CN106163223A - A kind of radiating subassembly - Google Patents

Abstract

The invention discloses a kind of radiating subassembly, including a heat-conducting piece and multiple radiating piece, heat-conducting piece includes a junction and an installation portion, and connecting portion one end is connected with installation portion, and the other end contacts with system heat sources, is used for conducting heat to installation portion；Each radiating piece all includes one first radiating part and multiple second radiating part, first radiating part is arranged on the installation portion of heat-conducting piece, multiple second radiating parts are arranged on the first radiating part, are distributed in dendroid, can make full use of the confined space and fully be distributed to air by the waste heat on installation portion.Compared with prior art, the present invention is by improving and optimizing existing radiating subassembly, the structure and the layout in the confined space that make radiating piece are more reasonable, can increasing heat radiation area, improve antipyretic ability and efficiency, strengthening antipyretic response, between the first radiating part and the second radiating part, multi-angle installs the Installation Flexibility that can improve radiating piece, expands the scope of application；Therefore, there is the most wide application prospect.

Description

A kind of radiating subassembly

Technical field

The present invention relates to a kind of radiating subassembly, belong to dissipation equipment technical field.

Background technology

It is known that high temperature is the formidable enemy of plant equipment and electronic devices and components.High temperature not only can cause system to run shakiness, and service life shortens, it could even be possible to make some parts burn, causes whole equipment or systemic breakdown to lose efficacy.It is extraneous that the heat causing high temperature is not from system, and is derived from inside plant equipment and electronic devices and components, or perhaps is derived from system core operating position.

In order to solve system heat generation problem, people generally use radiating subassembly or device, radiating subassembly conventional in the market or device mostly are radiator fan, fin and heat pipe, the operation principle of radiator fan is the simplest, it it is exactly heat produced by the mode band walking system using forced-air convection, there is cost relatively low, the advantage such as easy for installation, but this kind of radiating mode can relate to Acceptable life and operating noise problem, use limitation bigger, and it is higher to operating environment dependency, such as when temperature rising and overclocking, its heat dispersion will be greatly affected.In contrast, the application of fin and heat pipe is then the most flexible, fin and heat pipe use the mode contacted with heat generating components surface in system to absorb heat, its exterior is transferred heat to again by other supplementary meanss, thus complete the heat radiation to system, this kind of radiating mode work peace and quiet, cooling is stable, lost efficacy and failure rate is low, service life is relatively long, but fin or the structure of heat pipe, volume, the factors such as area of dissipation can be limited by system structure and space, the radiating efficiency of fin or heat pipe can be substantially reduced to a certain extent, have a strong impact on antipyretic response, therefore, how in the confined space, the effective area of dissipation of increase as much as possible becomes problem demanding prompt solution already.

Summary of the invention

The problems referred to above existed for prior art, it is an object of the invention to provide a kind of radiating subassembly, by improving and optimizing existing radiating subassembly, the structure and the layout in the confined space that make radiating piece are more reasonable, increasing heat radiation area, improves antipyretic ability and efficiency, strengthens antipyretic response.

For achieving the above object, the technical solution used in the present invention is as follows:

A kind of radiating subassembly, including a heat-conducting piece and multiple radiating piece, wherein, heat-conducting piece includes a junction and an installation portion, and connecting portion one end is connected with installation portion, and the other end contacts with system heat sources, is used for conducting heat to installation portion；Each radiating piece all includes one first radiating part and multiple second radiating part, first radiating part is arranged on the installation portion of heat-conducting piece, multiple second radiating parts are arranged on the first radiating part, are distributed in dendroid, can make full use of the confined space and fully be distributed to air by the waste heat on installation portion.

Preferably, connecting portion is integrated with installation portion, and connecting portion is formed by the bending of installation portion one end.

Preferably, multiple radiating pieces are evenly distributed on the installation portion of heat-conducting piece by its first radiating part respectively.

It is highly preferred that the first radiating part is vertically mounted on the installation portion of heat-conducting piece, it is simple to process and assemble.

It is highly preferred that the first radiating part is inclined and mounted on the installation portion of heat-conducting piece, it is adaptable to the situation that system installing space is less, use motility more preferable.

Preferably, the second radiating part is installed vertically or inclined on the first radiating part, is applicable to multi-angle and installs, increase Installation Flexibility, expands range.

Preferably, on the premise of space allows, the second radiating part also can be set up multiple second radiating part, be distributed in multistage dendroid, can increasing heat radiation area further, more fully utilize heat-dissipating space, raising radiating efficiency.

Preferably, heat-conducting piece is heat-conducting copper pipe, has heat transfer efficiency height, the advantage such as little is damaged in compact conformation, fluid resistance.

Preferably, radiating piece is aluminum thermal fin, has area of dissipation big, the advantage of good heat dissipation effect.

Relative to prior art, the invention has the beneficial effects as follows: by improving and optimizing existing radiating subassembly, the structure and the layout in the confined space that make radiating piece are more reasonable, first radiating part and the second radiating part are dendritic multistage collocation, can effective increasing heat radiation area, improve antipyretic ability and efficiency, strengthen antipyretic response, additionally, the multi-angle between the first radiating part and the second radiating part installs the Installation Flexibility being greatly improved radiating piece, expand the scope of application of radiating subassembly.Therefore, there is the most wide application prospect and promotional value.

Accompanying drawing explanation

Fig. 1 is the structural representation of the preferred embodiment of a kind of radiating subassembly that the present invention provides.

Detailed description of the invention

Make the present invention with preferred embodiment below in conjunction with the accompanying drawings further to illustrate detailed completely.

The preferred embodiment schematic diagram of a kind of radiating subassembly that Fig. 1 provides for the present invention.As shown in Figure 1, this radiating subassembly 1 includes a heat-conducting copper pipe 11 and eight aluminum thermal fins 12, and wherein, heat-conducting copper pipe 11 includes a junction 111 and an installation portion 112, connecting portion 111 is integrated with installation portion 112, and connecting portion 111 is formed by installation portion 112 one end bending；Connecting portion 111 one end is connected with installation portion 112, and the other end contacts with system heat sources (not shown), is used for conducting heat to installation portion 112；Ten fin 12 are evenly distributed on the installation portion 112 of heat-conducting piece 11, each fin 12 all includes one first radiating part 121 and four the second radiating parts 122, wherein, first radiating part 121 is inclined and mounted on the installation portion 112 of heat-conducting piece 11 with 45° angle, four the second radiating parts 122 are inclined and mounted on the first radiating part 121 with 45° angle the most respectively, the overall distribution in dendroid, can make full use of the confined space and fully be distributed to air by the waste heat on installation portion 112.

Additionally, it is noted that on the premise of space allows, the second radiating part 122 also can be set up multiple second radiating part 122, be distributed in multistage dendroid, can increasing heat radiation area further, more fully utilize heat-dissipating space, raising radiating efficiency.

Radiating subassembly 1 in the preferred embodiment is in use, the connecting portion 111 of heat-conducting copper pipe 11 is in close contact with system heat sources, the heat that system produces conducts to installation portion 112 with connecting portion 111, diffuse to after dendritic aluminum thermal fin 12 fully absorbs again on the second radiating part 122, thoroughly distributed to surrounding air by the fin surface after expanding, thus reach to improve radiating efficiency, the most antipyretic purpose.

This radiating subassembly is by improving and optimizing existing radiating subassembly, the structure and the layout in the confined space that make radiating piece are more reasonable, first radiating part and the second radiating part are dendritic multistage collocation, can effective increasing heat radiation area, improve antipyretic ability and efficiency, strengthen antipyretic response, in addition, multi-angle between first radiating part and the second radiating part installs the Installation Flexibility being greatly improved radiating piece, expand the scope of application of radiating subassembly, there is the most wide application prospect and promotional value.

Finally it is necessary described herein: above example is served only for being described in more detail technical scheme; it is not intended that limiting the scope of the invention, some nonessential improvement and adjustment that those skilled in the art makes according to the foregoing of the present invention belong to protection scope of the present invention.

Claims (7)

1. a radiating subassembly, it is characterised in that: including a heat-conducting piece and multiple radiating piece, heat-conducting piece includes a junction and an installation portion, and connecting portion one end is connected with installation portion, and the other end contacts with system heat sources；Each radiating piece all includes one first radiating part and multiple second radiating part, and the first radiating part is arranged on the installation portion of heat-conducting piece, and multiple second radiating parts are arranged on the first radiating part, is distributed in dendroid.

Radiating subassembly the most according to claim 1, it is characterised in that: connecting portion is integrated with installation portion, and connecting portion is formed by the bending of installation portion one end.

Radiating subassembly the most according to claim 1, it is characterised in that: multiple radiating pieces are evenly distributed on the installation portion of heat-conducting piece by its first radiating part respectively.

Radiating subassembly the most according to claim 1, it is characterised in that: the first radiating part is installed vertically or inclined on the installation portion of heat-conducting piece.

Radiating subassembly the most according to claim 1, it is characterised in that: the second radiating part is installed vertically or inclined on the first radiating part.

Radiating subassembly the most according to claim 1, it is characterised in that: heat-conducting piece is heat-conducting copper pipe.

Radiating subassembly the most according to claim 1, it is characterised in that: radiating piece is aluminum thermal fin.