CN215260784U - Water cooling system - Google Patents

Abstract

The utility model relates to the field of water circulation cooling, in particular to a water cooling system, which comprises a frame; the cooling system is horizontally arranged on the rack; the air cooling device is fixedly arranged on one side of the rack, and the output end of the air cooling device faces the cooling system; the cooling system is characterized by comprising a first cooling system and a second cooling system; the first cooling system is horizontally arranged at the top end of the rack; second cooling system, second cooling system sets up in one side of frame, this practicality has realized tentatively cooling heat dissipation work to equipment through the air cooling device, has realized carrying out secondary cooling heat dissipation work to equipment through cooling device, has solved how to dispel the heat and quick refrigerated work to equipment, and this system can be according to required self-interacting cooling power, and cooling system matches the equipment setting for cooling system can the efficient accomplish the heat exchange at the during operation, accomplishes quick heat dissipation and cooling work to equipment.

Description

Water cooling system

Technical Field

The utility model relates to a water circulative cooling field specifically relates to a water cooling system.

Background

In the existing industrial production, a lot of heat can be generated in the production process, a circulating water cooling system can be used for cooling and radiating generally, the existing circulating water cooling mode is mostly directly divided into an air cooling mode and a water cooling mode, but the pure dry air cooling is easily influenced by the external environment, the cooling efficiency cannot be guaranteed, a large amount of water resource waste can be caused by long-time water cooling, the normal use of the cooling system is inconvenient, and the cooling hot water in the prior art has small contact surface with the outside, so that the efficient heat exchange cannot be fully carried out, and the cooling efficiency of the system is influenced;

there is a need for a cooling system that can self-regulate the cooling power as needed and that can cool quickly.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, a water cooling system is provided.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

preferably, a water cooling system, comprising,

a frame;

the cooling system is horizontally arranged on the rack;

the air cooling device is fixedly arranged on one side of the rack, and the output end of the air cooling device faces the cooling system;

the cooling system is characterized by comprising a first cooling system and a second cooling system;

the first cooling system is horizontally arranged at the top end of the rack;

and the second cooling system is arranged on one side of the rack.

Preferably, first cooling system includes in one and goes up cooling tube spare and cooling tube spare down, goes up cooling tube spare and cooling tube spare concatenation down and is a cooling channel, be used for placing the cooling arrangement in the cooling channel, still including setting up the aqua storage tank under cooling tube spare, the aqua storage tank is used for storing water cooling water.

Preferably, cooling tube spare is including the first cooling pipe that the multiunit set up along the long edge direction level of frame down, first cooling pipe is an arc through the first collecting pipe and the concatenation of second collecting pipe that both ends set up, the fixed surface of first collecting pipe still has a plurality of first inlet channels, and the fixed surface of second collecting pipe installs a plurality of outlet conduits, first inlet channel and outlet conduit all lead to pipe with the inside intercommunication of aqua storage tank.

Preferably, the upper cooling pipe fitting comprises a main transmission pipeline, and the main transmission pipeline is horizontally arranged right above the lower cooling pipe fitting along the long side direction of the rack;

the second cooling pipelines are distributed at equal intervals along the long side direction of the main transmission pipeline, are arranged in a semi-arc shape, the end parts of the second cooling pipelines are communicated with the upper end of the lower cooling pipeline, and the second cooling pipelines and the main transmission pipeline are arranged in a rib arrangement manner;

the water storage tank is characterized by also comprising a second water inlet pipeline arranged on the surface of the main transmission pipeline, wherein the second water inlet pipeline is communicated with the inside of the water storage tank through a water pipe;

and the circulating water pump is used for conveying the water source in the water storage tank to the upper cooling pipe fitting and the lower cooling pipe fitting through water pipes respectively.

Preferably, the air cooling device comprises a pair of support frames arranged on two sides of the rack in a mirror image state, and a first air cooling assembly and a second air cooling assembly are fixedly arranged at the top ends of the support frames respectively;

the third air cooling assembly is arranged right above the water storage tank, the output end of the third air cooling assembly faces to the lower cooling pipe fitting, and the first air cooling assembly, the second air cooling assembly and the third air cooling assembly are identical in structure.

Preferably, first air-cooled subassembly is including a first mounting bracket and a plurality of servo motor along the long limit direction equidistance distribution of first mounting bracket, servo motor's output shaft all passes first mounting bracket and sets up towards first cooling system, and servo motor's the equal fixed mounting of output has the flabellum.

Preferably, the second cooling system is an industrial water chiller which is arranged on one side of the rack and used for rapidly refrigerating cooling water in the water storage tank.

Compared with the prior art, the utility model has the beneficial effects that:

1. this practicality has realized tentatively cooling heat dissipation work to equipment through air cooling device, has realized carrying out secondary cooling heat dissipation work to equipment through cooling device, has solved how to dispel the heat and quick refrigerated work to equipment.

2. This practicality has realized how to carry out radiating work to equipment through last cooling tube spare and lower cooling tube spare.

3. The utility model discloses a first pipeline and the second pipeline that converges have realized how to the work at the interior quick transmission water source of first cooling tube, and how to export the outer work of first cooling tube with the water source fast, first cooling tube all is that the area of contact of the first cooling tube that the straight line setting can make and equipment is bigger, and the cooling water source is endless faster, has realized the quick cycle at cooling water source for the cooling effect is better.

4. This practicality has realized how to the first half refrigerated work of equipment through circulating water pump, main transmission pipeline and second cooling tube's cooperation, has solved how to the first half refrigerated technical problem of equipment.

5. This practicality has realized how to carry out air-cooled work to equipment through the cooperation of servo motor and flabellum.

6. This practicality has realized that storage water source circulated use and cooling water source can keep the low temperature state always through the cooperation of aqua storage tank and industry cooling water set, has solved the technical problem that hydrologic cycle time overlength water source generates heat and can't continue to accomplish cooling work.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a side view of the present invention;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 4 is a perspective view of the frame, the water storage tank and the air cooling device of the present invention;

FIG. 5 is a perspective view of the undercooling tube of the present invention;

fig. 6 is a perspective view of the upper cooling pipe of the present invention;

fig. 7 is a perspective view of the water storage tank and the filter basket of the present invention.

The reference numbers in the figures are:

1-a frame; 2-a cooling system; 3, air cooling; 4-a first cooling system; 5-a second cooling system; 6-cooling the pipe fitting; 7-cooling the pipe fitting; 8-a water storage tank; 9-a first cooling conduit; 10-a first manifold; 11-a second manifold; 12-a first water inlet pipe; 13-a water outlet pipe; 14-a water pipe; 15-main transport pipeline; 16-a second cooling duct; 17-a second water inlet pipe; 18-a circulating water pump; 19-a support frame; 20-a first air-cooled assembly; 21-a second air-cooled assembly; 22-a third air-cooled assembly; 23-a first mounting frame; 24-a servo motor; 25-fan blades; 26-an industrial water chilling unit; 27-filter basket.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

In order to solve the technical problem of how to cool the equipment, as shown in fig. 1 to 7, the following technical solutions are provided:

a water cooling system comprises a water cooling system and a water cooling system,

a frame 1;

the cooling system 2 is horizontally arranged on the rack 1;

the air cooling device 3 is fixedly arranged on one side of the rack 1, and the output end of the air cooling device 3 faces the cooling system 2;

the cooling system 2 is characterized by comprising a first cooling system 4 and a second cooling system 5;

the first cooling system 4 is horizontally arranged at the top end of the rack 1;

and a second cooling system 5, wherein the second cooling system 5 is arranged on one side of the frame 1.

Specifically, when needs cool off equipment under the operating condition, at first insert the work of external power source drive air cooling unit 3, the work of air cooling unit 3 produces the wind regime and exports towards equipment to reach the cooling effect, when air cooling unit 3 can't reach the cooling demand to the cooling of equipment, at the work of inserting external power source drive cooling system 2, cooling system 2 extracts the water source and adopts water circulative cooling, thereby the completion is to the cooling work of equipment.

Further, as shown in fig. 2 and 7:

first cooling system 4 includes in one cooling tube spare 6 and cooling tube spare 7 down, goes up cooling tube spare 6 and cooling tube spare 7 concatenation down and is a cooling channel, be used for placing in the cooling channel and wait the cooling arrangement, still including setting up in the aqua storage tank 8 under cooling tube spare 7 down, aqua storage tank 8 is used for the storage water cooling water.

Specifically, go up cooling tube 6 and cooling tube 7 down and be used for respectively carrying out quick heat dissipation work to equipment from the upper end and the lower extreme of equipment, aqua storage tank 8 has a water inlet and delivery port, the water inlet is higher than the delivery port setting, 8 inside filter baskets 27 that are close to the water inlet still are provided with under the aqua storage tank, filter baskets 27 are used for filtering the impurity that external factor leads to the aquatic to appear.

Further, in order to solve the technical problem of how to rapidly cool the lower end of the equipment, as shown in fig. 5, the following technical solutions are provided:

lower cooling tube spare 7 is including the first cooling tube way 9 of the multiunit setting along 1 long edge direction level of frame, first cooling tube way 9 is an arc through the first collecting pipe 10 and the concatenation of second collecting pipe 11 that both ends set up, the surface of first collecting pipe 10 is fixed mounting still has a plurality of first inlet channels 12, and the fixed surface of second collecting pipe 11 installs a plurality of outlet conduits 13, first inlet channel 12 and outlet conduit 13 all through water pipe 14 with 8 inside intercommunications in aqua storage tank.

Specifically, when cooling pipe fitting 7 carries out cooling work under the needs drive under operating condition, at first insert outside water source and pass through water pipe 14 and transmit the water source to first collecting pipe 10 in through first inlet channel 12, transmit to the first cooling duct 9 of multiunit through first collecting pipe 10 inside for the water source is inside at first cooling duct 9 and is transmitted towards 11 directions of second collecting pipe, thereby makes cooling water source continuous cycle, thereby accomplishes the cooling work to equipment.

Further, in order to solve the technical problem of how to cool the upper end of the equipment in production, as shown in fig. 6, the following technical solutions are provided:

the upper cooling pipe fitting 6 comprises a main transmission pipeline 15, and the main transmission pipeline 15 is horizontally arranged right above the lower cooling pipe fitting 7 along the long side direction of the rack 1;

a plurality of second cooling pipelines 16, wherein the second cooling pipelines 16 are equidistantly distributed along the long side direction of the main conveying pipeline 15, the second cooling pipelines 16 are all arranged in a semi-arc shape, the end parts of the second cooling pipelines 16 are communicated with the upper end of the lower cooling pipeline, and the second cooling pipelines 16 and the main conveying pipeline 15 are arranged in a rib arrangement;

the water storage device also comprises a second water inlet pipeline 17 arranged on the surface of the main transmission pipeline 15, wherein the second water inlet pipeline 17 is communicated with the inside of the water storage tank 8 through a water pipe 14;

a circulating water pump 18, the circulating water pump 18 is used for conveying the water source inside the water storage tank 8 towards the interior of the upper cooling pipe 6 and the lower cooling pipe 7 through the water pipe 14 respectively.

Specifically, when cooling pipe fitting 6 carries out cooling work in the drive of needs under the operating condition, at first insert external power source drive circulating water pump 18 work, extract 8 inside water sources in aqua storage tank and export towards second inlet channel 17 in through circulating water pump 18, transmit the water source to inside main transmission pipeline 15 by second inlet channel 17, carry the water source respectively to inside second cooling pipeline 16 through main transmission pipeline 15 at last to accomplish the first half cooling work to equipment.

Further, in order to solve the technical problem of how to cool the equipment by using air cooling, as shown in fig. 4, the following technical solutions are provided:

the air cooling device 3 comprises a pair of supporting frames 19 which are arranged at two sides of the frame 1 in a mirror image state, and a first air cooling assembly 20 and a second air cooling assembly 21 are fixedly arranged at the top ends of the supporting frames 19 respectively;

and the third air cooling assembly 22 is arranged right above the water storage tank 8, the output end of the third air cooling assembly 22 faces the lower cooling pipe fitting 7, and the first air cooling assembly 20, the second air cooling assembly 21 and the third air cooling assembly 22 are identical in structure.

Specifically, first air-cooled subassembly 20, second air-cooled subassembly 21 and third air-cooled subassembly 22 encircle the equipment setting, can follow the equidirectional air-cooled work to equipment for the heat that equipment produced can be blown away fast, because third air-cooled subassembly 22 sets up directly over aqua storage tank 8, can absorb and export towards equipment towards the air conditioning at the inside water source of basin when third air-cooled subassembly 22 during operation, thereby realizes the quick cooling work to equipment.

Further, as shown in fig. 4:

first air-cooled subassembly 20 is including a first mounting bracket 23 and a plurality of servo motor 24 along the long limit direction equidistance distribution of first mounting bracket 23, servo motor 24's output shaft all passes first mounting bracket 23 and sets up towards first cooling system 4, and servo motor 24's the equal fixed mounting of output has flabellum 25.

Specifically, when the air cooling work that needs is carried out under the operating condition, the staff inserts external power supply and drives servo motor 24 work, and servo motor 24 output shaft rotates and drives flabellum 25 and carry out high-speed rotation for flabellum 25 produces the wind regime and exports towards equipment direction, thereby realizes the air cooling work to equipment.

Further, in order to solve the technical problem of how to rapidly cool the cooling water, as shown in fig. 2, the following technical solutions are provided:

the second cooling system 5 is an industrial water chiller 26, the industrial water chiller is arranged on one side of the rack 1, and the industrial water chiller 26 is used for rapidly refrigerating cooling water in the water storage tank 8.

Specifically, industry cooling water set 26 is not shown in detail in the prior art figure, and when the water-cooling still can't reach the refrigeration effect to equipment under the operating condition, inserts external power supply drive industry cooling water set 26 work, and the cooling water set refrigerates fast to the inside water source of aqua storage tank 8 to the water source after will refrigerating is through 4 circulating equipment transmission of first cooling system and absorb the inside water source cool air of aqua storage tank 8 through third air-cooling subassembly 22, thereby reaches the quick cooling work to equipment.

This practicality has realized tentatively cooling heat dissipation work to equipment through the air cooling device, has realized carrying out secondary cooling heat dissipation work to equipment through cooling device, has solved how to dispel the heat and quick refrigerated work to equipment, and this system can be according to required self-interacting cooling power, and cooling system matches the equipment setting for cooling system can accomplish the heat exchange by the efficient at the during operation, accomplishes quick heat dissipation and cooling work to equipment.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A water cooling system comprises a water cooling system and a water cooling system,

a frame (1);

the cooling system (2), the cooling system (2) is horizontally arranged on the frame (1);

the air cooling device (3), the air cooling device (3) is fixedly arranged on one side of the rack (1), and the output end of the air cooling device (3) faces the cooling system (2);

characterized in that the cooling system (2) comprises a first cooling system (4) and a second cooling system (5);

the first cooling system (4), the first cooling system (4) is horizontally arranged at the top end of the rack (1);

and the second cooling system (5), and the second cooling system (5) is arranged on one side of the rack (1).

2. The water cooling system in accordance with claim 1,

first cooling system (4) are including in one last cooling tube spare (6) and lower cooling tube spare (7), go up cooling tube spare (6) and cooling tube spare (7) concatenation down and are a cooling channel, be used for placing in the cooling channel and wait the cooling arrangement, still including setting up aqua storage tank (8) under cooling tube spare (7) down, aqua storage tank (8) are used for the storage water cooling water.

3. The water cooling system in accordance with claim 2,

lower cooling tube spare (7) are an arc including first cooling tube way (9) that the multiunit set up along frame (1) long edge direction level, first cooling tube way (9) are first collecting pipe (10) and second collecting pipe (11) concatenation that set up through both ends, the surface of first collecting pipe (10) still fixed mounting has a plurality of first inlet channels (12), and the fixed surface of second collecting pipe (11) installs a plurality of outlet conduits (13), first inlet channel (12) and outlet conduit (13) all through water pipe (14) with aqua storage tank (8) inside intercommunication.

4. The water cooling system in accordance with claim 3,

the upper cooling pipe fitting (6) comprises a main transmission pipeline (15), and the main transmission pipeline (15) is horizontally arranged right above the lower cooling pipe fitting (7) along the long side direction of the rack (1);

the second cooling pipelines (16) are provided with a plurality of second cooling pipelines (16) which are distributed equidistantly along the long side direction of the main conveying pipeline (15), the second cooling pipelines (16) are arranged in a semi-arc shape, the end parts of the second cooling pipelines (16) are communicated with the upper end of the lower cooling pipeline, and the second cooling pipelines (16) and the main conveying pipeline (15) are arranged in a rib arrangement manner;

the water storage device is characterized by also comprising a second water inlet pipeline (17) arranged on the surface of the main transmission pipeline (15), wherein the second water inlet pipeline (17) is communicated with the inside of the water storage tank (8) through a water pipe (14);

and the circulating water pump (18) is used for conveying the water source in the water storage tank (8) to the interior of the upper cooling pipe (6) and the lower cooling pipe (7) through the water pipe (14).

5. The water cooling system in accordance with claim 2,

the air cooling device (3) comprises a pair of supporting frames (19) which are arranged on two sides of the rack (1) in a mirror image state, and a first air cooling assembly (20) and a second air cooling assembly (21) are fixedly arranged at the top ends of the supporting frames (19) respectively;

third air-cooled subassembly (22), set up in directly over aqua storage tank (8), the output of third air-cooled subassembly (22) is towards the setting of cooling tube spare (7) down, first air-cooled subassembly (20), second air-cooled subassembly (21) and third air-cooled subassembly (22) structure are the same.

6. The water cooling system in accordance with claim 5,

first forced air cooling subassembly (20) are including one first mounting bracket (23) and a plurality of servo motor (24) along first mounting bracket (23) long limit direction equidistance distribution, the output shaft of servo motor (24) all passes first mounting bracket (23) and sets up towards first cooling system (4), and the equal fixed mounting of output of servo motor (24) has flabellum (25).

7. The water cooling system in accordance with claim 1,

the second cooling system (5) is an industrial water chilling unit (26), the industrial water chilling unit is arranged on one side of the rack (1), and the industrial water chilling unit (26) is used for rapidly refrigerating cooling water inside the water storage tank (8).

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