appearance bond together behind the freezing fish in reduction later stage.

Example 2:

referring to fig. 1 to 5, in combination with the technical solution of embodiment 1, in this embodiment, the diversion mechanism 20 includes a main water inlet pipe 21, a main water discharge pipe 22, a water pump 23 and a water replenishing pipe 24, the water replenishing pipe 24 is communicated with a main water pipe, the main water inlet pipe 21 and the main water discharge pipe 22 are respectively communicated with and disposed at two sides of the cleaning tank 12, the water pump 23 is disposed on the rack 10, a water pumping end of the water pump 23 is respectively communicated with the main water discharge pipe 22 and the water replenishing pipe 24, a water outlet end of the water pump 23 is communicated with the main water inlet pipe 21, the main water discharge pipe 22 is provided with a drain pipe 221 in a communication manner, a reversing valve 222 is disposed at a communication position of the drain pipe 221 and the main water discharge pipe 22, and an electromagnetic valve 241 is disposed at a position of the water replenishing pipe 24.

When cleaning is carried out, the reversing valve 222 is communicated with the drainage main pipe 22 and the water pump 23 and blocks the connection between the drainage main pipe 22 and the sewage discharge pipe 221, the electromagnetic valve 241 blocks the connection between the water replenishing pipe 24 and the water pump 23, water in the drainage main pipe 22 is extracted through the water pump 23, water is driven to flow through the water inlet main pipe 21 and the cleaning tank 12, then the water flows back to the drainage main pipe 22 to form circulating water flow, and the flowing water carries out washing work on fish in the cleaning tank 12;

when water needs to be changed in the cleaning tank 12, the reversing valve 222 is communicated with the main drainage pipe 22 and the sewage discharge pipe 221 and blocks the connection between the main drainage pipe 22 and the water pump 23, the electromagnetic valve 241 is communicated with the water replenishing pipe 24 and the water pump 23, and the water pump 23 pumps water from the water replenishing pipe 24 and drives water flow to sequentially pass through the main water inlet pipe 21, the cleaning tank 12, the main drainage pipe 22 and the sewage discharge pipe 221 for sewage discharge; when water needs to be supplemented after the sewage discharge work is completed, the electromagnetic valve 241 keeps the communication state of the water supplementing pipe 24 and the water pump 23, the reversing valve 222 communicates the main drainage pipe 22 and the water pump 23 and blocks the connection between the main drainage pipe 22 and the sewage discharge pipe 221, the water pump 23 pumps water in the water supplementing pipe 24 and drives water to flow into the cleaning tank 12 for water supplementing work, when the water level in the cleaning tank 12 reaches a certain height, the water flows to the main drainage pipe 22 through the main inlet pipe 21 and the cleaning tank 12, the water pump 23 simultaneously pumps water in the main drainage pipe 24 and the main drainage pipe 22, the water level in the cleaning tank 12 continues to rise at the moment, after the water level rises to a specified position, the electromagnetic valve 241 at the position of the water supplementing pipe 24 blocks the connection between the water supplementing pipe 24 and the water pump 23, the water flows through the main inlet pipe 21 and the cleaning tank 12 and then flows back to the main drainage pipe 22 to form circulating water flow, and the whole diversion mechanism 20 returns to the state in normal cleaning work.

Specifically, the water inlet main pipe 21 is provided with a plurality of water inlet branch pipes 211 for communicating the water inlet main pipe 21 with the cleaning tank 12, and the water outlet main pipe 22 is provided with a plurality of water outlet branch pipes 223 for communicating the water outlet main pipe 22 with the cleaning tank 12.

The flow area of the water in the cleaning pool 12 is enlarged by arranging the plurality of water inlet branch pipes 211 and the plurality of water outlet branch pipes 223, so that the cleaning effect of the water in the cleaning pool 12 on the fish is improved.

Specifically, the refrigerant pipe 131 has a spiral pipe structure.

The cooling effect of the cooling pipe 131 is improved by arranging the cooling pipe 131 in a spiral shape to increase the heat exchange area of the cooling pipe 131 with the surrounding environment.

Specifically, the air guiding mechanism 60 includes a fan 61 and an air outlet duct 62 having a plurality of air outlet holes 621, the fan 61 is communicated with the air outlet duct 62 and can drive air in the air outlet duct 62 to be discharged through the plurality of air outlet holes 621, the plurality of air outlet holes 621 are arranged on the air outlet duct 62 in a circumferential array, and the refrigerating pipe 131 is coiled around the periphery of the air outlet duct 62.

Drive the air through fan 61 and discharge via a plurality of venthole 621 on the tuber pipe way 62 to make the gas in the refrigeration pipe 131 by the center to diffusion all around, and because refrigeration pipe 131 coils the setting in tuber pipe way 62 periphery, make the cold air of refrigeration pipe 131 department to the diffusion of spiral conveyer belt 50 department of refrigeration pipe 131 periphery department, improve the refrigeration effect to the fish on spiral conveyer belt 50.

The foregoing is merely a preferred embodiment of the invention and is not intended to limit the invention in any manner. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications, or to modify equivalent embodiments, without departing from the scope of the technical solution of the present invention. Therefore, any modification, equivalent change and modification of the above embodiments according to the present invention are all within the protection scope of the present invention.

Claims (7)

1. A frozen fish conveying device, comprising:

the device comprises a rack, wherein a conveying crawler, a cleaning pool and a refrigerating tank are arranged on the rack, the conveying crawler sequentially comprises a horizontal part and an inclined part along the material transportation direction, the cleaning pool is arranged at the horizontal part, water in the cleaning pool can completely submerge the horizontal part, and the inclined part is used for lifting the material at the horizontal part and conveying the material away from the cleaning pool;

the flow guide mechanism is arranged at the cleaning tank and can drive the tank water in the cleaning tank to flow;

the transfer conveyer belt is arranged on the frame and is positioned at the butt joint of the output ends of the conveying tracks so as to receive the materials at the conveying tracks;

the height limiting mechanism is arranged on the transfer conveying belt and can adjust the height of the materials on the transfer conveying belt so that the materials can be uniformly laid on the transfer conveying belt;

the spiral conveying belt is arranged inside the refrigerating tank, the input end of the spiral conveying belt is in butt joint with the output end of the transfer conveying belt to receive materials at the transfer conveying belt, a refrigerating pipe is arranged inside the refrigerating tank, and the spiral conveying belt is arranged on the periphery of the refrigerating pipe in a winding mode;

the air guide mechanism is arranged on the refrigeration tank and can drive cold air generated by the refrigeration pipe to diffuse in the refrigeration tank;

and the output conveying belt is butted with the output end of the spiral conveying belt and is used for outputting the materials at the spiral conveying belt.

2. The frozen fish conveying device according to claim 1, wherein:

the conveying track is provided with a plurality of grid plates used for pushing materials at intervals, the grid plates are matched with the conveying track to form a plurality of cavities used for containing the materials, and a plurality of drainage gaps used for water supply circulation are formed in the grid plates.

3. The frozen fish conveying device according to claim 1, wherein:

the height limiting mechanism comprises a support frame, a limiting baffle and a bolt fastener, the support frame is arranged on the rack and located at the position of the transfer conveying belt, the limiting baffle is movably installed on the support frame, the bolt fastener is arranged on the support frame and can be fixed, and the position of the limiting baffle is adjusted according to the height position of the limiting baffle.

4. The frozen fish conveying device according to claim 1, wherein:

the water diversion mechanism comprises a water inlet main pipe, a water discharge main pipe, a water pump and a water replenishing pipe, wherein the water replenishing pipe is communicated with a tap water pipe, the water inlet main pipe and the water discharge main pipe are respectively communicated and arranged on two sides of the cleaning pool, the water pump is arranged on the rack, the water pumping end of the water pump is respectively communicated with the water discharge main pipe and the water replenishing pipe, the water outlet end of the water pump is communicated with the water inlet main pipe, the water discharge main pipe is communicated with a sewage discharge pipe, a reversing valve is arranged at the communication position of the sewage discharge pipe and the water discharge main pipe, and an electromagnetic valve is arranged at the position of the water replenishing pipe.

5. The frozen fish conveying device according to claim 4, wherein:

the water inlet main pipe is provided with a plurality of water inlet branch pipes used for communicating the water inlet main pipe with the cleaning tank, and the water drainage main pipe is provided with a plurality of water drainage branch pipes used for communicating the water drainage main pipe with the cleaning tank.

6. The frozen fish conveying device according to claim 1, wherein:

the refrigerating pipe is of a spiral tubular structure.

7. The frozen fish conveying device according to claim 6, wherein:

air guide mechanism includes the fan and has the air-out pipeline of a plurality of venthole, the fan with air-out pipeline intercommunication can order about the air in the air-out pipeline via a plurality of the venthole is discharged, a plurality of the venthole is the circumference array and arranges on the air-out pipeline, the refrigeration pipe coils the setting and is in air-out pipeline periphery.

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