CN215046680U - Cooling equipment - Google Patents

Abstract

The utility model provides a cooling device, including the transfer chain, the cooling fan housing, the air-supply line, first guide duct and second guide duct, the transfer chain is used for bearing and transporting the product, cooling fan housing lid closes on the transfer chain and extends along the direction of transporting of transfer chain, first guide duct and second guide duct are located the both sides of transfer chain respectively in the direction of transporting of perpendicular to transfer chain, and first guide duct and second guide duct extend and lie in the cooling fan housing along the direction of transporting of transfer chain respectively, a plurality of first exhaust vents have been seted up towards the side of transfer chain to first guide duct, a plurality of second exhaust vents have been seted up towards the side of transfer chain to the second guide duct, the air intake of air-supply line runs through the cooling fan housing and is connected with the air-cooler, the first air outlet and the first guide duct of air-supply line are linked together, the second air outlet and the second guide duct of air-supply line are linked together. The utility model discloses cooling arrangement's degree of automation is high, and the simple operation is high-efficient, and the cooling effect is good moreover.

Description

Cooling equipment

Technical Field

The utility model belongs to the technical field of the cooling arrangement technique and specifically relates to a cooling arrangement suitable for compressor product is related to.

Background

The compressor is a driven fluid machine for lifting low-pressure gas into high-pressure gas, is a heart of a refrigeration system, sucks low-temperature low-pressure refrigerant gas from an air suction pipe, compresses the refrigerant gas, and discharges high-temperature high-pressure refrigerant gas to an air discharge pipe to provide power for a refrigeration cycle. Wherein, the compressor can carry out the bearing assembly through the hot-packing technology in the assembling process, and the compressor unit spare temperature after the hot-packing is higher, needs the cooling to handle.

At present, the working speed of cooling equipment for cooling a compressor assembly subjected to hot charging is low, and the quality of a product is influenced. Moreover, the automatic production degree of the existing cooling equipment is lower, and the production efficiency is reduced.

Disclosure of Invention

In order to realize the utility model discloses a main objective, the utility model provides an automatic degree is high, the cooling effect is good and the efficient cooling arrangement of simple operation.

In order to realize the main purpose of the utility model, the utility model provides a cooling device, which comprises a conveying line, a cooling fan cover, an air inlet pipe, a first air guide pipe and a second air guide pipe, wherein the conveying line is used for bearing and conveying products, the cooling fan cover covers the conveying line and extends along the conveying direction of the conveying line, the first air guide pipe and the second air guide pipe are respectively positioned at two sides of the conveying line in the conveying direction vertical to the conveying line, and the first air guide pipe and the second air guide pipe respectively extend along the conveying direction of the conveying line and are positioned in the cooling fan cover, a plurality of first air outlet holes are formed in the side face, facing the conveying line, of the first air guide pipe, a plurality of second air outlet holes are formed in the side face, facing the conveying line, of the second air guide pipe, an air inlet of the air inlet pipe penetrates through the cooling fan cover and is connected with the air cooler, a first air outlet of the air inlet pipe is communicated with the first air guide pipe, and a second air outlet of the air inlet pipe is communicated with the second air guide pipe.

As can be seen from the above, the products continuously enter the cooling hoods while the conveyor line conveys the products in the conveying direction of the conveyor line. The cold wind of air-cooler passes through behind the air-supply line and shunts for first guide duct and second guide duct through the first air outlet and the second air outlet of air-supply line, and first guide duct carries out the air-cooled processing through first air-out hole to the product, and the product is carried out the air-cooled processing through the second air-out hole to the second guide duct simultaneously. Because first guide duct and second guide duct are located the both sides of transfer chain respectively in the direction of transport of perpendicular to transfer chain, and first guide duct and second guide duct extend and lie in the cooling fan housing along the direction of transport of transfer chain respectively to the continuity carries out the forced air cooling to a plurality of sides of product and handles, not only structural design is reasonable, degree of automation is high, the simple operation is high-efficient, has improved the air-cooled effect to the product moreover effectively. The utility model discloses cooling arrangement not only is applicable to and carries out cooling treatment to the compressor product, also is applicable to the cooling treatment for realizing the purpose of better forced air cooling effect and automated production product, has higher market using value.

The further proposal is that heat insulation cotton is embedded in the wall plate of the cooling fan cover.

A further scheme is that the cooling device further comprises a first lifting door, a first drive control mechanism, a second lifting door and a second drive control mechanism, wherein the first lifting door and the second lifting door are respectively arranged at two ends of the cooling fan housing in the conveying direction of the conveying line, the first drive control mechanism can control the first lifting door to movably open or close a first port of the cooling fan housing in the vertical direction, the second drive control mechanism can control the second lifting door to movably open or close a second port of the cooling fan housing in the vertical direction, and the cooling fan housing is provided with an air guide opening.

The further scheme is that a first end of the cooling fan housing is provided with a first guide rail extending in the vertical direction, a first lifting door is provided with a first sliding block, the first sliding block is slidably matched with the first guide rail, a first driving control mechanism is a first driving air cylinder, a piston rod of the first driving air cylinder is connected with the first lifting door, a second end of the cooling fan housing is provided with a second guide rail extending in the vertical direction, a second lifting door is provided with a second sliding block, the second sliding block is slidably matched with the second guide rail, a second driving control mechanism is a second driving air cylinder, and a piston rod of the second driving air cylinder is connected with the second lifting door.

The further scheme is that a plurality of first air outlet holes are formed in parallel in the vertical direction to form a plurality of groups of first cooling air channels, each group of first cooling air channels is formed by arranging a plurality of first air outlet assemblies in parallel in the conveying direction of the conveying line, and each first air outlet assembly is formed by arranging a plurality of first air outlet holes in parallel in the conveying direction of the conveying line; and/or, a plurality of second exhaust vents form multiunit second cooling air duct side by side in vertical direction, and each group's second cooling air duct sets up side by side in the direction of transportation of transfer chain by a plurality of second air-out subassemblies and forms, and each second air-out subassembly sets up side by side in the direction of transportation of transfer chain by a plurality of second exhaust vents and forms.

The further scheme is that the conveying line comprises a driving mechanism, two chains and a plurality of jigs, the two chains are arranged side by side in parallel, the driving mechanism controls the two chains to move in the conveying direction of the conveying line synchronously, and the plurality of jigs are located on the two chains respectively and place products.

The conveying line further comprises two groups of supporting assemblies, one group of supporting assemblies is located below one chain in the vertical direction, each group of supporting assemblies comprises a supporting bar and a plurality of rollers, and the rollers are rotatably supported on the supporting bar and arranged side by side in the conveying direction of the conveying line.

A further scheme is, a cooling arrangement still includes unloading mechanism, unloading mechanism includes first movement control subassembly, the second movement control subassembly, elastic component and clamping jaw subassembly, the steerable clamping jaw subassembly of first movement control subassembly moves in the horizontal direction, the steerable clamping jaw subassembly of second movement control subassembly moves in vertical direction, clamping jaw subassembly is located the top of transfer chain on vertical direction, the elastic component forces the clamping jaw subassembly to be close to the transfer chain, clamping jaw subassembly includes first clamping jaw, the second clamping jaw, third clamping jaw and three-jaw control subassembly, the steerable first clamping jaw of three-jaw control subassembly, second clamping jaw and third clamping jaw move towards or keep away from each other.

The feeding mechanism comprises a feeding mechanism body, a first movable control assembly, a second movable control assembly, an elastic piece, a clamping jaw assembly, a third movable control assembly, a fourth movable control assembly, a fifth movable control assembly, a sixth movable control assembly, a fifth movable control assembly and a fifth movable control assembly.

The feeding mechanism further comprises a moving plate and a linkage plate, the first movement control assembly comprises a control cylinder, a third guide rail and a third slider, the third guide rail extends in the horizontal direction and is supported on the conveying line through a suspension beam, the third slider is arranged on the moving plate, a piston rod of the control cylinder is connected with the moving plate, the second movement control assembly is arranged on the moving plate and can control the linkage plate to move in the vertical direction, and the connecting plate is arranged on the linkage plate.

Drawings

Fig. 1 is a first view structural diagram of an embodiment of a cooling apparatus of the present invention.

Fig. 2 is a second perspective view of an embodiment of the cooling apparatus of the present invention.

Fig. 3 is a block diagram of a conveyor line in an embodiment of a cooling apparatus of the present invention.

Figure 4 is a block diagram of a support assembly in an embodiment of a cooling apparatus of the present invention.

Fig. 5 is a first partial block diagram of an embodiment of a cooling apparatus of the present invention.

Fig. 6 is a second partial block diagram of an embodiment of a cooling apparatus of the present invention.

Fig. 7 is a sectional view of a first partial structure of an embodiment of a cooling apparatus of the present invention.

Fig. 8 is a second partial structural cross-sectional view of an embodiment of a cooling apparatus of the present invention.

Fig. 9 is a structural diagram of a blanking mechanism in an embodiment of the cooling apparatus of the present invention.

Fig. 10 is a first partial structural view of a blanking mechanism in an embodiment of a cooling apparatus of the present invention.

Fig. 11 is a second partial structure diagram of a blanking mechanism in an embodiment of the cooling apparatus of the present invention.

Fig. 12 is a partial exploded view of a blanking mechanism in an embodiment of a cooling apparatus according to the present invention.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

Referring to fig. 1 to 8, the embodiment discloses a cooling apparatus 1, which includes a conveying line 2, a cooling fan housing 5, an air inlet pipe 10, a first air guiding pipe 8, a second air guiding pipe 9, a first lifting door 6, a first driving control mechanism, a second lifting door 7, a second driving control mechanism, and a blanking mechanism 3, wherein the conveying line 2 is used for carrying and conveying products, and the cooling fan housing 5 covers the conveying line 2 and extends along the conveying direction of the conveying line 2. First guide duct 8 and second guide duct 9 are located the both sides of transfer chain 2 respectively in the direction of transport of perpendicular to transfer chain 2, and first guide duct 8 and second guide duct 9 extend and are located cooling fan housing 5 along the direction of transport of transfer chain 2 respectively, and a plurality of first exhaust vent 81 have been seted up towards the side of transfer chain 2 to first guide duct 8, and a plurality of second exhaust vent 91 have been seted up towards the side of transfer chain 2 to second guide duct 9. An air inlet 51 of the air inlet pipe 10 penetrates through the cooling fan housing 5 and is connected with the air cooler 4, a first air outlet 102 of the air inlet pipe 10 is communicated with the first air guide pipe 8, and a second air outlet 101 of the air inlet pipe 10 is communicated with the second air guide pipe 9.

As the conveyor line 2 conveys the products in the conveying direction of the conveyor line 2, the products continuously enter the cooling hood 5. After passing through the air inlet pipe 10, the cold air of the air cooler 4 is shunted to the first air guiding pipe 8 and the second air guiding pipe 9 through the first air outlet 102 and the second air outlet 101 of the air inlet pipe 10, the first air guiding pipe 8 carries out air cooling treatment on the product through the first air outlet 81, and meanwhile, the second air guiding pipe 9 carries out air cooling treatment on the product through the second air outlet 91. Because first guide duct 8 and second guide duct 9 are located the both sides of transfer chain 2 respectively in the direction of transport of perpendicular to transfer chain 2, and first guide duct 8 and second guide duct 9 extend and are located cooling fan housing 5 along the direction of transport of transfer chain 2 respectively to the continuity carries out the forced air cooling to a plurality of sides of product and handles, not only structural design is reasonable, degree of automation is high, the simple operation is high-efficient, but also improved the air-cooled effect to the product effectively. The cooling device 1 of the present embodiment is not only suitable for cooling a compressor product, but also suitable for cooling a product for achieving a good air cooling effect and automatically producing the product, and has a high market application value.

The wall plate of the cooling fan housing is embedded with heat insulation cotton, specifically, the cooling fan housing 5 is an n-shaped fan housing in the embodiment, the top wall plate of the cooling fan housing 5 located above the conveyor line 2 is embedded with first heat insulation cotton 11, and two side wall plates of the cooling fan housing 5 arranged oppositely are respectively embedded with second heat insulation cotton 12. The n-shaped wall plate of the cooling fan cover 5 is embedded with heat insulation cotton, so that energy is saved, consumption is reduced, and the air cooling effect of the second air guide pipe 9 and the second air guide pipe 9 in the cooling fan cover 5 on products is further improved.

The first lifting door 6 and the second lifting door 7 are respectively arranged at two ends of the cooling fan housing 5 in the conveying direction of the conveying line 2, the first driving control mechanism can control the first lifting door 6 to movably open or close the first port of the cooling fan housing 5 in the vertical direction, the second driving control mechanism can control the second lifting door 7 to movably open or close the second port of the cooling fan housing 5 in the vertical direction, and the cooling fan housing 5 is provided with an air guide opening 52. When the product is conveyed in the conveying line 2 to enter or leave the cooling fan housing 5, the first drive control mechanism can control the first lifting door 6 to move in the vertical direction to open or close the first port of the cooling fan housing 5, or the second drive control mechanism can control the second lifting door 7 to move in the vertical direction to open or close the second port of the cooling fan housing 5, so that the influence of the external temperature on the cooling effect of the product in the cooling fan housing 5 is reduced in the product conveying process, a relatively sealed space is formed in the cooling fan housing 5, the exhaust air in the cooling fan housing 5 is discharged to the outside through the air guide opening 52, the air cooling effect of the second air guide pipe 9 and the second air guide pipe 9 in the cooling fan housing 5 on the product is further improved, and energy conservation and consumption reduction are realized.

Wherein, the first end of this embodiment cooling fan housing 5 is provided with the first guide rail 63 that extends in the vertical direction, and first overhead door 6 is provided with first slider 62, and first slider 62 cooperates with first guide rail 63 slidable, and first drive control mechanism is first drive actuating cylinder 61, and the piston rod of first drive actuating cylinder 61 is connected with first overhead door 6. The piston rod of the first driving cylinder 61 is controlled to stretch and retract to drive the first lifting door 6 to move in the vertical direction, and meanwhile, the first sliding block 62 of the first lifting door 6 slides on the first guide rail 63, so that the first lifting door 6 can movably open or close the first port of the cooling fan housing 5 in the vertical direction, and the working performance is stable and reliable. In addition, the second end of the cooling fan housing 5 of this embodiment is provided with a second guide rail 73 extending in the vertical direction, the second lift gate 7 is provided with a second slider 72, the second slider 72 is slidably engaged with the second guide rail 73, the second driving control mechanism is a second driving cylinder 71, and a piston rod of the second driving cylinder 71 is connected with the second lift gate 7. The piston rod of the second driving cylinder 71 is controlled to stretch and retract to drive the second lifting door 7 to move in the vertical direction, and meanwhile, the second slider 72 of the second lifting door 7 slides on the second guide rail 73, so that the second lifting door 7 can movably open or close the second port of the cooling fan housing 5 in the vertical direction, and the working performance is stable and reliable.

Specifically, a plurality of first exhaust vents 81 of this embodiment form the first cooling air duct of multiunit side by side in vertical direction, and each first cooling air duct of group sets up side by side in the direction of transporting of transfer chain 2 by a plurality of first air-out subassemblies and forms, and each first air-out subassembly sets up side by side in the direction of transporting of transfer chain 2 by a plurality of first exhaust vents 81 and forms. Moreover, a plurality of second exhaust vents 91 of this embodiment form multiunit second cooling air duct side by side in vertical direction, and each group second cooling air duct is set up side by a plurality of second air-out subassemblies in the direction of transporting of transfer chain 2 and is formed, and each second air-out subassembly sets up side by a plurality of second exhaust vents 91 in the direction of transporting of transfer chain 2 and forms. The mode of arranging of a plurality of first exhaust vents 81 of this embodiment and a plurality of second exhaust vent 91 carries out the forced air cooling to a plurality of sides of product and handles, not only arranges reasonable in design to can improve the forced air cooling effect to the product effectively.

Referring to fig. 3 and 4, the conveyor line 2 of the present embodiment includes a frame 21, a driving mechanism, two chains 22, and a plurality of jigs 23, where the two chains 22 are parallel to each other and are disposed on the frame 21 side by side, the driving mechanism controls the two chains 22 to move in the conveying direction of the conveyor line 2 synchronously, and the jigs 23 are respectively located on the two chains 22 and have products placed thereon. Wherein, this embodiment transfer chain 2 still includes two sets of supporting component, and a set of supporting component is located the below of a chain 22 in the vertical direction. Each set of the support assemblies includes a support bar 28 and a plurality of rollers 29, and the plurality of rollers 29 are rotatably supported on the support bar 28 and arranged side by side in the conveying direction of the conveyor line 2. The supporting components have a supporting function on the chain 22, when the chain 22 moves, a sagging phenomenon may occur on one side of the chain 22 away from the cooling fan housing 5 due to the gravity, and a group of supporting components are located below one chain 22 in the vertical direction, one side of the chain 22 away from the cooling fan housing 5 can be abutted against a plurality of rollers 29 of the supporting components, and along with the movement of the chain 22, the rollers 29 are synchronously and rotatably supported on the supporting bars 28 of the supporting components, so that the working stability and reliability of the conveyor line 2 are improved.

Specifically, the driving mechanism includes a driving motor 27, a driving shaft 24, a driven shaft 25, and four sprockets 26, and the driving shaft 24 and the driven shaft 25 are located parallel to each other on the same horizontal plane and rotatably supported at both ends of the frame 21, respectively. Two chain wheels 26 are sleeved on the driving shaft 24, two chain wheels 26 are sleeved on the driven shaft 25, a chain 22 is sleeved between one chain wheel 26 of the driving shaft 24 and one chain wheel 26 of the driven shaft 25, and a driving motor 27 is installed on the side surface of the rack 21 and can control the driving shaft 24 to rotate.

Referring to fig. 9 to 12, the blanking mechanism 3 of the present embodiment includes a first movement control assembly 31, a second movement control assembly, an elastic member, and a clamping jaw assembly 33, wherein the first movement control assembly 31 can control the clamping jaw assembly 33 to move in the horizontal direction, the second movement control assembly can control the clamping jaw assembly 33 to move in the vertical direction, the clamping jaw assembly 33 is located above the conveyor line 2 in the vertical direction, and the elastic member urges the clamping jaw assembly 33 to approach the conveyor line 2. Jaw assembly 33 includes a first jaw 333, a second jaw 334, a third jaw 335, and a three-jaw control assembly 332, which may control movement of first jaw 333, second jaw 334, and third jaw 335 toward or away from one another by three-jaw control assembly 332. When the automatic blanking of the product after the cooling treatment is needed, the first movement control assembly 31 controls the clamping jaw assembly 33 to move to the upper part of the product in the horizontal direction, then the second movement control assembly controls the clamping jaw assembly 33 to move downwards in the vertical direction, then the three-jaw control assembly 332 controls the first clamping jaw 333, the second clamping jaw 334 and the third clamping jaw 335 to move towards each other to clamp the product, then the second movement control assembly controls the clamping jaw assembly 33 to move upwards in the vertical direction, and the first movement control assembly 31 controls the clamping jaw assembly 33 to move to the external material receiving position in the horizontal direction, so that the automatic blanking work is carried out, and the production efficiency is improved. In the automatic unloading working process of unloading mechanism 3, the elastic component forces clamping jaw assembly 33 to be close to transfer chain 2 for have elastic buffer capacity in the clamping jaw assembly 33 working process, avoid clamping jaw assembly 33 to appear bumping the phenomenon firmly, improve operational reliability.

The elastic member in this embodiment is a return spring 36, the blanking mechanism 3 further includes a guide shaft (not labeled) and a connecting plate 35, the first movement control component 31 can control the connecting plate 35 to move in the horizontal direction, and the second movement control component can control the connecting plate 35 to move in the vertical direction. A first end of the guide shaft is connected to the mounting plate 331 of the jaw assembly 33, a second end of the guide shaft extends in the vertical direction and penetrates the connection plate 35, and the guide shaft is slidably supported on the connection plate 35 in the vertical direction. The return spring 36 is sleeved on the guide shaft, two ends of the return spring 36 are respectively abutted between the connecting plate 35 and the mounting plate 331, and the three-jaw control component 332 is arranged on the mounting plate 331. The mounting plate 331 is forced to move the three-jaw control assembly 332 away from the connecting plate 35 by the elastic restoring force of the restoring spring 36, that is, the clamping jaw assembly 33 is forced to approach the conveying line 2, and when the second movement control assembly controls the clamping jaw assembly 33 to move downwards in the vertical direction, the first clamping jaw 333, the second clamping jaw 334 and the third clamping jaw 335 of the clamping jaw assembly 33 may touch the conveying line 2. Once the first jaw 333, the second jaw 334 and the third jaw 335 of the jaw assembly 33 contact the conveyor line 2, the return spring 36 is in a compressed state, providing the jaw assembly 33 with elastic buffer capacity, improving the operational reliability.

The blanking mechanism 3 further comprises a moving plate 312 and a linkage plate 34, the first movement control assembly 31 comprises a first control cylinder 311, a third guide rail 313 and a third slide block 314, the third guide rail 313 extends in the horizontal direction and is supported on the conveying line 2 through a suspension beam 310, the third slide block 314 is arranged on the moving plate 312, and a piston rod of the first control cylinder 311 is connected with the moving plate 312. The second movement control assembly is arranged on the moving plate 312 and can control the linkage plate 34 to move in the vertical direction, and the connecting plate 35 is installed on the linkage plate 34. The second motion control element in this embodiment is a second control cylinder 32.

In addition, the blanking mechanism 3 further comprises an adjusting bolt 39, a first limiting seat 38 and a second limiting seat 37, the first limiting seat 38 is mounted on the linkage plate 34, the second limiting seat 37 is mounted on the connecting plate 35, and the second limiting seat 37 is provided with a limiting groove 371. The adjusting bolt 39 extends in the horizontal direction, a first end of the adjusting bolt 39 is connected with the first limiting seat 38 in a threaded fit manner, and a second end of the adjusting bolt 39 is clamped in the limiting groove 371. Through adjusting the threaded fit of the adjusting bolt 39 and the first limiting seat 38, the second end of the adjusting bolt 39 can drive the connecting plate 35 to move in the horizontal direction to adjust the position of the movable clamping jaw assembly 33 in the horizontal direction.

Above embodiment is the preferred example of the utility model, and not the restriction the utility model discloses the range of implementing, the event all according to the utility model discloses the equivalent change or the decoration that structure, characteristic and principle were done of application for patent scope all should be included in the utility model discloses the patent application scope.

Claims (10)

1. A cooling device comprises a conveying line, and is characterized by further comprising a cooling fan cover, an air inlet pipe, a first air guide pipe and a second air guide pipe, wherein the cooling fan cover covers the conveying line and extends along the conveying direction of the conveying line;

the first air guide pipe and the second air guide pipe are respectively positioned at two sides of the conveying line in a conveying direction perpendicular to the conveying line, extend along the conveying direction of the conveying line and are positioned in the cooling fan cover, a plurality of first air outlet holes are formed in the side face, facing the conveying line, of the first air guide pipe, and a plurality of second air outlet holes are formed in the side face, facing the conveying line, of the second air guide pipe;

an air inlet of the air inlet pipe penetrates through the cooling fan cover and is connected with an air cooler, a first air outlet of the air inlet pipe is communicated with the first air guide pipe, and a second air outlet of the air inlet pipe is communicated with the second air guide pipe.

2. A cooling apparatus according to claim 1, wherein:

and heat insulation cotton is embedded in the wall plate of the cooling fan cover.

3. A cooling apparatus according to claim 1, wherein:

the cooling equipment further comprises a first lifting door, a first driving control mechanism, a second lifting door and a second driving control mechanism, wherein the first lifting door and the second lifting door are respectively arranged at two ends of the cooling fan cover in the conveying direction of the conveying line;

the first driving control mechanism can control the first lifting door to open or close the first port of the cooling fan housing in a vertically moving mode, and the second driving control mechanism can control the second lifting door to open or close the second port of the cooling fan housing in a vertically moving mode;

the cooling fan cover is provided with an air guide opening.

4. A cooling apparatus according to claim 3, wherein:

a first guide rail extending in the vertical direction is arranged at the first end of the cooling fan cover, a first sliding block is arranged on the first lifting door, the first sliding block is slidably matched with the first guide rail, the first driving control mechanism is a first driving air cylinder, and a piston rod of the first driving air cylinder is connected with the first lifting door;

the second end of the cooling fan housing is provided with a second guide rail extending in the vertical direction, the second lifting door is provided with a second sliding block, the second sliding block is slidably matched with the second guide rail, the second driving control mechanism is a second driving air cylinder, and a piston rod of the second driving air cylinder is connected with the second lifting door.

5. A cooling apparatus according to claim 1, wherein:

a plurality of first air outlet holes are formed in the vertical direction side by side to form a plurality of groups of first cooling air channels, each group of first cooling air channels is formed by arranging a plurality of first air outlet assemblies side by side in the conveying direction of the conveying line, and each first air outlet assembly is formed by arranging a plurality of first air outlet holes in the conveying direction of the conveying line side by side; and/or the presence of a gas in the gas,

it is a plurality of the second exhaust vent forms multiunit second cooling duct side by side in vertical direction, each group the second cooling duct is in by a plurality of second air-out subassemblies set up side by side in the direction of transportation of transfer chain and form, each the second air-out subassembly is by a plurality of the second exhaust vent is in set up side by side in the direction of transportation of transfer chain and form.

6. A cooling apparatus according to claim 1, wherein:

the conveying line comprises a driving mechanism, two chains and a plurality of jigs, the two chains are arranged in parallel, the driving mechanism controls the two chains to move in the conveying direction of the conveying line synchronously, and the jigs are located on the two chains respectively and place the product.

7. A cooling apparatus according to claim 6, characterized in that:

the conveying line also comprises two groups of supporting assemblies, and one group of supporting assemblies is positioned below one chain in the vertical direction;

each group of the supporting assemblies comprises a supporting strip and a plurality of rollers, and the rollers are rotatably supported on the supporting strip and are arranged side by side in the conveying direction of the conveying line.

8. A cooling apparatus according to any one of claims 1 to 7, wherein:

the cooling equipment further comprises a blanking mechanism, wherein the blanking mechanism comprises a first movement control assembly, a second movement control assembly, an elastic piece and a clamping jaw assembly, the first movement control assembly can control the clamping jaw assembly to move in the horizontal direction, the second movement control assembly can control the clamping jaw assembly to move in the vertical direction, the clamping jaw assembly is located above the conveying line in the vertical direction, and the elastic piece forces the clamping jaw assembly to approach the conveying line;

the jaw assembly includes a first jaw, a second jaw, a third jaw, and a three-jaw control assembly that controls movement of the first jaw, the second jaw, and the third jaw toward or away from one another.

9. A cooling apparatus according to claim 8, wherein:

the blanking mechanism further comprises a guide shaft and a connecting plate, the first movement control assembly can control the connecting plate to move in the horizontal direction, the second movement control assembly can control the connecting plate to move in the vertical direction, and the elastic piece is a return spring;

the first end of the guide shaft is connected with the mounting plate of the clamping jaw assembly, the second end of the guide shaft extends in the vertical direction and penetrates through the connecting plate, and the guide shaft is supported on the connecting plate in a sliding mode in the vertical direction;

the reset spring is sleeved on the guide shaft, two ends of the reset spring are respectively abutted to the connecting plate and the mounting plate, and the three-jaw control assembly is arranged on the mounting plate.

10. A cooling apparatus according to claim 9, wherein:

the blanking mechanism further comprises a moving plate and a linkage plate, the first movement control assembly comprises a control cylinder, a third guide rail and a third slide block, the third guide rail extends in the horizontal direction and is supported on the conveying line through a suspension beam, the third slide block is arranged on the moving plate, and a piston rod of the control cylinder is connected with the moving plate;

the second movement control assembly is arranged on the moving plate and can control the linkage plate to move in the vertical direction, and the connecting plate is installed on the linkage plate.

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