CN214846516U - Heat dissipation support and radiator thereof - Google Patents

Abstract

The utility model relates to a heat dissipation bracket and a radiator thereof, belonging to the technical field of heat dissipation, comprising a body, which is provided with a through hole for supporting the bottom of the heat dissipation body to pass through the through hole to be attached to the surface of a CPU; and a fixing mechanism disposed on the body, the fixing mechanism including: the fixing holes comprise connecting holes and connecting grooves which are arranged on the body; and the first connecting pieces are used for being matched with the connecting holes or the connecting grooves, and the second connecting pieces are used for being matched with the connecting holes or the connecting grooves. The utility model discloses a set up the integrative support of many platforms and come the different CPU platform mainboard of adaptation, practice thrift the cost, the structure is more stable.

Description

Heat dissipation support and radiator thereof

Technical Field

The utility model relates to a heat dissipation technical field specifically is a heat dissipation support and radiator thereof.

Background

A Central Processing Unit (CPU) generates a large amount of heat during operation, and if the heat is not dissipated in time, the CPU is likely to be down-frequency running, halted, or even burned, so that a heat sink needs to be used to dissipate the heat.

The CPU radiator can be divided into an air cooling mode and a liquid cooling mode according to the heat dissipation mode, corresponding supports are needed when the radiator is installed, a left separating support and a right separating support are used in the traditional supports, and the left separating support and the right separating support are not integrated but divided into a left part and a right part.

The mainboard of main CPU platform is difficult to be compatible to present left and right separation support, therefore the radiator need join in marriage many sets of supports and come the different CPU platform mainboards of adaptation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heat dissipation support and radiator thereof to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a heat dissipating bracket, comprising:

the body is provided with a through hole and is used for supporting the bottom of the heat dissipation body to pass through the through hole to be attached to the surface of the CPU; and

the fixing mechanism is arranged on the body;

the fixing mechanism includes:

the fixing holes comprise connecting holes and connecting grooves which are arranged on the body; and

the connecting structure comprises a plurality of first connecting pieces or second connecting pieces, wherein the first connecting pieces are used for being matched with connecting holes or connecting grooves, and the second connecting pieces are used for being matched with the connecting holes or the connecting grooves.

The utility model also provides a radiator, include:

the heat dissipation assembly is used for dissipating heat;

the heat dissipation bracket is used for connecting the heat dissipation assembly with the mainboard;

and one end of the connecting component is connected with the radiating component, and the other end of the connecting component is connected with the radiating support.

Compared with the prior art, the beneficial effects of the utility model are that: different CPU platform mainboards are adapted through setting the multi-platform integrated support, the cost is saved, and the structure is more stable.

Drawings

FIG. 1 is a schematic structural view of a heat dissipation bracket;

FIG. 2 is a schematic view of a connection structure between a heat dissipation bracket and a motherboard;

FIG. 3 is a schematic structural view of a heat dissipation bracket and another motherboard;

FIG. 4 is a schematic structural view of a heat dissipation bracket and another motherboard;

fig. 5 is a schematic structural view of a heat dissipation bracket.

In the figure: 1-a multi-platform integrated bracket, 2-abdicating holes, 3-fixing holes, 31-connecting holes, 32-connecting grooves, 4-press riveting screws, 5-T-shaped nuts, 6-double-end external thread supporting columns, 7-a first back plate, 8-internal tooth riveting columns, 9-bracket fixing screws, 10-supporting columns, 11-a second back plate and 12-back plate rivets, 13-pressing plate fixing screws, 14-heat radiator pressing plates, 15-screw rods, 16-heat radiator bases, 101-first main board, 102-first CPU, 103-fixing riveting columns, 104-CPU sockets, 201-second main board, 202-second CPU, 203-first reserved mounting holes, 301-third main board, 302-third CPU and 303-second reserved mounting holes.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In an embodiment of the present invention, the heat dissipation bracket and the heat sink thereof shown in fig. 1 to 3 includes:

the body is provided with a through hole and is used for supporting the bottom of the heat dissipation body to pass through the through hole to be attached to the surface of the CPU; and

the fixing mechanism is arranged on the body;

the fixing mechanism includes:

the fixing holes 3 comprise connecting holes 31 and connecting grooves 32 which are arranged on the body; and

the connecting structure comprises a plurality of first connecting pieces or second connecting pieces, wherein the first connecting pieces are used for being matched with connecting holes 31 or connecting grooves 32, and the second connecting pieces are used for being matched with the connecting holes 31 or the connecting grooves 32.

In this embodiment, the body is a multi-platform integrated bracket 1, preferably rectangular structure, the through hole is a step-down hole 2, the step-down hole 2 is a rectangular hole, which can be chamfered or rounded, and provided with a slot, etc., and it is not specifically limited herein, the multi-platform integrated bracket 1 is adapted to different main boards by the arrangement of the fixing mechanism, thereby avoiding the arrangement of multiple sets of brackets to adapt to different CPU platform main boards, saving cost, and being more practical, wherein the connecting holes 31 and the connecting slots 32 are arranged at four corners of the multi-platform integrated bracket 1, one connecting hole 31 is arranged, two connecting slots 32 are arranged, the fixing holes 3 are symmetrically arranged about the diagonal line of the multi-platform integrated bracket 1, thus the multi-platform integrated bracket can be normally installed after rotating 90 degrees, improving applicability, the arrangement of the connecting holes 31 and the connecting slots 32 is for adapting to different CPU main boards, and both play a fixing role, and can use various fixing structures, no difference is made between the first connecting piece and the second connecting piece; in one aspect of this embodiment, the body is a carrier for connecting the heat sink and the motherboard, and may have various structures or expressions, and only needs to have a function of mounting the carrier, which is not specifically limited herein.

Referring to fig. 2, in an embodiment of the present invention, the first connecting member includes:

the first supporting piece is arranged between the body and the main board and used for enabling a set gap to be reserved between the body and the main board; and

and the first locking piece is connected to the end part of the first support piece and is used for realizing the extrusion mounting of the body and the main plate.

In the embodiment of the present invention, the first supporting member is a double-end external thread supporting column 6, in this embodiment, a first main board 101 is provided, one side of which is fixedly installed with a first CPU102, specifically, the first CPU102 is installed on a CPU socket 104 on the first main board 101, and a fixing rivet 103 is installed on the CPU socket 104; the multi-platform integrated support comprises a multi-platform integrated support 1, a fixing hole 3, a fixing rivet column 103, a double-end external thread supporting column 6, a T-shaped nut 5, a first locking piece, a first main board 101, a multi-platform integrated support 1 and a multi-platform integrated support 1, wherein the fixing hole 3 is corresponding to the fixing rivet column 103, one end of the double-end external thread supporting column 6 is matched with the fixing rivet column 103, the other end of the double-end external thread supporting column is penetrating through the fixing hole 3, the first locking piece is the T-shaped nut 5, the multi-platform integrated support 1 and the double-end external thread supporting column 6 are matched with the fixing rivet column 103 and are fixedly connected with the first main board 101 during installation, then the multi-platform integrated support 1 is placed in, the double-end external thread supporting columns 6 at four corners are fixed with the multi-platform integrated support 1, and the multi-platform integrated support 1 is fixedly connected with the first main board 101, and the double-end external thread supporting column 6 is separated from the multi-platform integrated support 1 and the multi-platform integrated support is provided with the double-end external thread supporting column 6 without a thread section and the fixing rivet column 103; as an alternative, the first supporting member may be a supporting cylinder having a protruding threaded head at one end and a threaded hole at the other end, the first locking member is a screw matched with the threaded hole, when the multi-platform integrated bracket 1 is installed, the end with the threaded head of the four supporting cylinders is screwed into the fixing rivet 103, and then the multi-platform integrated bracket 1 is locked into the threaded hole of the supporting cylinder by the four screws.

Referring to fig. 4, in an embodiment of the present invention, the second connecting member includes:

the second supporting piece is arranged between the body and the main board and used for enabling a set gap to be reserved between the body and the main board; and

and the second locking piece penetrates through the connecting groove and the second supporting piece and is used for realizing the extrusion installation of the body and the main plate.

The utility model discloses an in the embodiment, second support piece is support column 10, provides a second mainboard 201 in this embodiment, second mainboard 201 one side fixed mounting has second CPU202, has seted up first reservation mounting hole 203 on the second mainboard 201, and first reservation mounting hole 203 sets up in the second CPU202 outside, has seted up the mounting hole in the middle of the support column 10 and has been used for cooperating with second retaining member, sets up between second mainboard 201 and the integrative support 1 of many platforms, accomplishes fixedly through the second retaining member.

In an embodiment of the present invention, the heat dissipation bracket further includes:

the bottom part is arranged on one side, far away from the body, of the main board, and the bottom part, the main board and the body are connected into a whole through the first connecting piece or the second connecting piece.

In the embodiment of the present invention, the bottom part is the first back plate 7 as shown in fig. 3 and fig. 4, the second main plate 201 is also used in this embodiment, the second CPU202 is fixedly installed on one side of the second main plate 201, the second main plate 201 is provided with the first reserved installation hole 203, the first reserved installation hole 203 is disposed outside the second CPU202, preferably, the bottom part is provided with a fitting piece, and the fitting piece is connected with the end of the first supporting member in the first connecting member or connected with the second locking member in the second connecting member; when the first connecting piece is used, the matching piece is an inner tooth riveting column 8, one end of the double-end external thread supporting column penetrates through the first reserved mounting hole 203 to be fixedly connected with the inner tooth riveting column 8 on the first back plate 7, and the other end of the double-end external thread supporting column penetrates through the fixing hole 3 to be fixedly connected with the T-shaped nut 5, so that the first back plate 7, the second main plate 201 and the multi-platform integrated support 1 are fixedly connected; when the second connecting piece is used, the second locking piece is a bracket fixing screw 9 as shown in fig. 4, one end of the bracket fixing screw 9 penetrates through the fixing hole 3, the supporting column 10 and the first reserved mounting hole 203 to be connected and fixed with the inner tooth riveting column 8 on the first back plate 7, and thus two modes of connection and fixation are realized.

In an embodiment of the present invention, the second locking member is fixed on the bottom member, the second locking member runs through the main board, the second supporting member and the main body and is connected to the third locking member, in this embodiment, a third main board 301 is provided, a third CPU302 is fixedly mounted on one side of the third main board 301, a second reserved mounting hole 303 is opened outside the third CPU302, in this embodiment, the second locking member is a back board rivet 12 as shown in fig. 5, the bottom member is a second back board 11 as shown in fig. 5, one end of the back board rivet 12 is fixed on the second back board 11, the other end runs through the second reserved mounting hole 303, the supporting pillar 10, the fixing hole 3 is connected and fixed to the third locking member, and the third connecting member can be a T-shaped nut 5 matched with the back board rivet 12.

In an embodiment of the present invention, a heat sink as shown in fig. 5 includes:

the heat dissipation assembly is used for dissipating heat;

the heat dissipation bracket is used for connecting the heat dissipation assembly with the mainboard;

and one end of the connecting component is connected with the radiating component, and the other end of the connecting component is connected with the radiating support.

The utility model discloses an in the embodiment, radiator unit adopt heating panel or radiating fin can to can realize that the heat dissipation demand can, do not carry out specific injecing here, will dispel the heat the support through coupling assembling and be connected fixedly with radiator unit, thereby the different CPU platform mainboard of adaptation dispels the heat to it.

Referring to fig. 5, in an embodiment of the present invention, the connecting assembly includes:

one side of the pressing plate is fixedly connected with the heat dissipation body;

and one end of the fastener is fixedly connected with the pressure plate piece, and the other end of the fastener is fixedly connected with the body.

In the embodiment of the utility model, the clamp plate piece is radiator clamp plate 14 and radiator base 16, radiator base 16 and radiator unit fixed connection, be used for carrying out the heat conduction with the CPU contact, radiator clamp plate 14 is used for fixing radiator base 16, specifically fix through the fastener, wherein, the fastener is rivet screw 4 and screw rod 15, rivet screw 4 fixed mounting is on the integrative support 1 of many platforms, specifically two, set up at both ends, fix radiator base 16 with radiator clamp plate 14 through clamp plate fixed screw 13 during the installation, this fixed mode can be multiple, do not specifically limit the direction, shape, size and the quantity of clamp plate fixed screw 13 here, as long as guarantee to have certain spacing between radiator base 16 and radiator clamp plate 14; and then the screw rod 15 is rotated to be sleeved outside the pressure riveting screw 4, so that the radiator pressing plate 14 is connected and fixed with the multi-platform integrated bracket 1.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A heat dissipation bracket, comprising:

the body is provided with a through hole and is used for supporting the bottom of the heat dissipation body to pass through the through hole to be attached to the surface of the CPU; and

the fixing mechanism is arranged on the body;

the fixing mechanism includes:

the fixing holes comprise connecting holes and connecting grooves which are arranged on the body; and

the connecting structure comprises a plurality of first connecting pieces or second connecting pieces, wherein the first connecting pieces are used for being matched with connecting holes or connecting grooves, and the second connecting pieces are used for being matched with the connecting holes or the connecting grooves.

2. The heat dissipating bracket of claim 1, wherein the first connector comprises:

the first supporting piece is arranged between the body and the main board and used for enabling a set gap to be reserved between the body and the main board; and

and the first locking piece is connected to the end part of the first support piece and is used for realizing the extrusion mounting of the body and the main plate.

3. The heat dissipating bracket of claim 2, wherein the second connector comprises:

the second supporting piece is arranged between the body and the main board and used for enabling a set gap to be reserved between the body and the main board; and

and the second locking piece penetrates through the fixing hole and the second supporting piece and is used for realizing the extrusion installation of the body and the main plate.

4. The heat dissipating bracket of claim 3, further comprising:

the bottom part is arranged on one side, far away from the body, of the main board, and the bottom part, the main board and the body are connected into a whole through the first connecting piece or the second connecting piece.

5. A heat dissipating support according to claim 4, wherein the base member is provided with a mating member that is connected to an end of the first support member in the first connecting member or to the second locking member in the second connecting member.

6. A heat dissipation bracket as defined in claim 4, wherein the second locking member is fixed to the base member, and the second locking member is connected to the third locking member through the main plate, the second support member and the main body.

7. A heat sink, comprising:

the heat dissipation assembly is used for dissipating heat;

the heat dissipating bracket of any of claims 1-6, configured to couple the heat dissipating component to a motherboard;

and one end of the connecting component is connected with the radiating component, and the other end of the connecting component is connected with the radiating support.

8. The heat sink of claim 7, wherein the connection assembly comprises:

one side of the pressing plate is fixedly connected with the heat dissipation body;

and one end of the fastener is fixedly connected with the pressure plate piece, and the other end of the fastener is fixedly connected with the body.

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