CN114234537A - Cooler with refrigeration internal protection structure for preventing frosting - Google Patents

Abstract

The invention discloses a cooler with a refrigeration internal protection structure for preventing frosting, which relates to the technical field of coolers and comprises a bearing seat and a drying assembly, wherein the upper end of the bearing seat is provided with an arranging frame body, the middle part of the rear end of the arranging frame body is provided with a cooling notch, the inner side of the cooling notch is provided with a radiating fin, and the outer side of the rear end of the arranging frame body is provided with an air cooling assembly for cooling gas. The invention realizes effective cooling and purification treatment of high-temperature gas, avoids the condition that the high-temperature gas is directly discharged into air to pollute the environment, can dry the gas before the high-temperature gas is cooled, avoids the gas from being desublimated and frosted in the cooling pipe in the cooling process, avoids the condition that the actual service life of the cooling pipe is influenced by frequent conversion of the cooling pipe in high-temperature and low-temperature environments, has good protection effect on the interior of the cooler, has double cooling effects of air cooling and water cooling, and ensures the cooling effect of the cooler on the high-temperature gas.

Description

Cooler with refrigeration internal protection structure for preventing frosting

Technical Field

The invention relates to the technical field of coolers, in particular to a frost-proof cooler with a refrigeration internal protection structure.

Background

Coolers are a class of heat exchange devices that cool a fluid. Water or air is typically used as a coolant to remove heat. They can be mainly classified into shell and tube coolers, plate coolers and air-cooled coolers. The cooler is a heat exchange device commonly adopted by industrial departments such as metallurgy, chemical industry, energy, traffic, light industry, food and the like, and a chemical enterprise generates a large amount of high-temperature gas in the unit operation process during the production process of partial materials, and if the high-temperature gas is directly discharged by a chimney, the environment pollution is generated; when the high-temperature gas is discharged in rainy days, the high-temperature smoke can be combined with the normal-temperature water vapor phase in the air, pungent smell can be generated in the contact process, the health of human beings is affected, and a cooler is needed to cool and discharge the high-temperature gas.

The cooler on the market does not have inside protective structure, and frosting appears in inside easily, the direct influence cooler life's condition.

Disclosure of Invention

The present invention is directed to a frost-resistant cooler with a protective structure for a refrigerated interior to solve the above-mentioned problems.

In order to achieve the purpose, the invention provides the following technical scheme: a cooler with a refrigeration internal protection structure for preventing frosting comprises a bearing seat and a drying assembly, wherein the upper end of the bearing seat is provided with a mounting frame body, the middle part of the rear end of the mounting frame body is provided with a cooling notch, the inner side of the cooling notch is provided with a radiating fin, the outer side of the rear end of the mounting frame body is provided with an air cooling assembly for cooling gas, the drying assembly for drying the gas is arranged at the upper end of the mounting frame body, the drying assembly comprises a drying cylinder, a silica gel layer, an end cover, a fastening bolt, an air inlet, a limiting guide rail, a limiting slide block and a Cao drying core, the outer surface of the left end of the drying cylinder is provided with the silica gel layer, the left end of the drying cylinder is connected with the end cover, the fastening bolt penetrates through the inner side of the end cover, the middle part of the end cover is connected with the air inlet, the inner wall of the drying cylinder is provided with the limiting guide rail, and the outer side of the limiting guide rail is connected with the limiting slide block, the outer side of the limiting sliding block is connected with a Cao drying core, the right end of the drying cylinder is connected with a water cooling assembly for cooling gas, and the left end of the water cooling assembly is connected with a purification assembly for purifying gas.

Further, the air cooling assembly comprises a limiting groove block, a limiting block, a mounting plate, an air cooling fan and a positioning bolt, the limiting block is connected to the inner side of the limiting groove block, the mounting plate is connected to the outer side of the limiting block, the air cooling fan is arranged in the middle of the mounting plate, and the positioning bolt is arranged at the upper end and the lower end of the limiting groove block in a penetrating mode.

Furthermore, the placing plate is connected with the limiting groove block in a sliding mode through the limiting block, and the air cooling fan and the placing plate are distributed in a parallel mode.

Further, the outside on silica gel layer is laminated in the inboard of drying cylinder, and silica gel layer and drying cylinder embedding are connected.

Furthermore, two limiting slide blocks are symmetrically arranged at the center of the Cao drying core, the inner sides of the limiting slide blocks are in a groove shape, and the inner side sizes of the limiting slide blocks are matched with the outer side sizes of the limiting guide rails.

Further, the water cooling module includes main trachea, auxiliary air pipe, condenser tube, the auxiliary pipe that intakes, the main pipe that intakes, water pump, water tank, return water auxiliary pipe and return water main pipe, and the outside of main trachea is connected with auxiliary air pipe, auxiliary air pipe's outside parcel has condenser tube, and condenser tube's one end is connected with the auxiliary pipe of intaking, the other end of the auxiliary pipe that intakes is connected with the water pump, and the lower extreme of water pump is connected with the water tank, condenser tube's the other end is connected with the return water auxiliary pipe, and the other end of return water auxiliary pipe is connected with the return water and is responsible for.

Furthermore, the auxiliary air pipes and the main air pipe are vertically distributed, five auxiliary air pipes are arranged, and the auxiliary air pipes are distributed in parallel.

Furthermore, the cooling water pipe and the auxiliary air pipe are of a full-surrounding structure, and the cooling water pipe is communicated with the water inlet main pipe and the water return main pipe through the water inlet auxiliary pipe and the water return auxiliary pipe.

Further, purify the subassembly and include blast pipe, purification section of thick bamboo, active carbon adsorption pipe and gas vent, and the lower extreme of blast pipe is connected with the purification section of thick bamboo, the inner wall of purification section of thick bamboo settles and has active carbon adsorption pipe, and the gas vent has been seted up to the lower extreme of purification section of thick bamboo.

Furthermore, the active carbon adsorption pipe is distributed in a circle shape about the circle center of the purification cylinder, and the number of the active carbon adsorption pipes is four, and the active carbon adsorption pipes are of a vertical cylindrical structure.

The invention provides a frost-proof cooler with a refrigeration internal protection structure, which has the following beneficial effects: the cooler with the refrigeration internal protection structure for preventing frosting realizes effective cooling and purification treatment of high-temperature gas through mutual matching of the components, avoids the condition that the high-temperature gas is directly discharged into air to cause environmental pollution, can dry the gas before the high-temperature gas is cooled, avoids the gas from being sublimated and frosted in the cooling pipe in the cooling process, avoids the condition that the cooling pipe is frequently switched under high-temperature and low-temperature environments to influence the actual service life of the cooling pipe, has good protection effect on the inside of the cooler, has double cooling effects of air cooling and water cooling, and ensures the cooling effect of the cooler on the high-temperature gas;

1. the limiting blocks arranged on the two sides of the placement plate are matched with the limiting groove blocks arranged on the two sides of the rear end of the placement frame body, so that the placement plate can slide up and down at the rear end of the placement frame body, daily maintenance and replacement work of an air cooling fan arranged at the upper end of the placement plate are facilitated, the continuity and effectiveness of the work of the cooler are ensured, meanwhile, the cooling notch and the cooling fins arranged in the middle of the rear end of the placement frame body are matched, the heat in the placement frame body can be continuously discharged, the situation that the heat is accumulated in the placement frame body and cannot be discharged in time is avoided, the cooling effect of the cooler on high-temperature gas is directly influenced, the mounted limiting blocks are limited and fixed through the positioning bolts penetrating through the upper end and the lower end of the limiting groove blocks, and practical use is facilitated.

2. According to the invention, through the silica gel layer arranged on the outer surface of the end part of the drying cylinder, the connection tightness between the end cover and the drying cylinder through the fastening bolt can be ensured, the condition that high-temperature gas leaks in the drying process is avoided, the drying component can ensure the continuity and effectiveness of the high-temperature gas drying, the limiting slide block arranged on the outer side of the Cao drying core is matched with the limiting guide rail arranged in the drying cylinder, so that the Cao drying core can slide in the drying cylinder, the drying filter elements made of different materials can be conveniently replaced according to the actually cooled gas, the drying effect on the high-temperature gas is ensured, and the limiting slide block and the limiting guide rail which are identical in size can ensure the stability of the Cao drying core arranged in the drying cylinder.

3. According to the invention, through drying treatment of high-temperature gas before cooling, the condition that the high-temperature gas enters the main gas pipe and the auxiliary gas pipe for cooling is effectively avoided, the condition that the moisture contained in the high-temperature gas is desublimated in the main gas pipe and the auxiliary gas pipe to cause frosting in the main gas pipe and the auxiliary gas pipe is avoided, the condition that the actual service life of the main gas pipe and the auxiliary gas pipe is influenced when the main gas pipe and the auxiliary gas pipe are in high-temperature and low-temperature conversion for a long time is avoided, the main gas pipe and the auxiliary gas pipe can be well protected internally, the cooling water pipe arranged on the outer side of the auxiliary gas pipe is matched with the air cooling assembly, and the continuity and effectiveness of cooling of the high-temperature gas entering the auxiliary gas pipe can be ensured.

4. According to the invention, the auxiliary air pipes and the main air pipe which are vertically distributed can ensure the accuracy of the positions between the auxiliary air pipes, the arrangement of the five auxiliary air pipes can be used for shunting and cooling high-temperature gas entering the main air pipe, the cooling effect on the high-temperature gas is ensured, meanwhile, the cooling efficiency is improved, the cooling water pipes which are distributed outside the auxiliary air pipes are completely surrounded, the cooling range of the high-temperature gas inside the auxiliary air pipes can be ensured, the cooling efficiency on the high-temperature gas is improved by increasing the cooling range of the high-temperature gas, and the cooling water can be recycled by matching with the water inlet auxiliary pipe and the water return auxiliary pipe which are connected to two ends of the cooling water pipes, so that the recycling of the cooling water is realized, and the use environmental protection of the cooler is improved.

5. The active carbon adsorption tubes arranged in the purification cylinder can purify the cooling gas entering the purification cylinder, so that the situation that the cooling gas containing peculiar smell is directly discharged into the air to pollute the environment is avoided, meanwhile, the four active carbon adsorption tubes which are circumferentially distributed relative to the circle center position of the purification cylinder can ensure the actual purification effect of the active carbon adsorption tubes on the cooling gas, and the cooled gas is lower than the normal atmosphere, so that the cooling gas moves downwards when being discharged, the cooling gas enters the purification cylinder through the exhaust tube to move downwards, and the effect of purifying the low-temperature gas can be ensured by matching with the active carbon adsorption tubes in the vertical cylindrical structure.

Drawings

FIG. 1 is a schematic view of the overall construction of a frost resistant chiller having a refrigerated interior protective structure in accordance with the present invention;

FIG. 2 is a rear end view of a frame of a cooler with a protective structure for cooling the interior of the cooler to prevent frosting according to the present invention;

FIG. 3 is a schematic view of an air-cooled assembly of a cooler with a protective structure for cooling the interior to prevent frosting according to the present invention;

FIG. 4 is a schematic diagram of the internal structure of a dryer can of a chiller having a refrigerated internal protective structure to prevent frost formation in accordance with the present invention;

FIG. 5 is a schematic diagram of a top view of the interior of a purification cartridge of a chiller with a protective structure for cooling the interior to prevent frost formation.

In the figure: 1. a bearing seat; 2. a frame body is arranged; 3. a cooling slot; 4. a heat sink; 5. an air-cooled assembly; 501. a limiting groove block; 502. a limiting block; 503. placing a plate; 504. an air cooling fan; 505. positioning the bolt; 6. a drying assembly; 601. a drying cylinder; 602. a silica gel layer; 603. an end cap; 604. fastening a bolt; 605. an air inlet; 606. limiting a guide rail; 607. a limiting slide block; 608. cao dry cores; 7. a water-cooling assembly; 701. a main air pipe; 702. a secondary air pipe; 703. a cooling water pipe; 704. a water inlet auxiliary pipe; 705. a main water inlet pipe; 706. a water pump; 707. a water tank; 708. a return water secondary pipe; 709. a water return main pipe; 8. a purification assembly; 801. an exhaust pipe; 802. a purification cartridge; 803. an activated carbon adsorption tube; 804. and (7) an exhaust port.

Detailed Description

Referring to fig. 1-5, the present invention provides a technical solution: a cooler with a refrigeration internal protection structure for preventing frosting comprises a bearing seat 1 and a drying component 6, wherein the upper end of the bearing seat 1 is provided with a mounting frame body 2, the middle part of the rear end of the mounting frame body 2 is provided with a cooling notch 3, the inner side of the cooling notch 3 is provided with a radiating fin 4, the outer side of the rear end of the mounting frame body 2 is provided with an air cooling component 5 for cooling gas, the drying component 6 for drying gas is arranged at the upper end of the mounting frame body 2, the drying component 6 comprises a drying cylinder 601, a silica gel layer 602, an end cover 603, a fastening bolt 604, an air inlet 605, a limit guide rail 606, a limit slide block 607 and a Cao drying core 608, the outer surface of the left end of the drying cylinder 601 is provided with the silica gel layer 602, the left end of the drying cylinder 601 is connected with the end cover 603, the fastening bolt 604 penetrates through the inner side of the end cover 603, the middle part of the end cover 603 is connected with the air inlet 605, the inner wall of the drying cylinder 601 is provided with the limit guide rail 606, the outer side of the limiting guide rail 606 is connected with a limiting sliding block 607, the outer side of the limiting sliding block 607 is connected with a Cao drying core 608, the right end of the drying cylinder 601 is connected with a water cooling assembly 7 for cooling gas, and the left end of the water cooling assembly 7 is connected with a purification assembly 8 for purifying gas;

the operation is as follows, the silica gel layer 602 arranged on the outer surface of the end part of the drying cylinder 601 can ensure the tightness of the connection between the end cover 603 and the drying cylinder 601 through the fastening bolt 604, avoid the air leakage of high-temperature gas in the drying process, ensure the continuity and effectiveness of the drying component 6 for the high-temperature gas, the limiting slide block 607 arranged on the outer side of the Cao drying core 608 is matched with the limiting guide rail 606 arranged in the drying cylinder 601, so that the Cao drying core 608 can slide in the drying cylinder 601, and the drying filter cores made of different materials can be replaced according to the actually cooled gas, so as to ensure the drying effect for the high-temperature gas, and the limiting slide block 607 and the limiting guide rail 606 with the same size can ensure the stability of the Cao drying core 608 arranged in the drying cylinder 601;

referring to fig. 3, the air cooling assembly 5 includes a limiting groove 501, a limiting block 502, a setting plate 503, an air cooling fan 504 and a positioning bolt 505, the limiting block 502 is connected to the inner side of the limiting groove 501, the setting plate 503 is connected to the outer side of the limiting block 502, the air cooling fan 504 is arranged in the middle of the setting plate 503, the positioning bolt 505 is arranged at the upper end and the lower end of the limiting groove 501 in a penetrating manner, the setting plate 503 is slidably connected with the limiting groove 501 through the limiting block 502, and the air cooling fan 504 and the setting plate 503 are distributed in parallel;

the operation is concretely as follows, the limiting blocks 502 arranged at the two sides of the placing plate 503 are matched with the limiting groove blocks 501 arranged at the two sides of the rear end of the placing frame body 2, so that the placing plate 503 can slide up and down at the rear end of the placing frame body 2, the daily maintenance and replacement work of the air cooling fan 504 arranged at the upper end of the placing plate 503 can be conveniently carried out, the continuity and effectiveness of the work of the cooler are ensured, meanwhile, the cooling notch 3 and the radiating fins 4 arranged at the middle part of the rear end of the placing frame body 2 are matched, the heat in the placing frame body 2 can be continuously discharged, the situation that the heat accumulated in the placing frame body 2 cannot be timely discharged and the cooling effect of the cooler on high-temperature gas is directly influenced is avoided, and the limiting blocks 502 which are installed are limited and fixed through the positioning bolts 505 arranged in the upper and lower ends of the limiting groove blocks 501, and the practical use is convenient;

referring to fig. 1, 2 and 4, the outer side of the silica gel layer 602 is attached to the inner side of the drying cylinder 601, the silica gel layer 602 is connected to the drying cylinder 601 in an embedded manner, two limiting sliders 607 are symmetrically arranged about the center of the Cao drying core 608, the inner sides of the limiting sliders 607 are in a groove shape, the inner sides of the limiting sliders 607 are matched with the outer sides of the limiting guide rails 606 in size, the water cooling module 7 includes a main air pipe 701, an auxiliary air pipe 702, a cooling water pipe 703, a water inlet auxiliary pipe 704, a water inlet main pipe 705, a water pump 706, a water tank 707, a water return auxiliary pipe 708 and a water return main pipe 709, the auxiliary air pipe 702 is connected to the outer side of the main air pipe 701, the cooling water pipe 703 is wrapped around the outer side of the auxiliary air pipe 702, one end of the cooling water pipe 704 is connected to the water inlet auxiliary pipe 704, the other end of the water inlet auxiliary pipe is connected to the water pump 706, the water tank 707 is connected to the lower end of the water pump 706, the water return auxiliary pipe 708 is connected to the water return pipe 708, the other end of the return water auxiliary pipe 708 is connected with a return water main pipe 709, the auxiliary air pipes 702 and the main air pipes 701 are distributed in a vertical mode, five auxiliary air pipes 702 are arranged, the auxiliary air pipes 702 are distributed in a parallel mode, the cooling water pipe 703 and the auxiliary air pipes 702 are in a fully-enclosed structure, and the cooling water pipe 703 is communicated with the water inlet main pipe 705 and the return water main pipe 709 through the water inlet auxiliary pipe 704 and the return water auxiliary pipe 708;

the specific operation is as follows, through carrying out drying treatment on high-temperature gas before cooling, the condition that the high-temperature gas enters the main gas pipe 701 and the auxiliary gas pipe 702 for cooling is effectively avoided, the condition that the moisture contained in the high-temperature gas is desublimated in the main gas pipe 701 and the auxiliary gas pipe 702 to cause frosting in the main gas pipe 701 and the auxiliary gas pipe 702 is avoided, the condition that the actual service life of the main gas pipe 701 and the auxiliary gas pipe 702 is influenced when the main gas pipe 701 and the auxiliary gas pipe 702 are subjected to high-temperature and low-temperature conversion for a long time is avoided, good internal protection effect can be achieved on the main gas pipe 701 and the auxiliary gas pipe 702, the cooling water pipe 703 arranged on the outer side of the auxiliary gas pipe 702 is matched with the air cooling assembly 5, the continuity and effectiveness of cooling on the high-temperature gas entering the auxiliary gas pipe 702 can be ensured, the auxiliary gas pipe 702 and the main gas pipe 701 which are vertically distributed can ensure the position accuracy, through the arrangement of the five auxiliary gas pipes 702, the high-temperature gas entering the main gas pipe 701 can be cooled in a shunting manner, the cooling efficiency is improved while the cooling effect of the high-temperature gas is ensured, the cooling water pipe 703 with a full surrounding structure distributed outside the auxiliary gas pipe 702 can ensure the cooling range of the high-temperature gas inside the auxiliary gas pipe 702, the cooling efficiency of the high-temperature gas is improved by increasing the cooling range of the high-temperature gas, and the cooling water can be recycled by matching with the water inlet auxiliary pipe 704 and the water return auxiliary pipe 708 which are connected to the two ends of the cooling water pipe 703, so that the recycling of the cooling water is realized, and the use environmental protection performance of the cooler is improved;

referring to fig. 1 and 5, the purification assembly 8 includes an exhaust pipe 801, a purification cylinder 802, four activated carbon adsorption tubes 803, and an exhaust port 804, wherein the lower end of the exhaust pipe 801 is connected to the purification cylinder 802, the activated carbon adsorption tubes 803 are disposed on the inner wall of the purification cylinder 802, the exhaust port 804 is disposed at the lower end of the purification cylinder 802, the activated carbon adsorption tubes 803 are circumferentially distributed around the center of the purification cylinder 802, and the activated carbon adsorption tubes 803 are four, and the activated carbon adsorption tubes 803 are in a vertical cylindrical structure;

the specific operation is as follows, the activated carbon adsorption tube 803 arranged inside the purification cylinder 802 can purify the cooling gas entering the purification cylinder 802, thereby avoiding the situation that the cooling gas containing peculiar smell is directly discharged into the air to pollute the environment, meanwhile, the four activated carbon adsorption tubes 803 which are circumferentially distributed about the circle center position of the purification cylinder 802 can ensure the actual purification effect of the activated carbon adsorption tube 803 on the cooling gas, and the cooled gas temperature is lower than the normal atmosphere, so that the cooling gas is discharged and moves downwards, thereby the cooling air enters the purification cylinder 802 through the exhaust pipe 801 and moves downwards, and the effect of purifying the low-temperature gas can be ensured by matching with the activated carbon adsorption tube 803 which is in a vertical cylindrical structure;

in summary, when the cooler with the internal protection structure for refrigeration and frost formation is used, firstly, the air inlet 605 is connected with the high-temperature gas ventilation pipeline, the high-temperature gas enters the drying cylinder 601 for drying treatment, the high-temperature gas before cooling is dried, the condition that the high-temperature gas enters the main gas pipe 701 and the auxiliary gas pipe 702 for cooling is effectively avoided, the water contained in the high-temperature gas is condensed and sublimated in the main gas pipe 701 and the auxiliary gas pipe 702 to cause the condition that the main gas pipe 701 and the auxiliary gas pipe 702 are frosted, the condition that the actual service life of the main gas pipe 701 and the auxiliary gas pipe 702 is influenced when the main gas pipe 701 and the auxiliary gas pipe 702 are subjected to high-temperature and low-temperature conversion for a long time is avoided, the good internal protection effect on the main gas pipe 701 and the auxiliary gas pipe 702 can be achieved, the silica gel layer 602 arranged on the outer surface of the end part of the drying cylinder 601 can ensure the tightness of the connection between the end cover 603 and the drying cylinder 601 through the fastening bolt 604, the condition that high-temperature gas leaks in the drying process is avoided, the continuity and effectiveness of the drying component 6 for the high-temperature gas are guaranteed, the limiting sliding block 607 arranged on the outer side of the Cao drying core 608 is matched with the limiting guide rail 606 arranged in the drying cylinder 601, so that the Cao drying core 608 can slide in the drying cylinder 601, the drying filter cores made of different materials can be replaced conveniently according to actually cooled gas, and the drying effect of the high-temperature gas is guaranteed;

the dried gas enters the interior of the auxiliary gas pipe 702 through the main gas pipe 701, the auxiliary gas pipe 702 and the main gas pipe 701 which are vertically distributed can ensure the accuracy of the positions between the main gas pipe and the auxiliary gas pipe, the high-temperature gas entering the interior of the main gas pipe 701 can be cooled in a shunting manner through the arrangement of the five auxiliary gas pipes 702, the cooling efficiency is improved while the cooling effect of the high-temperature gas is ensured, the cooling water pipe 703 which is in a full-surrounding structure and is distributed outside the auxiliary gas pipe 702 can ensure the cooling range of the high-temperature gas inside the auxiliary gas pipe 702, the cooling efficiency of the high-temperature gas is improved by increasing the cooling range of the high-temperature gas, the water inlet auxiliary pipe 704 and the water return auxiliary pipe 708 which are connected with the two ends of the cooling water pipe 703 are matched, the cooling water can be recycled, and the cooling water can be recycled through the air cooling component 5 and the cooling notch 3 and the radiating fin 4 which are arranged in the middle part of the rear end of the mounting frame body 2, can continuously discharge the heat in the arranging frame body 2, avoid the heat accumulation in the arranging frame body 2 which can not be timely discharged, directly influence the condition of the cooler on the cooling effect of high-temperature gas, the activated carbon adsorption tubes 803 arranged in the purifying cylinder 802 can purify the cooling gas entering the purifying cylinder 802, avoid the condition that the cooling gas containing peculiar smell is directly discharged into the air to pollute the environment, simultaneously, the four activated carbon adsorption tubes 803 which are circumferentially distributed relative to the circle center position of the purifying cylinder 802 can ensure the actual purifying effect of the activated carbon adsorption tubes 803 on the cooling gas, because the cooled gas temperature is lower than the normal atmosphere, the cooling gas is downwards moved when being discharged, thereby the cooling air enters the purifying cylinder 802 through the exhaust pipe 801 to downwards move, and is matched with the activated carbon adsorption tubes 803 which are vertical cylindrical structures, the effect of purifying the low-temperature gas can be ensured, and the gas subjected to the purification treatment is discharged through the exhaust port 804.

Claims (10)

1. The cooler with the refrigeration internal protection structure for preventing frosting is characterized by comprising a bearing seat (1) and a drying assembly (6), wherein an arranging frame body (2) is arranged at the upper end of the bearing seat (1), a cooling notch (3) is formed in the middle of the rear end of the arranging frame body (2), radiating fins (4) are arranged on the inner side of the cooling notch (3), an air cooling assembly (5) for cooling gas is arranged on the outer side of the rear end of the arranging frame body (2), the drying assembly (6) for drying the gas is arranged at the upper end of the arranging frame body (2), the drying assembly (6) comprises a drying cylinder (601), a silica gel layer (602), an end cover (603), a fastening bolt (604), an air inlet (605), a limiting guide rail (606), a limiting slide block (607) and a Cao drying core (608), and the silica gel layer (602) is arranged on the outer surface of the left end of the drying cylinder (601), and the left end of a drying cylinder (601) is connected with an end cover (603), fastening bolts (604) are arranged on the inner side of the end cover (603) in a penetrating manner, the middle part of the end cover (603) is connected with an air inlet (605), the inner wall of the drying cylinder (601) is provided with a limiting guide rail (606), the outer side of the limiting guide rail (606) is connected with a limiting slide block (607), the outer side of the limiting slide block (607) is connected with a Cao drying core (608), the right end of the drying cylinder (601) is connected with a water cooling component (7) for cooling gas, and the left end of the water cooling component (7) is connected with a purification component (8) for purifying gas.

2. The cooler with the refrigeration interior protection structure against frosting of claim 1, characterized in that the air cooling component (5) comprises a limiting groove block (501), a limiting block (502), a setting plate (503), an air cooling fan (504) and a positioning bolt (505), the limiting block (502) is connected to the inner side of the limiting groove block (501), the setting plate (503) is connected to the outer side of the limiting block (502), the air cooling fan (504) is arranged in the middle of the setting plate (503), and the positioning bolt (505) is arranged at the upper and lower ends of the limiting groove block (501) in a penetrating manner.

3. The cooler with the refrigeration interior protection structure against frosting of claim 2, characterized in that the setting plate (503) is connected with the limiting groove block (501) through the limiting block (502) in a sliding way, and the air cooling fan (504) and the setting plate (503) are distributed in a parallel way.

4. A cooler with a refrigerated interior protection against frost formation according to claim 1, characterized in that the outside of the silicone layer (602) is attached to the inside of the drying cylinder (601), and the silicone layer (602) is connected to the drying cylinder (601) in an embedded manner.

5. The cooler with a refrigerating inner protection structure against frosting of claim 1, characterized in that, the two limiting sliding blocks (607) are symmetrically arranged about the center position of the Cao dry core (608), and the inner side of the limiting sliding block (607) is groove-shaped, and the inner side size of the limiting sliding block (607) is matched with the outer side size of the limiting guide rail (606).

6. A cooler having a refrigerated interior protective structure against frost formation according to claim 1, it is characterized in that the water cooling component (7) comprises a main air pipe (701), an auxiliary air pipe (702), a cooling water pipe (703), an auxiliary water inlet pipe (704), a main water inlet pipe (705), a water pump (706), a water tank (707), an auxiliary water return pipe (708) and a main water return pipe (709), and the outer side of the main air pipe (701) is connected with an auxiliary air pipe (702), the outer side of the auxiliary air pipe (702) is wrapped with a cooling water pipe (703), one end of the cooling water pipe (703) is connected with a water inlet auxiliary pipe (704), the other end of the water inlet auxiliary pipe (704) is connected with a water pump (706), and the lower end of the water pump (706) is connected with a water tank (707), the other end of the cooling water pipe (703) is connected with a return water auxiliary pipe (708), and the other end of the return water auxiliary pipe (708) is connected with a return water main pipe (709).

7. A cooler with a refrigerated inner protection against frost formation according to claim 6, characterized in that said secondary air ducts (702) are arranged perpendicularly to the main air duct (701), and that five secondary air ducts (702) are provided, and that the secondary air ducts (702) are arranged in parallel.

8. The cooler with the refrigeration interior protection structure against frosting of claim 6, characterized in that the cooling water pipe (703) and the secondary air pipe (702) are in a full-surrounding structure, and the cooling water pipe (703) is communicated with the main water inlet pipe (705) and the main water return pipe (709) through the secondary water inlet pipe (704) and the secondary water return pipe (708).

9. The cooler with the refrigeration interior protection structure against frosting of claim 1, wherein the purification component (8) comprises an exhaust pipe (801), a purification cylinder (802), an activated carbon adsorption pipe (803) and an exhaust port (804), the lower end of the exhaust pipe (801) is connected with the purification cylinder (802), the activated carbon adsorption pipe (803) is arranged on the inner wall of the purification cylinder (802), and the exhaust port (804) is opened at the lower end of the purification cylinder (802).

10. The cooler with the refrigeration interior protection structure against frosting of claim 9, wherein the activated carbon adsorption tubes (803) are distributed in a circle shape with respect to the center of the circle of the purification cylinder (802), four activated carbon adsorption tubes (803) are provided, and the activated carbon adsorption tubes (803) are in a vertical cylindrical structure.

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