CN212987738U

CN212987738U - Cooling mechanism for multi-air-duct quick freezer

Info

Publication number: CN212987738U
Application number: CN202022161370.7U
Authority: CN
Inventors: 王凤新; 张忠明
Original assignee: Zhejiang Kanglian Intelligent Equipment Co ltd
Current assignee: Zhejiang Kanglian Intelligent Equipment Co ltd
Priority date: 2020-09-27
Filing date: 2020-09-27
Publication date: 2021-04-16
Anticipated expiration: 2030-09-27

Abstract

The utility model provides a cooling mechanism for multi-duct quick freezer. It has solved current technical problem. This cooling body for quick-freeze machine in multiple wind channels, including the cooling storehouse, the both sides in cooling storehouse open and have a plurality of bar air intakes of interval arrangement from top to bottom, bar air intake upper shield be equipped with have with the cold air blower cover that the air-cooler is linked together, the both sides of bar air intake be linked together in cooling storehouse and cold air blower cover respectively, and one side that the bar air intake is located the cooling storehouse articulates there is the aviation baffle, the aviation baffle even have swing operating device, be equipped with the pay-off conveyer belt in the cooling storehouse, just the top of pay-off conveyer belt be equipped with the humidification subassembly, the below of pay-off conveyer belt be equipped with down the humidification subassembly. The utility model has the advantages of good freezing effect and the like.

Description

Cooling mechanism for multi-air-duct quick freezer

Technical Field

The utility model belongs to the technical field of the frozen machine, especially, relate to a cooling body for quick-freezer in multiple wind channels.

Background

At present, the equipment commonly used for quick freezing of food is a quick freezer, which is a high-efficiency freezing equipment capable of freezing a large amount of frozen products in a short time. It is possible to efficiently and economically freeze various frozen products such as meat, fish, shrimp, balls, vegetables, and prepared foods, dairy products, etc. in various shapes, which are placed inside a quick freezer. The instant freezer can be generally classified into a pusher instant freezer, a reciprocating instant freezer, a plate instant freezer, a fluidized instant freezer, a tunnel instant freezer, a screw instant freezer, a lift instant freezer, and the like. Most of the existing instant freezers adopt an air cooler to directly cool and humidify materials on a feeding channel, cold air is easy to run off, and the freezing effect is poor.

In response to this problem, research and study have been conducted in long-term production and life practice, for example, chinese utility model patent discloses an improved tunnel type liquid nitrogen instant freezer [ application No.: 201520006527.5], the utility model discloses a include a tunnel type freezer, and the surrounding type conveyer belt in the freezer, be equipped with the supporting rail on the freezer lateral wall between two-layer conveyer belt, the supporting rail extends to the discharge end by the feed end of freezer, its characterized in that: the side wall of the freezing chamber in contact with the supporting guide rail is internally provided with a diffusion cavity along the trend of the freezing chamber, the supporting guide rail is provided with a plurality of through holes for communicating the cavity between the upper conveying belt and the lower conveying belt with the diffusion cavity, the wall of the freezing chamber is internally provided with a pipeline for communicating the diffusion cavity with the space above the upper conveying belt, and the pipeline is provided with an exhaust fan.

The solution described above improves to some extent some of the problems of the prior art, but it also has at least the following drawbacks: the freezing effect is poor.

Disclosure of Invention

The utility model aims at the above problem, provide a cooling body for multi-duct quick-freezer that refrigeration effect is good.

In order to achieve the above purpose, the utility model adopts the following technical proposal: this cooling body for quick-freeze machine in multiple wind channels, including the cooling storehouse, the both sides in cooling storehouse open and have a plurality of bar air intakes of interval arrangement from top to bottom, bar air intake upper shield be equipped with have with the cold air blower cover that the air-cooler is linked together, the both sides of bar air intake be linked together in cooling storehouse and cold air blower cover respectively, and one side that the bar air intake is located the cooling storehouse articulates there is the aviation baffle, the aviation baffle even have swing operating device, be equipped with the pay-off conveyer belt in the cooling storehouse, just the top of pay-off conveyer belt be equipped with the humidification subassembly, the below of pay-off conveyer belt be equipped with down the humidification subassembly. The strip air inlets at two sides of the cooling bin are arranged at intervals up and down to perform full quick freezing on materials of different height objects in the cooling bin, the air deflector is connected with a swing operating mechanism to adjust the wind direction of cold air, the cold air can be blown to the materials accurately, a humidifying device in the cooling bin is divided into an upper humidifying component and a lower humidifying component, the materials can be humidified in all directions in the vertical direction, and the freezing effect is improved.

In the cooling mechanism for the multi-air-channel quick freezer, the rear side of the air deflector is hinged above the opening direction of the strip-shaped air inlet, and the front side of the air deflector is a free end. The aviation baffle articulates in the top of bar air intake opening direction and can swing along this pin joint for the cold wind that the bar air intake blew out can all blow to the aviation baffle below, thereby realizes the direction of wind direction.

In the cooling mechanism for the multi-air-channel quick freezer, the swing operating mechanism comprises operating rods arranged at two ends of each air deflector, each air deflector is connected with the operating rods through fixing bolts, the upper ends of the operating rods extend out of the upper end face of the cooling bin, the operating rods can axially reciprocate to lift, and a lifting positioning mechanism is further arranged between each operating rod and the cooling bin. The operation rod is lifted or lowered to realize the integral swing of the air guide plate in the cooling bin, and the adjustment is convenient.

In the cooling mechanism for the multi-air-duct quick freezer, the lifting positioning mechanism comprises a positioning seat arranged at the top side of the cooling bin, the operating rod comprises an operating part and a connecting part, the operating part and the connecting part rotate relatively in the circumferential direction and are relatively fixed in the axial direction, and the operating part extends out of the top side of the cooling bin and is in threaded connection with the positioning seat. Operation portion and positioning seat threaded connection rotate the operation portion in-process, and operation portion can be in the axial lift of positioning seat, and operation portion drives connecting portion in step and goes up and down at the axial lift in-process to realize the lift and the location of whole action bars.

In the cooling mechanism for the multi-air-channel quick freezer, the top side of the operation part is fixedly connected with the operation handle body.

In the cooling mechanism for the multi-air-channel quick freezer, the connecting part is connected to the middle part of the end part of the air deflector.

In the cooling mechanism for the multi-air-channel quick freezer, the upper humidifying component comprises an upper humidifying pipeline laid on the top of the cooling bin, a plurality of upper humidifying nozzles are communicated between the top side of the inner cavity of the cooling bin and the upper humidifying pipeline, and the upper humidifying nozzles are arranged in a rectangular shape. The upper humidifying pipeline is connected with a humidifying pump, the upper humidifying nozzles are in a conical shape and are arranged in a rectangular shape, and materials on the feeding conveying belt can be sufficiently humidified, so that the humidifying effect is improved.

In the cooling mechanism for the multi-air-channel quick freezer, the lower humidifying component comprises a lower humidifying pipeline laid at the bottom of the cooling bin, a plurality of lower humidifying nozzles are communicated between the bottom side of the inner cavity of the cooling bin and the lower humidifying pipeline, and the lower humidifying nozzles are arranged in a rectangular shape. The lower humidifying pipeline is connected with a humidifying pump, the lower humidifying nozzles are in a conical shape and are arranged in a rectangular shape, so that materials on the feeding conveying belt can be fully humidified at the bottom, and the humidifying effect is further improved.

In the cooling mechanism for the multi-air-channel quick freezer, the feeding conveyor belt is provided with a plurality of through holes. The through hole can spray water mist sprayed out by the lower humidifying sprayer to the bottom side of the material, so that the material is humidified more comprehensively.

In the cooling mechanism for the multi-air-channel quick freezer, two feeding conveyor belts are arranged.

Compared with the prior art, the cooling mechanism for the multi-air-channel quick freezer has the advantages that: the design is reasonable, and the strip-shaped air inlets on the two sides of the cooling bin are arranged at intervals up and down to fully quickly freeze materials with different heights in the cooling bin; the humidifying device in the cooling bin is divided into an upper humidifying component and a lower humidifying component, and can humidify the materials in all directions in the vertical direction, so that the freezing effect is improved.

Drawings

FIG. 1 is a cross-sectional view of the structure provided by the present invention;

fig. 2 is a schematic structural diagram of the exterior provided by the present invention;

fig. 3 is a schematic structural diagram of a swing operating mechanism provided by the present invention;

in the figure, a cooling bin 1, a strip-shaped air inlet 2, an air cooler 3, an air cooler cover 4, an air deflector 5, a swing operating mechanism 6, a feeding conveyor belt 7, an upper humidifying component 8, a lower humidifying component 9, an operating rod 10, a fixing bolt 11, a lifting positioning mechanism 12, a positioning seat 13, an operating part 14, a connecting part 15, an operating handle body 16, an upper humidifying pipeline 17, an upper humidifying spray head 18, a lower humidifying pipeline 19, a lower humidifying spray head 20 and a through hole 21 are arranged.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-3, the cooling mechanism for the multi-duct quick freezer comprises a cooling bin 1, wherein a plurality of strip-shaped air inlets 2 are arranged on two sides of the cooling bin 1 at intervals, an air cooler cover 4 communicated with the air cooler 3 is arranged on the strip-shaped air inlets 2 in a covering manner, two sides of each strip-shaped air inlet 2 are respectively communicated with the cooling bin 1 and the air cooler cover 4, an air deflector 5 is hinged to one side, located on the cooling bin 1, of each strip-shaped air inlet 2, the air deflector 5 is connected with a swing operating mechanism 6, a feeding conveyor belt 7 is arranged in the cooling bin 1, an upper humidifying component 8 is arranged above the feeding conveyor belt 7, and a lower humidifying component 9 is arranged below the feeding.

The strip air intake 2 of 1 both sides in cooling bin can all carry out abundant quick-freezing to the material of the not co-altitude thing in the cooling bin 1 from top to bottom interval arrangement, and aviation baffle 5 even has swing operating device 6 can realize the regulation of cold wind direction for cold wind can accurately blow to the material, and humidification device in the cooling bin 1 divide into humidification subassembly 8 and lower humidification subassembly 9, can be in vertical direction to the humidification of material full aspect, thereby improves freezing effect.

Preferably, the aviation baffle 5 rear side articulates in the top of 2 opening directions in bar air intake, and the front side is the free end, and aviation baffle 5 articulates in the top of 2 opening directions in bar air intake and can swing along this pin joint for the cold wind that bar air intake 2 blew out can all blow to aviation baffle 5 below, thereby realizes the direction of wind direction.

The swing operating mechanism 6 comprises operating rods 10 arranged at two ends of each air deflector 5, each air deflector 5 is connected with the operating rods 10 through fixing bolts 11, the upper end of each operating rod 10 extends out of the upper end face of the cooling bin 1, the operating rods 10 can axially reciprocate to lift, a lifting positioning mechanism 12 is further arranged between each operating rod 10 and the corresponding cooling bin 1, the air deflectors 5 in the cooling bin 1 can swing integrally through lifting or descending the operating rods 10, and adjustment is convenient.

Further, the lifting positioning mechanism 12 includes a positioning seat 13 disposed on the top side of the cooling chamber 1, the operating rod 10 includes an operating portion 14 and a connecting portion 15, the operating portion 14 and the connecting portion 15 relatively rotate in the circumferential direction and relatively fix in the axial direction, and the operating portion 14 extends out of the top side of the cooling chamber 1 and is in threaded connection with the positioning seat 13.

The operation part 14 is in threaded connection with the positioning seat 13, the operation part 14 can axially lift in the positioning seat 13 in the process of rotating the operation part 14, and the operation part 14 synchronously drives the connecting part 15 to lift in the axial lifting process, so that the lifting and the positioning of the whole operation rod 10 are realized.

Furthermore, an operation handle body 16 is fixedly connected to the top side of the operation part 14, and the connecting part 15 is connected to the middle of the end part of the air deflector 5.

The upper humidifying component 8 comprises an upper humidifying pipeline 17 laid on the top of the cooling bin 1, a plurality of upper humidifying nozzles 18 are communicated between the top side of the inner cavity of the cooling bin 1 and the upper humidifying pipeline 17, the upper humidifying nozzles 18 are arranged in a rectangular shape, the upper humidifying pipeline 17 is connected with a humidifying pump, the upper humidifying nozzles 18 are in a conical shape, and the upper humidifying nozzles 18 are arranged in a rectangular shape and can fully humidify materials on the feeding conveyor belt 7, so that the humidifying effect is improved; lower humidification subassembly 9 is including laying the lower humidification pipeline 19 in cooling bin 1 bottom, and the intercommunication has a plurality of humidification shower nozzles 20 down between the bottom side of cooling bin 1 inner chamber and the lower humidification pipeline 19, and humidification shower nozzles 20 are the rectangle and arrange down, and lower humidification pipeline 19 here even has the humidification pump, and lower humidification shower nozzle 20 here is the taper, and lower humidification shower nozzle 20 is the rectangle and arranges and can carry out the abundant humidification of bottom to the material on the pay-off conveyer belt 7, further improves the humidification effect.

In addition, a plurality of through holes 21 are formed in the feeding conveyor belt 7, wherein the through holes 21 can enable water mist sprayed out of the lower humidifying nozzles 20 to be sprayed to the bottom side of the material, so that the material is humidified more comprehensively, and the number of the feeding conveyor belt 7 is two.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although terms such as the cooling chamber 1, the strip-shaped air inlet 2, the air cooler 3, the air cooler cover 4, the air deflector 5, the swing operating mechanism 6, the feeding conveyor belt 7, the upper humidifying component 8, the lower humidifying component 9, the operating rod 10, the fixing bolt 11, the lifting positioning mechanism 12, the positioning seat 13, the operating part 14, the connecting part 15, the operating handle body 16, the upper humidifying pipeline 17, the upper humidifying spray head 18, the lower humidifying pipeline 19, the lower humidifying spray head 20, the through hole 21 and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims

1. The cooling mechanism for the multi-air-channel quick freezer comprises a cooling bin (1) and is characterized in that a plurality of strip-shaped air inlets (2) are formed in two sides of the cooling bin (1) and are arranged at intervals from top to bottom, a cold air fan cover (4) communicated with an air cooler (3) is arranged on the upper cover of each strip-shaped air inlet (2), two sides of each strip-shaped air inlet (2) are communicated with the corresponding cooling bin (1) and the corresponding cold air fan cover (4) respectively, an air deflector (5) is hinged to one side, located on the corresponding cooling bin (1), of each strip-shaped air inlet (2), the air deflector (5) is connected with a swing operating mechanism (6), a feeding conveyor belt (7) is arranged in the corresponding cooling bin (1), an upper humidifying component (8) is arranged above the feeding conveyor belt (7), and a lower humidifying component (9) is arranged below the feeding conveyor.

2. The cooling mechanism for the quick-freezer with multiple air ducts as claimed in claim 1, wherein the rear side of the air deflector (5) is hinged above the opening direction of the strip-shaped air inlet (2), and the front side is a free end.

3. The cooling mechanism for the multi-air-channel quick-freezing machine as claimed in claim 2, wherein the swing operating mechanism (6) comprises operating rods (10) arranged at two ends of the air deflectors (5), each air deflector (5) is connected with the operating rod (10) through a fixing bolt (11), the upper end of the operating rod (10) extends out of the upper end face of the cooling bin (1), the operating rod (10) can axially reciprocate to lift, and a lifting positioning mechanism (12) is further arranged between the operating rod (10) and the cooling bin (1).

4. The cooling mechanism for the multi-duct quick freezer as claimed in claim 3, wherein the lifting positioning mechanism (12) comprises a positioning seat (13) arranged on the top side of the cooling bin (1), the operating rod (10) comprises an operating part (14) and a connecting part (15), the operating part (14) and the connecting part (15) relatively rotate in the circumferential direction and are relatively fixed in the axial direction, and the operating part (14) extends out of the top side of the cooling bin (1) and is in threaded connection with the positioning seat (13).

5. The cooling mechanism for the multi-duct quick freezer as claimed in claim 4, wherein the top side of the operation part (14) is fixedly connected with the operation handle body (16).

6. The cooling mechanism for the multi-duct quick freezer as claimed in claim 4, wherein the connecting part (15) is connected to the middle of the end of the air deflector (5).

7. The cooling mechanism for the multi-duct quick-freezing machine as claimed in claim 1, wherein the upper humidifying component (8) comprises an upper humidifying pipeline (17) laid on the top of the cooling bin (1), a plurality of upper humidifying nozzles (18) are communicated between the top side of the inner cavity of the cooling bin (1) and the upper humidifying pipeline (17), and the upper humidifying nozzles (18) are arranged in a rectangular shape.

8. The cooling mechanism for the multi-duct quick-freezing machine as claimed in claim 1, wherein the lower humidifying component (9) comprises a lower humidifying pipeline (19) laid at the bottom of the cooling bin (1), a plurality of lower humidifying nozzles (20) are communicated between the bottom side of the inner cavity of the cooling bin (1) and the lower humidifying pipeline (19), and the lower humidifying nozzles (20) are arranged in a rectangular shape.

9. The cooling mechanism for the multi-duct quick freezer as claimed in claim 8, wherein the feeding conveyor belt (7) is provided with a plurality of through holes (21).

10. The cooling mechanism for the multi-duct quick freezer as claimed in claim 1, wherein the number of the feeding conveyor belts (7) is two.