CN213880721U - Interior heat dissipation cold row that purifies - Google Patents

Abstract

The utility model relates to an internal purification heat dissipation cold exhaust, which comprises a first liquid storage tank, a second liquid storage tank, a liquid transfer pipe, a cooling fin and a filter, wherein the first liquid storage tank is internally provided with a first liquid storage chamber, and one side edge of the first liquid storage tank is provided with an opening communicated with the first liquid storage chamber; the second liquid storage tank and the first liquid storage tank are arranged at intervals, and a second liquid storage chamber is arranged in the second liquid storage tank; each infusion tube is arranged between the first liquid storage tank and the second liquid storage tank, and two ends of each infusion tube are respectively communicated with the first liquid storage chamber and the second liquid storage chamber; each radiating fin is respectively contacted with each infusion tube; the filter is removably inserted into the opening and formed in the first liquid storage chamber. Therefore, the liquid flowing inside can be purified and filtered, and the disassembly and replacement operations are easy to carry out.

Description

Interior heat dissipation cold row that purifies

Technical Field

The present invention relates to a heat dissipation cold bar technology, and more particularly to an internal purification heat dissipation cold bar.

Background

The liquid-cooled heat sink takes water and other liquids as working media to take away heat, the air-cooled heat sink takes gas as working media to take away heat, and the density of the liquid is higher than that of the gas, so that the heat dissipation efficiency of the liquid-cooled heat sink is obviously better than that of the air-cooled heat sink, and the liquid-cooled heat sink can effectively solve the problem of increasing heat of electronic components at the present stage, and thus the liquid-cooled heat sink is gradually widely and largely used by related manufacturers.

The existing liquid-cooled heat dissipation device mainly comprises a water tank, a water pump, a heat dissipation cold bar and a water delivery pipeline which is communicated with the above elements, wherein the heat dissipation cold bar mainly comprises a water storage barrel, a water delivery pipe and heat dissipation fins, the water delivery pipe is communicated with the water storage barrel, and the heat dissipation fins are in contact conduction with the water delivery pipe; the water circularly flows in the water storage barrel and the water conveying pipe so as to take away the heat generated by the electronic product.

However, the conventional heat dissipation cold drain is not provided with a filtering device, and when the heat dissipation cold drain is used for a long time, liquid dirt, water pump operation or impact on the inner wall of the water pipe often causes fine impurities, and the like, and if the impurities are not properly filtered and cleaned, the heat dissipation efficiency is finally lowered.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an interior heat dissipation cold row that purifies, it not only can purify and filter the liquid of inside flow, and easily dismantle and change the operation.

In order to achieve the above object, the present invention provides an internal-purification heat dissipation cold radiator, which comprises a first liquid storage tank, a second liquid storage tank, a plurality of liquid transport tubes, a plurality of heat dissipation fins and a filter, wherein the first liquid storage tank has a first liquid storage chamber therein, and an opening communicating with the first liquid storage chamber is formed at one side of the first liquid storage tank; the second liquid storage tank is arranged at an interval with the first liquid storage tank, and a second liquid storage chamber is arranged in the second liquid storage tank; each infusion tube is arranged between the first liquid storage box and the second liquid storage box, and two ends of each infusion tube are respectively communicated with the first liquid storage chamber and the second liquid storage chamber; the radiating fins are respectively contacted with the infusion tubes; the filter is removably inserted into the opening and is formed in the first liquid storage chamber.

The utility model provides a technical scheme as follows:

the utility model provides an interior heat dissipation cold row that purifies, characterized by includes: the first liquid storage box is internally provided with a first liquid storage chamber, and one side edge of the first liquid storage box is provided with an opening communicated with the first liquid storage chamber; a second liquid storage tank arranged at an interval with the first liquid storage tank, and a second liquid storage chamber is arranged in the second liquid storage tank; a plurality of infusion tubes arranged between the first liquid storage tank and the second liquid storage tank, wherein two ends of each infusion tube are respectively communicated with the first liquid storage chamber and the second liquid storage chamber; a plurality of radiating fins which are respectively contacted with the infusion tubes; and a filter removably inserted into the opening and formed in the first liquid storage chamber.

Further preferably, a partition plate is disposed inside the first reservoir to partition the first reservoir into a first liquid containing cavity and a second liquid containing cavity which are not communicated with each other, and the opening is communicated with the first liquid containing cavity.

Further preferably, a receiving structure is disposed in the first liquid-containing chamber at a position corresponding to the opening, the filter includes a bracket and a filter net, the filter net is mounted on the bracket, and the bracket is inserted corresponding to the receiving structure.

Further preferably, the receiving structure is a C-shaped guide rail, a through hole is formed at the closed end of the C-shaped guide rail, and the bracket is inserted into the C-shaped guide rail, so that the filter screen is horizontally arranged above the outlet end of each infusion tube.

Further preferably, the receiving structure includes an upper guide rail and a lower guide rail disposed corresponding to the upper guide rail and formed below the upper guide rail, a guide slot is formed between the upper guide rail and the lower guide rail, and the bracket is inserted corresponding to the guide slot, so that the filter screen is vertically disposed at a side of the outlet end of each infusion tube.

Further preferably, the filter further comprises an end plate and a plunger, the plunger is connected to the end plate, the bracket is rectangular, the bracket is connected to the plunger, and the plunger is sealed corresponding to the opening.

Further preferably, a water outlet joint communicated with the first liquid containing cavity is arranged above the first liquid storage tank corresponding to the first liquid containing cavity.

Further preferably, a water inlet joint communicated with the second liquid containing cavity is arranged above the first liquid storage tank corresponding to the second liquid containing cavity.

Further preferably, a water replenishing unit communicated with the second liquid accommodating cavity is arranged on the side edge of the water inlet joint of the first liquid storage box.

Further preferably, an end cap is provided at the opening side of the first tank to cover the opening and the side of the first tank.

The utility model discloses still have following efficiency, borrow by the bracket and accept the slip joint cooperation of structure, not only do benefit to the operation of dismantlement and equipment, and possess through the filter screen and have great purification flow area, thereby stop the risk of jam.

Drawings

The above features, technical features, advantages and implementations of the internally purified heat rejection cold row will be further described in a clearly understandable manner in the following description of preferred embodiments in conjunction with the accompanying drawings.

Fig. 1 is an appearance view of the heat dissipation and cold discharge combination with internal purification of the utility model.

Fig. 2 is an exploded perspective view of the filter and the first reservoir according to the present invention.

Fig. 3 is an exploded view of the end cap and the first reservoir according to the present invention.

Fig. 4 is an exploded view of the filter and the first reservoir of the present invention.

Fig. 5 is a sectional view of the heat dissipation and cooling device with internal purification of the present invention.

Fig. 6 is another combined sectional view of the internal-purification heat dissipation cold row of the present invention.

Fig. 7 is a partial sectional view of the heat dissipation cold drain of the internal purification of the present invention.

Fig. 8 is a combined partial sectional view of another embodiment of the present invention.

Fig. 9 is another sectional view of another embodiment of the present invention.

The reference numbers illustrate:

10: a first liquid storage box, 11: a first liquid storage chamber, 110: a first liquid containing cavity, 111: a second liquid containing cavity, 12: a partition plate, 13: an opening, 14A: a bearing structure, 141: a C-shaped guide rail, 142: a through hole, 143: an upper guide rail, 144: a lower guide rail, 145: a guide groove, 15: a water outlet joint, 16: a water inlet joint, 17: a water replenishing unit, 18: an end cover, 20: the second liquid storage box, 21: the second liquid storage chamber, 30: a liquid conveying pipe, 40: a heat radiating fin, 50: a filter, 51: an end plate, 52: a plunger, 53: a bracket and 54: a filter screen.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the present application. However, it will be apparent to one skilled in the art that the present application may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present application with unnecessary detail.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

For the sake of simplicity, only the parts relevant to the present invention are schematically shown in the drawings, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

The following detailed description and technical contents of the present invention are described with reference to the drawings, but the drawings are only provided for reference and illustration, and are not intended to limit the present invention.

Referring to fig. 1 to 7, the present invention provides an internal-purification heat dissipation cold air exhaust, which mainly includes a first liquid storage tank 10, a second liquid storage tank 20, a plurality of infusion tubes 30, a plurality of cooling fins 40 and a filter 50.

The first liquid storage box 10 is substantially a rectangular body, and has a first liquid storage chamber 11 therein, a partition plate 12 is disposed at a middle position of the first liquid storage chamber 11 to partition the first liquid storage chamber 11 into a first liquid containing cavity 110 and a second liquid containing cavity 111 that are not communicated with each other, an opening 13 communicating with the first liquid containing cavity 110 is disposed at one side of the first liquid storage box 10, a receiving structure 14 is disposed in the first liquid containing cavity 110 at a position corresponding to the opening 13, the receiving structure 14 of the embodiment is a C-shaped guide rail 141, and a through hole 142 is disposed at a closed end of the C-shaped guide rail 141. Wherein C-shaped guide 141 is disposed at a position above the outlet end of each infusion tube 30 (as shown in fig. 6 and 7).

In addition, a water outlet connector 15 communicated with the first liquid containing cavity 110 is arranged above the first liquid storage box 10 corresponding to the first liquid containing cavity 110, and a water inlet connector 16 communicated with the second liquid containing cavity 111 is arranged above the first liquid storage box 10 corresponding to the second liquid containing cavity 111. In addition, a water replenishing unit 17 communicating with the second liquid containing chamber 111 is installed at the side of the water inlet joint 16 of the first liquid storage tank 10. Furthermore, an end cap 18 (shown in fig. 2 and 3) is disposed at the side of the opening 13 of the first tank 10 for covering the opening 13 and the side of the first tank 10.

The second liquid storage tank 20 is disposed in parallel with the first liquid storage tank 10 at an interval, and has a substantially rectangular shape, and a second liquid storage chamber 21 is provided inside the second liquid storage tank 20.

The infusion tube 30 of the present embodiment is a flat tube, two ends of each infusion tube 30 are respectively communicated with the first liquid storage chamber 11 and the second liquid storage chamber 21, the infusion tubes 30 are arranged at intervals and are parallel to each other, and the infusion tube 30, the first liquid storage tank 10 and the second liquid storage tank 20 can be combined by welding, so as to achieve good airtight and watertight effects.

The heat dissipation fins 40 of the present embodiment have a wave shape, and each wave-shaped heat dissipation fin 40 is disposed between any two infusion tubes 30 and is in contact with and thermally conductive to each infusion tube 30.

Referring to fig. 2 and 4, the filter 50 is detachably inserted into the opening 13 of the first reservoir 10 and formed in the first liquid containing chamber 110 of the first reservoir 10, the filter 50 includes an end plate 51, a plunger 52, a bracket 53 and a filter 54, wherein the plunger 52 is connected to the end plate 51, the bracket 53 is substantially rectangular, the bracket 53 is connected to an end surface of the plunger 52, and the filter 54 is mounted on the bracket 53.

In use, the bracket 53 is inserted into the C-shaped guide 141, and the filter 54 is laid over the outlet end of each infusion tube 30, with the plunger 52 sealed in correspondence with the opening 13. When the working fluid such as water inside flows out from the outlet end of the infusion tube 30, the working fluid directly enters the first liquid containing cavity 110, then flows upwards through the through holes 142 and the filter 54, and passes through the structural form of the bracket 53, so that the filter 54 has a large purification flow area, thereby avoiding the risk of blockage.

Referring to fig. 8 and 9, the difference between the present embodiment and the above-mentioned embodiment is that the receiving structure 14A includes an upper guide rail 143 and a lower guide rail 144 disposed corresponding to the upper guide rail 143 and formed below the upper guide rail 143, and a guide groove 145 is formed between the upper guide rail 143 and the lower guide rail 144, wherein the filter net bracket 53 is inserted corresponding to the guide groove 145, so that the filter net 54 is vertically disposed at the side of the outlet end of each infusion tube 30.

To sum up, the internal-purification heat dissipation cold air duct of the present invention can achieve the expected purpose of use, and solve the conventional drawbacks. The above description is only a preferred embodiment of the present invention, not intended to limit the scope of the present invention, other equivalents of the spirit of the present invention shall all fall within the scope of the present invention.

Claims (10)

1. The utility model provides an interior heat dissipation cold row that purifies, characterized by includes:

the first liquid storage box is internally provided with a first liquid storage chamber, and one side edge of the first liquid storage box is provided with an opening communicated with the first liquid storage chamber;

a second liquid storage tank arranged at an interval with the first liquid storage tank, and a second liquid storage chamber is arranged in the second liquid storage tank;

a plurality of infusion tubes arranged between the first liquid storage tank and the second liquid storage tank, wherein two ends of each infusion tube are respectively communicated with the first liquid storage chamber and the second liquid storage chamber;

a plurality of radiating fins which are respectively contacted with the infusion tubes; and

a filter removably inserted into the opening and formed in the first liquid storage chamber.

2. The internally-purified, heat-dissipating cold drain of claim 1, wherein a partition is disposed inside the first reservoir to separate the first reservoir into a first liquid-containing chamber and a second liquid-containing chamber that are not connected to each other, the opening communicating with the first liquid-containing chamber.

3. The heat dissipating cold row as claimed in claim 2, wherein a receiving structure is disposed in the first liquid chamber corresponding to the opening, the filter includes a bracket and a filter, the filter is disposed on the bracket, and the bracket is inserted corresponding to the receiving structure.

4. The internally purified, heat dissipating cold row of claim 3, wherein the receiving structure is a C-shaped guide, a through hole is formed at the closed end of the C-shaped guide, and the bracket is inserted corresponding to the C-shaped guide, so that the filter screen is horizontally disposed above the outlet end of each of the infusion tubes.

5. The internally-purified, heat-dissipating cold row of claim 3, wherein the receiving structure comprises an upper rail and a lower rail disposed corresponding to the upper rail and formed below the upper rail, a guiding slot is formed between the upper rail and the lower rail, and the bracket is inserted corresponding to the guiding slot, so that the filter screen is vertically disposed at the side of the outlet end of each infusion tube.

6. The internally purified, heat rejecting cold row of claim 3, wherein the filter further comprises an endplate and a plunger, the plunger is connected to the endplate, the bracket is rectangular, the bracket is connected to the plunger, and the plunger is sealed in relation to the opening.

7. The internally-purified, heat-dissipating cold drain of claim 2, wherein a water outlet joint communicating with the first liquid-containing chamber is disposed above the first liquid-storing tank corresponding to the first liquid-containing chamber.

8. The heat dissipating cold drain of claim 7, wherein a water inlet joint is disposed above the first reservoir and corresponding to the second liquid chamber to connect the second liquid chamber.

9. The heat dissipating cold row of claim 8, wherein a water replenishing unit is installed at a side of the water inlet joint of the first reservoir and connected to the second liquid chamber.

10. The internally purified heat rejection cold row as claimed in claim 1, wherein an end cap is provided at the opening side of the first reservoir for covering corresponding to the opening and the side of the first reservoir.

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