CN210200494U - Water-cooling radiating assembly applied to transformer - Google Patents

Abstract

The utility model discloses a water-cooling radiating component applied to a transformer, which comprises an upper radiator and a lower radiator, wherein a containing area for containing the transformer is formed after the upper radiator and the lower radiator are oppositely arranged up and down, a heat-conducting rubber pad is also arranged in the containing area, the heat-conducting rubber pad is adhered on the outer wall of the upper radiator, the upper radiator and the lower radiator are both composed of an aluminum shell and a first water pipe arranged in the aluminum shell, water inlets and water outlets which are arranged at intervals are arranged on the same side of the aluminum shell, and the first water pipe is bent twice in the aluminum shell after entering from the water inlets and then extends out of the water outlets; the first water pipe in the upper radiator and the first water pipe in the lower radiator are communicated with each other through the second water pipe, and therefore the structure is simple, the manufacturing cost is low, and the radiating effect is good.

Description

Water-cooling radiating assembly applied to transformer

Technical Field

The utility model relates to a transformer heat dissipation technical field especially relates to an use water-cooling radiating component on transformer.

Background

With the emergence of modern engineering facilities and equipment, the power consumption of various industries is increased rapidly, transformers are used greatly, the existing transformers in the current market have a single heat dissipation mode, the heat dissipation effect is not ideal enough, and some transformers even adopt a mixed heat dissipation system of oil cooling, water cooling and the like, but the transformers have complex structures and high cost, so that the transformers cannot be popularized and applied in a large range. Therefore, there is a need to develop a new heat dissipation assembly for transformer.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an use water-cooling radiating component on transformer, simple structure, low in manufacturing cost, the radiating effect is good.

In order to achieve the above purpose, the technical scheme of the utility model has:

a water-cooling heat dissipation assembly applied to a transformer comprises an upper radiator and a lower radiator, wherein a containing area for containing the transformer is formed after the upper radiator and the lower radiator are arranged up and down in opposite directions, a heat conduction rubber mat is further arranged in the containing area and is bonded to the outer wall of the upper radiator, the upper radiator and the lower radiator are both composed of an aluminum shell and a first water pipe arranged in the aluminum shell, water inlets and water outlets are formed in the same side of the aluminum shell at intervals, and the first water pipe extends out of the water outlets after being bent twice in the aluminum shell after entering from the water inlets; and the first water pipe in the upper radiator and the first water pipe in the lower radiator are communicated with each other by arranging a second water pipe.

And the bent positions of the first water pipes are provided with round corners.

Wherein, aluminium casing is the rectangle.

One end of the second water pipe is connected with a water outlet on the upper radiator, and the other end of the second water pipe is connected with a water inlet on the lower radiator.

The utility model discloses an use water-cooling radiating component on transformer, its beneficial effect is: 1. a plurality of transformers can be accommodated in the accommodating area formed by the upper radiator and the lower radiator in a vertical arrangement mode, namely, a plurality of transformers arranged in the accommodating area can be simultaneously radiated between the upper radiator and the lower radiator, so that the heat radiation efficiency is high, and the effect is good; 2. because the upper radiator is provided with the heat conducting cushion rubber, the heat of the transformer can be quickly transferred into the upper radiator to exchange heat with the first water pipe, and the heat dissipation efficiency is greatly accelerated; 3. simple structure, low manufacturing cost, high use degree and wide popularization and application.

Drawings

FIG. 1 is a schematic structural view of a water-cooling heat dissipation assembly;

fig. 2 is a schematic view of an upper heat sink structure.

The reference numbers in the figures illustrate: 1. an upper heat sink; 2. a lower heat sink; 3. a containment region; 4. a heat-conducting rubber pad; 5. an aluminum housing; 6. a first water pipe; 61. round corners; 7. a water inlet; 8. a water outlet; 9. a second water pipe; 10. a transformer.

Detailed Description

The water-cooling heat dissipation assembly applied to the transformer is described with reference to the accompanying drawings.

As shown in fig. 1 to 2, as a preferred embodiment of the present invention:

a water-cooling heat dissipation assembly applied to a transformer comprises an upper radiator 1 and a lower radiator 2, wherein a containing area 3 for containing a transformer 10 is formed between the upper radiator 1 and the lower radiator 2 after the upper radiator 1 and the lower radiator are arranged up and down in opposite directions, a heat conduction rubber mat 4 is further arranged in the containing area 3, the heat conduction rubber mat 4 is bonded on the outer wall of the upper radiator 1, the upper radiator 1 and the lower radiator 2 are both composed of an aluminum shell 5 and a first water pipe 6 arranged in the aluminum shell 5, water inlets 7 and water outlets 8 are arranged at intervals on the same side of the aluminum shell 5, and the first water pipe 6 is bent twice in the aluminum shell 5 after entering from the water inlet 7 and then extends out of the water outlet 8; wherein, the first water pipe 6 in the upper radiator 1 and the first water pipe 6 in the lower radiator 2 are communicated with each other by arranging a second water pipe 9.

Can hold a plurality of transformer 10 that the row was opened in the district 3, transformer 10's upper and lower wall supports with the outer wall of last radiator 1 and lower radiator 2 respectively and leans on each other, transformer 10's upper wall supports to lean on the back with heat conduction cushion 4 and fixes on upper radiator 1 through the screw mounting, transformer 10's lower wall and lower radiator 2 between the direct contact back through the screw mounting fix under on radiator 2, the setting of heat conduction cushion is glued, can accelerate the heat transfer process in last radiator 1 on the transformer 10, and then improve radiating efficiency and radiating effect, moreover, transformer 10's lower wall is direct and is hugged closely the setting with radiator 2 down, heat on the transformer 10 can be timely be transmitted and dispels the heat in radiator 2 down.

The aluminum shell 5 has the advantage that the good heat-conducting property of the metal aluminum is utilized, so that heat can be timely transmitted into the upper radiator 1 and the lower radiator 2, and the overall heat-radiating efficiency is further improved.

First water pipe 6 is through twice buckling in last radiator 1 and lower radiator 2, and this twice angle of buckling all is 90 degrees for 6 whole can encircle the round in aluminium system casing 5 of first water pipe, and very big expansion carries out the area of heat transfer with first water pipe 6, and then improves holistic radiating efficiency.

The upper heat sink 1 and the lower heat sink 2 have the same structure and shape.

Preferably, the first water pipe 6 has a round corner 51 at the bending position. The setting of fillet 61 makes more smooth when holistic water route circulates in first water pipe 6, improves whole radiating efficiency.

Furthermore, the first water pipe 6 is formed by one-time extrusion and drawing, and the wall surface inside the first water pipe is smooth and has no barb, so that the first water pipe is not easy to block.

Preferably, the aluminum case 5 has a rectangular shape in order to make the shape of the upper and lower heat sinks 1 and 2 smoother to the installation and heat dissipation between the transformer 10.

Preferably, one end of the second water pipe 9 is connected with the water outlet 8 on the upper radiator 1, and the other end is connected with the water inlet 7 on the lower radiator 2.

The working process of the heat dissipation assembly is as follows: water flows in from the water inlet 7 of the upper radiator 1, flows through the first water pipe 6 and the second water pipe 9 in the upper radiator 1 and the first water pipe 6 in the lower radiator 2, and then flows out from the water outlet 8 on the lower radiator 2, so that the process of primary heat exchange is completed, heat on the transformer 10 is taken out along with the flow of water flow, and heat dissipation is realized.

The utility model discloses an use water-cooling radiating component on transformer, its beneficial effect is: 1. a plurality of transformers 10 can be accommodated in the accommodating area 3 formed by the upper radiator 1 and the lower radiator 2 which are arranged up and down, namely, a plurality of transformers 10 arranged in the accommodating area 3 can be simultaneously radiated between the upper radiator 1 and the lower radiator 2, so that the heat radiation efficiency is high, and the effect is good; 2. because the upper radiator 1 is provided with the heat conducting cushion rubber, the heat of the transformer 10 can be quickly transferred into the upper radiator 1 to exchange heat with the first water pipe 6, and the heat radiation efficiency is greatly accelerated; 3. simple structure, low manufacturing cost, high use degree and wide popularization and application.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (4)

1. A water-cooling heat dissipation assembly applied to a transformer is characterized by comprising an upper radiator and a lower radiator, wherein a containing area for containing the transformer is formed after the upper radiator and the lower radiator are arranged in an up-down opposite mode, a heat conduction rubber pad is further arranged in the containing area and bonded to the outer wall of the upper radiator, the upper radiator and the lower radiator are both composed of an aluminum shell and a first water pipe arranged in the aluminum shell, water inlets and water outlets are formed in the same side of the aluminum shell at intervals, and the first water pipe is bent twice in the aluminum shell after entering from the water inlets and then extends out of the water outlets;

and the first water pipe in the upper radiator and the first water pipe in the lower radiator are communicated with each other by arranging a second water pipe.

2. The water-cooled heat dissipation assembly applied to the transformer of claim 1, wherein the first water pipe has rounded corners at the bent positions.

3. The water-cooled heat dissipation assembly applied to the transformer of claim 1, wherein the aluminum housing is rectangular.

4. The water-cooled heat dissipation assembly applied to the transformer of claim 1, wherein one end of the second water pipe is connected to the water outlet of the upper heat sink, and the other end of the second water pipe is connected to the water inlet of the lower heat sink.

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