CN220457789U - Wind-liquid integrated cooling system - Google Patents

Abstract

The utility model discloses a wind-liquid integrated cooling system, which comprises a supporting frame, wherein the supporting frame is a frame with a rectangular structure, an internal cooling duct is arranged on the supporting frame, the internal cooling duct is arranged on the axis of the supporting frame, an axial flow cooling fan is arranged on one side of the supporting frame, and a liquid cooling integrated structure is arranged in the internal cooling duct on one side of the supporting frame; the utility model relates to the technical field of cooling systems, in particular to an air-liquid integrated cooling system, which can synchronously supply air by using an axial flow cooling fan through an outer cooling duct and an inner cooling duct which are coaxially arranged, and utilizes a liquid cooling heat exchange structure in the inner cooling duct to perform liquid cooling and air cooling integrated cooling operation on equipment, so that the cooling efficiency is ensured, the structure is compact, the heat dissipation effect is excellent, and the heat dissipation effect can be effectively improved.

Description

Wind-liquid integrated cooling system

Technical Field

The utility model relates to the technical field of cooling systems, in particular to a wind-liquid integrated cooling system.

Background

In modern electronic equipment and machining processes, cooling is an important task, cooling of the equipment is mainly achieved in two modes of water cooling and air cooling at the present stage, cooling of the equipment at the present stage is mainly achieved in a single mode, either water cooling or air cooling is used, however, both air cooling and liquid cooling have limitations, air cooling generally only can cool the surface of the equipment in the use process, and cooling is carried out by air with high-speed circulation, but the cooling lacks an accurate cooling effect on the interior of the equipment, while water cooling can effectively cool the interior of the equipment, but the structure still needs to achieve heat exchange, heat is carried away by air cooling, and a fan is not effectively utilized.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a wind-liquid integrated cooling system, which solves the problems of the prior background technology.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the wind-liquid integrated cooling system comprises a supporting frame, wherein the supporting frame is a frame with a rectangular structure, an internal cooling duct is arranged on the supporting frame, the internal cooling duct is arranged on the axis of the supporting frame, an axial flow cooling fan is arranged on one side of the supporting frame, and a liquid cooling integrated structure is arranged in the internal cooling duct on one side of the supporting frame;

an outer cooling duct is coaxially arranged on the support frame and positioned outside the inner cooling duct, and a flow guide ring plate is arranged outside the outer cooling duct;

the liquid cooling integrated structure comprises a liquid cooling heat exchange groove, a liquid cooling heat exchange groove is fixed in the inner cooling duct, a liquid cooling circulating pump is assembled on the liquid cooling heat exchange groove and is communicated with the liquid cooling heat exchange groove, a plugging blind end is arranged on one side of the inner cooling duct, and a pair of cooling ventilation pipes are arranged on one side of the plugging blind end, which is positioned on two sides of the cooling duct;

the liquid cooling circulating pump is connected with a heat exchange water outlet pipe, the liquid cooling heat exchange tank is connected with a heat exchange water return pipe, and a pair of connecting connectors are arranged at the ends of the heat exchange water return pipe and the heat exchange water outlet pipe.

Preferably, a plurality of reinforcing heat exchange plates which are arranged in a unidirectional linear array are arranged on one side, opposite to the axial flow cooling fan, of the liquid cooling heat exchange groove.

Preferably, the reinforcing heat exchange plates and the liquid cooling heat exchange tank are integrally formed.

Preferably, the outer cooling duct is a plate with a cylindrical cavity structure, and the inner cooling duct is a plate with a cylindrical structure.

Preferably, a pair of the cooling ventilation pipes are communicated with two sides of the inner cooling duct and penetrate through the wall surface of the outer cooling duct.

Preferably, a pair of fixing plates are fixedly connected between the inner cooling duct and the outer cooling duct.

Advantageous effects

The utility model provides a wind-liquid integrated cooling system. The beneficial effects are as follows: this wind-liquid integrated cooling system can use an axial-flow cooling fan to supply air in step through the outer cooling duct and the interior cooling duct of coaxial arrangement, utilizes the liquid cooling heat exchange structure in the interior cooling duct to carry out liquid cooling and the integrated cooling operation of forced air cooling to equipment, guarantees refrigerated efficiency, compact structure not only, and the radiating effect is splendid moreover, can effectual improvement radiating effect.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a wind-liquid integrated cooling system according to the present utility model.

Fig. 2 is a schematic side view of a wind-liquid integrated cooling system according to the present utility model.

Fig. 3 is a schematic diagram of a partial axial measurement structure of a wind-liquid integrated cooling system according to the present utility model.

In the figure: 1. a support frame; 2. an internal cooling duct; 3. an axial flow cooling fan; 4. an outer cooling duct; 5. a deflector ring plate; 6. a liquid cooling heat exchange tank; 7. a liquid cooling circulation pump; 8. cooling ventilation pipe; 9. a heat exchange water outlet pipe; 10. a heat exchange return pipe; 11. a connection joint; 12. reinforcing the heat exchange plates; 13. and a fixing plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides an embodiment: the utility model provides an integrated cooling system of wind-liquid, including braced frame 1, braced frame 1 is the frame of rectangle structure, be provided with interior cooling duct 2 on braced frame 1, interior cooling duct 2 arranges on braced frame 1's axle center, braced frame 1 one side is provided with axial cooling fan 3, one side of braced frame 1 is located and is provided with the liquid cooling integrated structure in interior cooling duct 2, in the implementation process, braced frame 1 is the support main part of equipment, directly support outer cooling duct 4 at braced frame 1, locate on braced frame 1 inside outer cooling duct 4 coaxial arrangement in interior cooling duct 2, through the coaxial arrangement of inner and outer ducts, make axial cooling fan 3 cool down the liquid cooling integrated structure in interior cooling duct 2 through the air flow, the liquid cooling integrated structure of rethread, be provided with water conservancy diversion annular plate 5 outward, the air through outer cooling duct 4 of water conservancy diversion annular plate 5, the coaxial design of inner and outer cooling duct 4, can provide wind-force to liquid cooling and wind-cooling simultaneously; the liquid cooling integrated structure comprises a liquid cooling heat exchange tank 6, wherein the liquid cooling heat exchange tank 6 is fixed in an inner cooling duct 2, a liquid cooling circulating pump 7 is assembled on the liquid cooling heat exchange tank 6, the liquid cooling circulating pump 7 is communicated with the liquid cooling heat exchange tank 6, a plugging blind end is arranged on one side of the inner cooling duct 2, and a pair of cooling ventilation pipes 8 are arranged on one side of the plugging blind end, which is positioned on two sides of the cooling duct; in the concrete implementation process, the liquid cooling circulation pump 7 on the liquid cooling heat exchange tank 6 is used for pumping out the internal cooling liquid, the liquid cooling circulation pump 7 is connected with the heat exchange water outlet pipe 9, the liquid cooling heat exchange tank 6 is connected with the heat exchange water return pipe 10, the ends of the heat exchange water return pipe 10 and the heat exchange water outlet pipe 9 are provided with a pair of connecting joints 11, the device needing cooling is connected with the device through the pair of connecting joints 11, the liquid cooling circulation pump 7 is used for leading in the cooling liquid from the heat exchange water outlet pipe 9 into the heat exchanger of the device to be cooled, and the cooling liquid flows back to the liquid cooling heat exchange tank 6 through the heat exchange water return pipe 10.

As a preferable scheme, a plurality of reinforcing heat exchange plates 12 which are arranged in a unidirectional linear array are arranged on one side of the liquid cooling heat exchange groove 6, which is opposite to the axial flow cooling fan 3, and the reinforcing heat exchange of the liquid cooling heat exchange groove 6 is realized through the reinforcing heat exchange plates 12.

As a preferable scheme, a plurality of reinforced heat exchange plates 12 and the liquid cooling heat exchange tank 6 are integrally formed, so that heat exchange capacity is improved.

As a preferred scheme, the outer cooling duct 4 is a plate with a cylindrical cavity structure, and the inner cooling duct 2 is a plate with a cylindrical structure.

Preferably, a pair of cooling ventilation pipes 8 are communicated with both sides of the inner cooling duct 2 and penetrate through the wall surface of the outer cooling duct 4, so as to discharge the air after cooling the liquid cooling heat exchange tank 6.

Preferably, a pair of fixing plates 13 is fixedly connected between the inner cooling duct 2 and the outer cooling duct 4.

In summary, according to the air-liquid integrated cooling system, the outer cooling duct 4 and the inner cooling duct 2 which are coaxially arranged can use the axial flow cooling fan 3 to supply air synchronously, and the liquid cooling heat exchange structure in the inner cooling duct 2 is utilized to perform liquid cooling and air cooling integrated cooling operation on equipment, so that the cooling efficiency is ensured, the structure is compact, and the heat dissipation effect is excellent.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an integrated cooling system of wind liquid, includes braced frame (1), braced frame (1) is the frame of rectangle structure, be provided with interior cooling duct (2) on braced frame (1), interior cooling duct (2) are arranged on the axle center of braced frame (1), braced frame (1) one side is provided with axial flow cooling fan (3), its characterized in that, one side of braced frame (1) is provided with the liquid cooling integrated structure in interior cooling duct (2);

an outer cooling duct (4) is coaxially arranged outside the inner cooling duct (2) on the supporting frame (1), and a guide ring plate (5) is arranged outside the outer cooling duct (4);

the liquid cooling integrated structure comprises a liquid cooling heat exchange groove (6), wherein the liquid cooling heat exchange groove (6) is fixed in the inner cooling duct (2), a liquid cooling circulating pump (7) is assembled on the liquid cooling heat exchange groove (6), the liquid cooling circulating pump (7) is communicated with the liquid cooling heat exchange groove (6), a plugging blind end is arranged on one side of the inner cooling duct (2), and a pair of cooling ventilation pipes (8) are arranged on one side of the cooling duct, which is positioned at the plugging blind end;

the liquid cooling circulating pump (7) is connected with a heat exchange water outlet pipe (9), the liquid cooling heat exchange tank (6) is connected with a heat exchange water return pipe (10), and a pair of connecting connectors (11) are arranged at the ends of the heat exchange water return pipe (10) and the heat exchange water outlet pipe (9).

2. The wind-liquid integrated cooling system according to claim 1, wherein a plurality of reinforced heat exchange plates (12) which are arranged in a unidirectional linear array are arranged on one side of the liquid cooling heat exchange groove (6) opposite to the axial flow cooling fan (3).

3. A wind-liquid integrated cooling system according to claim 2, characterized in that several of said reinforcing heat exchanger fins (12) are formed integrally with the liquid-cooled heat exchanger tank (6).

4. A wind-liquid integrated cooling system according to claim 3, wherein the outer cooling duct (4) is a plate of cylindrical cavity structure and the inner cooling duct (2) is a plate of cylindrical structure.

5. A wind-liquid integrated cooling system according to claim 4, wherein a pair of said cooling ventilation pipes (8) are connected to both sides of the inner cooling duct (2) and penetrate the wall surface of the outer cooling duct (4).

6. A wind-liquid integrated cooling system according to claim 5, wherein a pair of fixing plates (13) are fixedly connected between the inner cooling duct (2) and the outer cooling duct (4).