CN211185693U - Tuna plates ice clothing device - Google Patents

Abstract

The utility model provides a tuna plates ice clothing device. The equipment comprises a rack, a water tank, an ice coating tank, a feeding input device, a discharging output device, a control system, a power system and the like. The ice coating tank is positioned in the water tank, the bottom of the water tank adopts an arc structure, and a nozzle is arranged to spray ice coating liquid. The material gets into material loading input device, gets into through arc buffer board and plates the ice clothing groove, and unloading conveyor surface sets up takes the material baffle, takes the material out from plating the ice clothing groove to push away the material to the feed opening by cam horizontal pushing mechanism. The utility model discloses the structure is succinct, and degree of automation is high, and it is effectual to plate the ice clothing, can show and promote tuna plate ice clothing efficiency and quality.

Description

Tuna plates ice clothing device

Technical Field

The utility model relates to an aquatic products technical field that keeps fresh especially relates to a plate ice clothing equipment, especially a tuna plates ice clothing device.

Background

The tuna has delicious taste and rich nutrition, and has high economic and practical values. Fresh tuna needs to be frozen at ultralow temperature, and the commercial value of the tuna is greatly reduced because the surface of the tuna body is easily oxidized and deteriorated due to contact with air in the freezing and storing process. The ice coating treatment can prevent unsaturated fatty acid, protein and other substances in the muscle of the tuna from easily contacting with the outside, and slow down the putrefaction and dry loss of the tuna. The existing ice coating equipment is mainly used for small aquatic products such as shrimps, shellfish and the like, and is suitable for the small equipment for uniformly coating ice coatings on tunas, so that the equipment for uniformly coating ice coatings on the tunas, which is effective and easy to use, is urgently needed.

Disclosure of Invention

An object of the utility model is to provide a plate ice clothing equipment suitable for tuna to solve the tuna and plate ice clothing problem.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a tuna ice coat plating device comprises a frame, a front-end system, a middle-end system, a rear-end system, a control system and a power system.

The frame comprises a rack, a support frame, support columns, universal wheels and a truss; the front-end system comprises a feeding input device, a water inlet, an electromagnetic valve and a liquid level sensor.

The middle-end system comprises an arc-shaped buffer plate, an ice coat groove, an ice coat plated conveying device, a water groove, a material carrying partition plate, a sewage discharge outlet, a sewage discharge electromagnetic valve, a nozzle electromagnetic valve, a water pump water outlet pipe and a water pump water inlet pipe; the back end system comprises a water pump, a temperature sensor, a cam horizontal pushing mechanism and a transmission mechanism.

The frame top sets up basin and ice clothing groove, frame lower extreme fixed mounting support column, and the universal wheel is connected to the support column lower extreme, and the support column upper end is connected with the device body through the truss.

The ice clothes groove is positioned in the water tank; the left side of the ice-coating groove is fixedly provided with a water inlet and is controlled by an electromagnetic valve, and the inner wall of the ice-coating groove is provided with a liquid level sensor.

A sewage discharge outlet is arranged at the bottom of the left side of the water tank, and a temperature sensor is arranged on the inner wall of the right side of the water tank; the bottom of the water tank is provided with a water pump outlet pipe and a nozzle water pump outlet pipe which are connected with a water pump, and the water pump inlet pipe is connected with the right side of the water tank.

The nozzle is positioned below the ice-coated clothes conveying device; a nozzle electromagnetic valve is arranged in front of the nozzle and is controlled by a control system;

a support frame is arranged below the feeding input device and is connected with the rack through the support frame, and an arc-shaped buffer plate is connected with the feeding input device and the ice coating transportation device;

the cam horizontal pushing mechanism is fixedly arranged at the tail end of the ice coating transportation device;

the power system and the transmission mechanism are positioned below the tail end of the ice-coated clothes conveying device and connected with the water pump;

the control system and the power system are arranged in a centralized manner.

The bottom of the ice-coated slot is of a hollow structure, a nozzle is installed at the bottom of the water slot, a water pump is installed inside the right side of the rack, the water pump is fixedly connected with a water inlet pipe and a water outlet pipe of the water pump, and the nozzles are evenly arranged on the water outlet pipe of the water pump according to the spacing distance of 30-50 cm.

A liquid level sensor is arranged below a water inlet of the ice-coating tank, a temperature sensor is arranged on the inner wall of the right side of the water tank, and a control system is arranged above the water tank to control the liquid level and the temperature.

The bottom of the water tank is provided with a sewage draining outlet and is controlled by a sewage draining electromagnetic valve.

The support frame is arranged below the feeding conveying device, the arc-shaped buffer plate is arranged at the tail end of the feeding conveying device, and the cam horizontal pushing mechanism is arranged at the tail end of the discharging output device. The cam horizontal pushing mechanism pushes the material into the feed opening.

The power system and the transmission mechanism are positioned below the cam horizontal pushing mechanism.

The control system controls the electromagnetic valve, the sewage discharge electromagnetic valve and the nozzle electromagnetic valve to open and close.

The connecting frame is used for connecting the water tank and the ice clothes tank and plays a role in connection and reinforcement.

The ice-coated clothes conveying device is made of a food-grade stainless steel chain plate with a partition plate, and the surface of the ice-coated clothes conveying device is provided with a material-carrying partition plate for stirring materials. The material can be moved forward along with the transport device.

The ice clothes groove is positioned in the water tank, the bottom of the ice clothes groove is hollow, and the ice clothes groove is arranged as an outer water tank and an inner ice clothes groove so as to maintain small temperature fluctuation in the ice clothes groove and have high temperature control precision. The left side is fixedly provided with a water inlet and a liquid level sensor, the bottom of the water tank can adopt an arc-shaped structure, the water tank is convenient to clean, the bottom of the water tank is provided with a drain outlet, and the water inlet and the drain outlet are provided with electromagnetic valves and controlled by a control system.

The equidistant nozzle that sets up in basin bottom, the nozzle interval can be according to actual demand setting, connects inlet tube and outlet pipe by the water pump, inlet tube intercommunication basin, ice clothing liquid cyclic utilization. And the ice clothes liquid is replenished from the water inlet every 8 hours. The ice clothes liquid is conveyed to the nozzle to be sprayed out to form disturbance fluid, so that the material on the ice clothes plating conveying device is continuously rolled, and the ice clothes plating layer is ensured to be more uniform.

The conveying belts of the feeding input device and the ice coating conveying device can adopt stainless steel chain plates, the surfaces of the conveying belts of the ice coating conveying device are provided with belt material partition plates at equal intervals, and the intervals between the partition plates are 15-20 cm and are set according to actual conditions.

The control system is internally provided with a liquid level control program and a temperature control program, and can automatically control the liquid level and the temperature of the liquid for making the liquid laundry according to the monitoring results of the temperature sensor and the liquid level sensor.

The arc buffer board is connected with the feeding input device and the feeding output device, and materials enter the ice coating groove through the arc buffer board, so that the materials are prevented from falling to influence the quality of the materials.

The end of the ice coating transportation device is provided with a material pushing mechanism, and the embodiment takes a cam horizontal pushing mechanism as an example and consists of a rotating cam, a spring and a material pushing plate. The cam 181 rotates around the cam shaft and is connected to the push plate 183 through the spring 182, the cam rotates for a circle, the push plate reciprocates once, and the reciprocating motion of the push plate pushes the material from the ice-coated clothes conveyer to the feed opening. The speed of the rotational movement of the cam is controlled by a control system. The control program can be adjusted according to the size and shape of the material.

The width of the material pushing plate is 15-20 cm and is set according to the interval width of the material carrying partition plates on the surface of the blanking conveying belt; after the material is plated with the ice clothes, the material is horizontally pushed to the feed opening by the cam horizontal pushing mechanism, so that damage to the material ice clothes is reduced.

The power system drives the water pump and the cam mechanism, the rotating speed is adjusted through the frequency converter arranged inside the power system, the conveying speed of the discharging output device is adjusted, the staying time of materials in the ice-coat liquid is controlled, and the thickness of the ice coat is controlled.

The utility model discloses when using, at first connect the water inlet and ice clothing liquid storage tank, open the water inlet valve through control system, when treating that liquid level height and temperature reach the setting value, start driving system.

Materials enter the device through the feeding input system, slide into the ice coat groove through the arc-shaped buffer plate, and are driven to move forwards by the ice coat plating transportation device; under the action of the ice coating liquid sprayed by the nozzle below the water tank, the materials continuously roll, and the surfaces of the materials are ensured to be fully contacted with the ice coating liquid; after ice coating is finished, the material is taken out of the ice coating groove by the discharging output device and pushed to the discharging opening by the cam horizontal pushing structure; when the equipment is maintained, the equipment is shut down, and the water tank and the ice clothing liquid in the ice clothing tank can be discharged through the drain outlet.

The rack is fixedly provided with a water tank, a control system, a driving system and a transmission mechanism, six support columns are installed at the lower end of the rack, universal wheels are installed on the support columns, and metal trusses are arranged at the joints for reinforcing connection.

The bottom of the water tank is of an arc-shaped structure, and is provided with a sewage discharge outlet, so that the water tank is convenient to clean regularly.

The material loading transport structure is terminal, sets up the arc buffer board, prevents that the material from falling and causes the influence to the material quality.

The bottom of the ice coating tank is of a hollow structure, when materials enter the ice coating tank, the bottom of the water tank is provided with a nozzle for spraying ice coating liquid, so that the materials roll, and ice coating is more uniform.

The nozzle is connected with the water pump through an output pipe, and the power system drives the water pump to convey the ice clothes liquid to the nozzle for spraying.

The left side of the ice-coating groove is fixedly provided with a water inlet and a liquid level height sensor, and when a certain amount of ice-coating liquid is consumed and the liquid level of the ice-coating liquid is reduced, the control system can open a valve of the water inlet to keep the liquid level stable.

A temperature sensor is arranged in the water tank and is controlled by a control system to keep the working temperature of the ice clothes liquid constant.

The material of the conveying belts of the feeding input device and the discharging output device is a stainless steel chain plate, and the material conveying output device is provided with a material conveying partition plate which can obliquely lift the material.

The cam horizontal pushing mechanism is provided with a connecting rod and a baffle, and when materials run to the tail end of the blanking output device, the cam horizontal pushing mechanism pushes the materials out in parallel through the pushing baffle, so that the materials are prevented from falling to damage ice clothes.

The utility model discloses be applied to tuna and plate ice clothing, device rational in infrastructure simple, plate even no burr of ice clothing thickness, through setting up buffer board and cam flat pushing mechanism, effectively alleviate the material and fall the damage to material and ice clothing, realize the high-quality efficient of tuna and plate ice clothing.

Drawings

FIG. 1 is a schematic structural diagram of the present invention shown in FIG. 1;

fig. 2 is a top view of the present invention as a schematic structural diagram;

in the figure: the device comprises a machine frame 1, a water tank 2, an ice clothes tank 3, a material loading input device 4, an ice clothes plating transport device 5, a liquid level sensor 6, a supporting column 7, a universal wheel 8, a truss 9, a nozzle 10, a water pump water outlet pipe 11, a water pump 12, a water pump water inlet pipe 13, a temperature sensor 14, a control system 15, a sewage discharge outlet 16, an arc buffer plate 17, a cam horizontal pushing mechanism 18, a cam 181, a spring 182, a 183 push plate 19, a power system 20, a transmission mechanism 20, a support frame 21, a material carrying partition plate 22, a water inlet 23, a discharge opening 24, a connecting frame 25, an electromagnetic valve 26, a nozzle electromagnetic valve 27 and a sewage discharge.

Detailed Description

In order to fully disclose the present invention, the following detailed description will be given taking specific examples as examples.

As shown in attached figures 1 and 2, the tuna ice coat plating device is composed of a frame, a front-end system, a middle-end system, a rear-end system, a control system 15 and a power system 19.

The frame comprises a frame 1, a support frame 21, a support column 7, a universal wheel 8 and a truss 9; the front-end system comprises a feeding input device 4, a water inlet 23, an electromagnetic valve 26 and a liquid level sensor 6.

The middle-end system comprises an arc-shaped buffer plate 17, an ice coat groove 3, an ice coat plated conveying device 5, a water groove 2, a strip partition plate 22, a sewage discharge outlet 16, a sewage discharge electromagnetic valve 28, a nozzle 10, a nozzle electromagnetic valve 27, a water pump water outlet pipe 11 and a water pump water inlet pipe 13; the back end system comprises a water pump 12, a temperature sensor 14, a cam horizontal pushing mechanism 18 and a transmission mechanism 20.

The water tank 2 and the ice clothes tank 3 are arranged above the rack 1, the supporting column 7 is fixedly installed at the lower end of the rack 1, the universal wheel 8 is connected to the lower end of the supporting column, and the upper end of the supporting column 7 is connected with the device body through the truss 9.

The ice clothes groove 3 is positioned in the water groove 2; the left side of the ice-clothes groove 3 is fixedly provided with a water inlet 23 and is controlled by an electromagnetic valve 26, and the inner wall is provided with a liquid level sensor 6.

A sewage discharge outlet 16 is arranged at the bottom of the left side of the water tank, and a temperature sensor 14 is arranged on the inner wall of the right side of the water tank; the bottom of the water tank is provided with a water pump outlet pipe 11 and a nozzle 10, the water pump outlet pipe 11 is connected with a water pump 12, and a water pump inlet pipe 13 is connected with the right side of the water tank.

The nozzle 10 is positioned below the ice-coated clothes conveying device 5; a nozzle electromagnetic valve 27 is arranged in front of the nozzle 10, and the nozzle electromagnetic valve 27 is controlled by the control system 15;

a support frame 21 is arranged below the feeding input device 4 and is connected with the rack 1 through the support frame 21, and an arc-shaped buffer plate 17 is connected with the feeding input device 4 and the ice-coated clothes conveying device 5;

the cam horizontal pushing mechanism 18 is fixedly arranged at the tail end of the ice-coated clothes conveying device 5;

the power system 19 and the transmission mechanism 20 are positioned below the tail end of the ice-coated clothes conveying device 5 and connected with the water pump 12;

the control system 15 is integrated with the power system 19.

The bottom of the ice-coat groove 3 is of a hollow structure, a nozzle 10 is installed at the bottom of the water groove, a water pump 12 is installed inside the right side of the rack and is fixedly connected with a water pump water inlet pipe 13 and a water pump water outlet pipe 11, and the nozzle 10 is evenly arranged on the water pump water outlet pipe 11 according to the spacing distance of 30-50 cm.

A liquid level sensor 6 is arranged below a water inlet of the ice-clothes groove 3, a temperature sensor 14 is arranged on the inner wall of the right side of the water groove, and a control system 15 is arranged above the water groove to control the liquid level and the temperature.

The bottom of the water tank is provided with a sewage discharge outlet 16 and is controlled by a sewage discharge electromagnetic valve 28.

A supporting frame 21 is arranged below the feeding conveying device 4, an arc-shaped buffer plate 17 is arranged at the tail end of the feeding conveying device, and a cam horizontal pushing mechanism 18 is arranged at the tail end of the discharging output device. The cam pushing mechanism 18 pushes the material into the feed opening 24.

The power system 19 and the transmission mechanism 20 are positioned below the cam horizontal pushing mechanism 18.

The control system 15 controls the solenoid valve 26, the blowdown solenoid valve 28, and the nozzle solenoid valve 27 to open and close.

The connecting frame 25 is used for connecting the water tank 2 and the ice clothes tank 3, and plays a role in connection and reinforcement.

The ice-coated clothes conveying device 5 is made of a food-grade stainless steel chain plate with a partition plate, and a material partition plate 22 is arranged on the surface of the ice-coated clothes conveying device to stir materials. The material can be moved forward along with the transport device.

The ice clothes groove is positioned in the water tank, the bottom of the ice clothes groove is hollow, and the ice clothes groove is arranged as an outer water tank and an inner ice clothes groove so as to maintain small temperature fluctuation in the ice clothes groove and have high temperature control precision. The left side is fixedly provided with a water inlet and a liquid level sensor, the bottom of the water tank can adopt an arc-shaped structure, the water tank is convenient to clean, the bottom of the water tank is provided with a drain outlet, and the water inlet and the drain outlet are provided with electromagnetic valves and controlled by a control system.

The equidistant nozzle that sets up in basin bottom, the nozzle interval can be according to actual demand setting, connects inlet tube and outlet pipe by the water pump, inlet tube intercommunication basin, ice clothing liquid cyclic utilization. And the ice clothes liquid is replenished from the water inlet every 8 hours. The ice clothes liquid is conveyed to the nozzle to be sprayed out to form disturbance fluid, so that the material on the ice clothes plating conveying device is continuously rolled, and the ice clothes plating layer is ensured to be more uniform.

The conveying belts of the feeding input device and the ice coating conveying device can adopt stainless steel chain plates, the surfaces of the conveying belts of the ice coating conveying device are provided with belt material partition plates at equal intervals, and the intervals between the partition plates are 15-20 cm and are set according to actual conditions.

The control system is internally provided with a liquid level control program and a temperature control program, and can automatically control the liquid level and the temperature of the liquid for making the liquid laundry according to the monitoring results of the temperature sensor and the liquid level sensor.

The arc buffer board is connected with the feeding input device and the feeding output device, and materials enter the ice coating groove through the arc buffer board, so that the materials are prevented from falling to influence the quality of the materials.

The end of the ice coating transportation device is provided with a material pushing mechanism, and the embodiment takes a cam horizontal pushing mechanism as an example and consists of a rotating cam, a spring and a material pushing plate. The cam 181 rotates around the cam shaft and is connected to the push plate 183 through the spring 182, the cam rotates for a circle, the push plate reciprocates once, and the reciprocating motion of the push plate pushes the material from the ice-coated clothes conveyer to the feed opening. The speed of the rotational movement of the cam is controlled by a control system. The control program can be adjusted according to the size and shape of the material.

The width of the material pushing plate is 15-20 cm and is set according to the interval width of the material carrying partition plates on the surface of the blanking conveying belt; after the material is plated with the ice clothes, the material is horizontally pushed to the feed opening by the cam horizontal pushing mechanism, so that damage to the material ice clothes is reduced.

The power system drives the water pump and the cam mechanism, the rotating speed is adjusted through the frequency converter arranged inside the power system, the conveying speed of the discharging output device is adjusted, the staying time of materials in the ice-coat liquid is controlled, and the thickness of the ice coat is controlled.

The utility model discloses when using, at first connect the water inlet and ice clothing liquid storage tank, open the water inlet valve through control system, when treating that liquid level height and temperature reach the setting value, start driving system.

Materials enter the device through the feeding input system, slide into the ice coat groove through the arc-shaped buffer plate, and are driven to move forwards by the ice coat plating transportation device; under the action of the ice coating liquid sprayed by the nozzle below the water tank, the materials continuously roll, and the surfaces of the materials are ensured to be fully contacted with the ice coating liquid; after ice coating is finished, the material is taken out of the ice coating groove by the discharging output device and pushed to the discharging opening by the cam horizontal pushing structure; when the equipment is maintained, the equipment is shut down, and the water tank and the ice clothing liquid in the ice clothing tank can be discharged through the drain outlet.

The utility model has the advantages of simple and reasonable structure, degree of automation is high, is applicable to tuna and plates ice clothing process, and ice clothing thickness is even, and the transparency is high, and no burr and crackle can effectively promote ice clothing quality, improve production efficiency.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (8)

1. The utility model provides a tuna plates ice clothing device, by frame, front end system, the middle-end system, back-end system, control system (15) and driving system (19) constitute, its characterized in that:

the frame comprises a rack (1), a support frame (21), a support column (7), universal wheels (8) and a truss (9); the front-end system comprises a feeding input device (4), a water inlet (23), an electromagnetic valve (26) and a liquid level sensor (6);

the middle-end system comprises an arc-shaped buffer plate (17), an ice coat groove (3), an ice coat plated conveying device (5), a water tank (2), a material carrying partition plate (22), a sewage discharge outlet (16), a sewage discharge electromagnetic valve (28), a nozzle (10), a nozzle electromagnetic valve (27), a water pump water outlet pipe (11) and a water pump water inlet pipe (13); the back end system comprises a water pump (12), a temperature sensor (14), a cam horizontal pushing mechanism (18) and a transmission mechanism (20);

a water tank (2) and an ice clothes tank (3) are arranged above the rack (1), a support column (7) is fixedly mounted at the lower end of the rack (1), the lower end of the support column is connected with a universal wheel (8), and the upper end of the support column (7) is connected with the device body through a truss (9);

the ice clothes groove (3) is positioned inside the water groove (2); a water inlet (23) is fixedly arranged at the left side of the ice clothes groove (3), an electromagnetic valve (26) is arranged for controlling, and a liquid level sensor (6) is arranged on the inner wall of the ice clothes groove;

a sewage draining outlet (16) is arranged at the bottom of the left side of the water tank, and a temperature sensor (14) is arranged on the inner wall of the right side of the water tank; a water pump outlet pipe (11) and a nozzle (10) are arranged at the bottom of the water tank, the water pump outlet pipe (11) is connected with a water pump (12), and a water pump inlet pipe (13) is connected with the right side of the water tank;

the nozzle (10) is positioned below the ice coating transportation device (5); a nozzle electromagnetic valve (27) is arranged in front of the nozzle (10), and the nozzle electromagnetic valve (27) is controlled by a control system (15);

a support frame (21) is arranged below the feeding input device (4) and is connected with the rack (1) through the support frame (21), and an arc-shaped buffer plate (17) is connected with the feeding input device (4) and the ice-coated clothes conveying device (5);

the cam horizontal pushing mechanism (18) is fixedly arranged at the tail end of the ice-coated clothes conveying device (5);

the power system (19) and the transmission mechanism (20) are positioned below the tail end of the ice-coated clothes conveying device (5) and are connected with the water pump (12);

the control system (15) and the power system (19) are arranged in a centralized manner.

2. The tuna ice coating device according to claim 1, wherein:

ice clothing groove (3) bottom is hollow structure, and basin bottom installation nozzle (10), frame right side internally mounted water pump (12), water pump fixed connection water pump inlet tube (13) and water pump outlet pipe (11), evenly arranges nozzle (10) according to 30 ~ 50 cm's interval distance on the water pump outlet pipe (11).

3. The tuna ice coating device according to claim 1, wherein:

a liquid level sensor (6) is arranged below a water inlet of the ice clothes groove, a temperature sensor (14) is arranged on the inner wall of the right side of the water groove, and a control system (15) is arranged above the water groove to control the liquid level and the temperature;

the bottom of the water tank is provided with a sewage outlet (16) and is controlled by a sewage discharge electromagnetic valve (28).

4. The tuna ice coating device according to claim 1, wherein:

a supporting frame (21) is arranged below the feeding input device (4), the tail end of the feeding input device is provided with an arc-shaped buffer plate (17), and the tail end of the discharging output device is provided with a cam horizontal pushing mechanism (18).

5. The tuna ice coating device according to claim 1, wherein: the power system (19) and the transmission mechanism (20) are positioned below the cam horizontal pushing mechanism.

6. The tuna ice coating device according to claim 1, wherein: the control system (15) controls the opening and closing of the electromagnetic valve (26), the sewage discharge electromagnetic valve (28) and the nozzle electromagnetic valve (27).

7. The tuna ice coating device according to claim 1, wherein: the ice coating transportation device (5) is made of a food-grade stainless steel chain plate with a partition plate, and a material-carrying partition plate (22) is arranged on the surface of the ice coating transportation device to stir materials.

8. The tuna ice coating device according to claim 1, wherein: the ice clothes liquid is replenished from the water inlet (23) every 8 hours.

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