CN206270861U - A kind of radiator - Google Patents

Abstract

The application provides a kind of radiator, it includes base plate, two first U-shaped heat conducting pipes, two second U-shaped heat conducting pipes, radiating block, two support frames and fan groups, two first U-shaped heat conducting pipes and two second U-shaped heat conducting pipes are arranged at base plate, radiating block is arranged in two first U-shaped heat conducting pipes and the second U-shaped heat conducting pipe, two support frames are arranged at the both sides of radiating block, and base plate is fixed on, fan composing is placed in two support frames, and positioned at one end of radiating block.Electronic unit is directed at radiating block by the radiator of the application by the way that multiple U-shaped heat conducting pipes are quick, in other words, is increased heat-conducting area and is accelerated heat-transfer rate.Then have the area of dissipation of the radiating block of multiple fin big, the radiating rate of radiator is more accelerated by fan group.

Description

A kind of radiator

Technical field

The utility model is related to a kind of technical field of heat dissipation, more particularly to a kind of radiator.

Background technology

At present, in electric technical field, as the transfer capability of power circuit is continued to increase, power consumption increases therewith, Therefore various electronic units also generate huge heat, bring heat dissipation problem, and radiator is generated therewith.Radiator is general Using directly installation heat-dissipation aluminum sectional material etc. on the chips such as CPU, then radiator fan is coordinated to be radiated, and for larger equipment, It is general then utilize the element such as heat pipe to coordinate with heat-dissipation aluminum sectional material and fan and realize radiating., radiating block is directly connected to produce in radiator The electronic unit of heat source, its thermally conductive pathways are single, cause the heat-transfer rate of radiator slower, so the radiating of radiator at present Speed is slower.

Utility model content

For deficiency of the prior art, the purpose of this utility model is to provide a kind of radiator.

In order to solve the above-mentioned technical problem, this application discloses a kind of radiator, it is characterised in that including：Base plate, has Four grooves；Two first U-shaped heat conducting pipes, respectively with two the first linear tubes and the first U-tube, described two first linear Pipe connects the two ends of first U-tube, and has the first angle, described two first U-shaped heat conduction between first U-tube Two the first U-tubes of pipe are located at two middle grooves in being arranged at four grooves, secondly individual first angle is relative；Two The U-shaped heat conducting pipe of root second, respectively with two the second linear tubes and the second U-tube, two the second linear tubes connection is described Two ends of the second U-tube, and there is the second angle between second U-tube, described two the two of second U-shaped heat conducting pipe the Two U-tubes are arranged in four grooves two grooves for being located at outside, secondly individual second angle is relative, described two second U-shaped heat conducting pipe is located at described two outsides of the first U-shaped heat conducting pipe；Radiating block, with multiple fin, each fin tool There are multiple perforation, four the first linear tubes of described two first U-shaped heat conducting pipes and two four second of second U-shaped heat conducting pipe Linear tube passes through multiple perforation of each fin；Two support frames, are arranged at the both sides of the radiating block, and fixed In the base plate；And fan group, two support frames are arranged at, and positioned at one end of the radiating block.

An implementation method according to the application, above-mentioned second angle is less than first angle.

An implementation method according to the application, above-mentioned two the first U-tubes are V-shaped, and two second U-tubes are V-shaped.

An implementation method according to the application, the width of above-mentioned two second U-tubes near the base plate is less than It is arranged in two spacing of perforation of each fin of two relative the second linear tubes.

An implementation method according to the application, above-mentioned two the first U-tubes and two the second U-tubes are welded in the base plate Four grooves.

An implementation method according to the application, above-mentioned each fin is welded in four first linear tubes and four Second linear tube.

An implementation method according to the application, above-mentioned each support frame includes supporting plate and two mounting flanges, described Two mounting flanges are arranged at the both sides of the supporting plate, and the base plate, two mounting flange sandwicheds are fixed in its bottom In the two ends of the radiating block, four mounting flanges of two support frames are oppositely arranged.

An implementation method according to the application, said fans group is fixed on two relative mounting flanges, and positioned at described One end of radiating block, its air intake vent is towards the radiating block, and its air outlet direction is outside.

Compared with prior art, the application can be obtained including following technique effect：

The application provides a kind of radiator, and the radiator of the application is quickly led electronic unit by multiple U-shaped heat conducting pipes To radiating block, in other words, increase heat-conducting area and accelerate heat-transfer rate.Then there is the radiating of the radiating block of multiple fin Area is big, and the radiating rate of radiator is more accelerated by fan group.

Brief description of the drawings

Fig. 1 is the stereogram of the radiator of the implementation method of the application one.

Fig. 2 is the assembling figure of the radiator of the implementation method of the application one.

Specific embodiment

Multiple implementation methods of the application, as clearly stated, the details in many practices will be disclosed with schema below Will be explained in the following description.It should be appreciated, however, that the details in these practices is not applied to limit the application.Also It is to say, in some embodiments of the application, the details in these practices is non-essential.Additionally, for the sake of simplifying schema, Some known usual structures will illustrate it in simply illustrative mode in the drawings with component.

On its " first " used herein, " second " etc., the meaning of order or cis-position is not especially censured, also non-use To limit the application, it is used for the purpose of component or the operation that difference is described with constructed term.

Fig. 1 and Fig. 2 is referred to, it is the stereogram and assembling figure of the radiator 1 of the implementation method of the application one；As schemed Show, the present embodiment provides a kind of radiator 1, and it includes 10, two first U-shaped heat conducting pipe 11a of base plate, two second U-shaped heat conduction Pipe 11b, 12, two support frames 13 of radiating block and fan group 14.Base plate 10 has four grooves 101, Mei Yigen being arranged side by side First U-shaped heat conducting pipe 11a has two the first linear tube 111a and the first U-tube 112a, two the first linear tube 111a difference The two ends of the first U-tube 112a are connected, and is parallel to each other, have the between the first U-tube 112a and two the first linear tube 111a One angle 113a.Two first U-tube 112a of two first U-shaped heat conducting pipe 11a are respectively arranged at four grooves of base plate 10 101 groove 101 of centre two, two first U-shaped heat conducting pipe 11a are symmetrical arranged, i.e., two the two of first U-shaped heat conducting pipe 11a Individual first angle 113a is relative, two two first U-tube 112a of the first U-shaped heat conducting pipe 11a is formed V-type.Two the 2nd U There are type heat conducting pipe 11b two the second linear tube 111b and the second U-tube 112b, two the second linear tube 111b to be connected to The two ends of the second U-tube 112b, and be parallel to each other.There is the second folder between the second U-tube 112b and two the first linear tube 111b Angle 113b, the second angle 113b are less than the first angle 113a, right two two second U-tube 112b of the second U-shaped heat conducting pipe 11b It is respectively arranged at and outermost two grooves 101 is located in four grooves 101, two second U-shaped heat conducting pipe 11b is symmetrical arranged, I.e. two the second angle 113b are relative, two two second U-tube 112b of the second U-shaped heat conducting pipe 11b is formed V-type, and Two second U-shaped heat conducting pipe 11b are located at two outsides of the first U-shaped heat conducting pipe 11a.Wherein two first U-shaped heat conducting pipe 11a's Two second U-tube 112b of two the first U-tube 112a and two second U-shaped heat conducting pipe 11b are respectively welded in base plate 10 Four grooves 101.

The radiating block 12 of present embodiment has multiple fin 121, and each fin 121 has multiple perforation 1211, four first linear tube 111a of the two first U-shaped heat conducting pipe 11a of correspondence of multiple perforation 1211 and two second U-shaped lead Four second linear tube 111b of heat pipe 11b.Multiple perforation 1211 of each fin 121 are first linear through corresponding four Pipe 111a and four the second linear tube 111b, multiple fin 121 are arranged in four the first linear tube 111a and four the second lines Property pipe 111b.Because two the second U-tube 112b form V-type, two width of the second U-tube 112b near base plate 10 are also illustrated that Less than two spacing of perforation 1211 for being arranged in two relative each fin 121 of the second linear tube 111b, so dissipate Hot block 12 cannot be introduced into two first U-tube 112a's and two second U-shaped heat conducting pipe 11b of two first U-shaped heat conducting pipe 11a Two the second U-tube 112b, make radiating block 12 not contacted with base plate 10.Multiple fin 121 of wherein radiating block 12 are welded in Four first linear tube 111a of two first U-shaped heat conducting pipe 11a and two four of second U-shaped heat conducting pipe 11b it is second linear Pipe 111b.

Two support frames 13 are respectively arranged at the both sides of radiating block 12, and are fixed on base plate 10.Each support frame 13 has There are supporting plate 131 and two mounting flanges 132, two mounting flanges 132 are arranged at the both sides of supporting plate 131, positioned at each Base plate 10 is fixed in the bottom of two mounting flanges 132 of support frame 13, and two mounting flanges 132 of each support frame 13 are pressed from both sides Located at the two ends of radiating block 12, two the four of support frame 13 mounting flanges 132 are relative.Fan group 14 is arranged at two support frames 13 relative two mounting flange 132, and positioned at one end of radiating block 12, its air intake vent 141 towards radiating block 12, its air-out The direction of mouth 142 is outside.

When using, the base plate 10 of radiator 1 is contacted the radiator 1 of the present embodiment with the electronic unit of thermal source is produced, electricity The thermal source of subassembly rapidly imports radiating block 12 from two first U-shaped heat conducting pipe 11a and two second U-shaped heat conducting pipe 11b, heat Derived between multiple fin 121 in source；After fan group 14 starts simultaneously, the air intake vent 141 of fan group 14 extracts radiating block 12 Thermal source, thermal source discharges thermal source from the air outlet 142 of fan group 14 outward, accelerates the radiating rate of radiator 1.Other two branch Two supporting plates 131 of support 13 have multiple holes 133, so mitigate two weight of support frame 13, and make radiating block 12 Thermal source can also be radiated from multiple holes 133, the more radiating rate of heat radiation device 1.

In sum, the application provides a kind of radiator, and the radiator of the application passes through multiple U-shaped heat conducting pipes quickly by electricity Subassembly is directed at radiating block, in other words, increases heat-conducting area and accelerates heat-transfer rate.Then there is the radiating of multiple fin The area of dissipation of block is big, and the radiating rate of radiator is more accelerated by fan group.

The upper only presently filed embodiment, is not limited to the application.For those skilled in the art For, the application can have various modifications and variations.It is all any modifications made in spirit herein and principle, equivalent Replace, improve etc., all should be included within the scope of claims hereof.

Claims (8)

1. a kind of radiator, it is characterised in that including：

Base plate, with four grooves；

Two first U-shaped heat conducting pipes, respectively with two the first linear tubes and the first U-tube, two first linear tubes connect Connect the two ends of first U-tube, and there is the first angle between first U-tube, described two first U-shaped heat conducting pipes Two the first U-tubes are located at two middle grooves in being arranged at four grooves, secondly individual first angle is relative；

Two second U-shaped heat conducting pipes, respectively with two the second linear tubes and the second U-tube, two second linear tubes connect Connect the two ends of second U-tube, and there is the second angle between second U-tube, described two second U-shaped heat conducting pipes Two the second U-tubes are arranged in four grooves two grooves for being located at outside, secondly individual second angle is relative, described two The U-shaped heat conducting pipe of root second is located at described two outsides of the first U-shaped heat conducting pipe；

Radiating block, with multiple fin, each fin has multiple perforation, described two the four of first U-shaped heat conducting pipe Individual first linear tube and two four the second linear tubes of the second U-shaped heat conducting pipe pass through the multiple of each fin to wear Hole；

Two support frames, are arranged at the both sides of the radiating block, and be fixed on the base plate；And

Fan group, is arranged at two support frames, and positioned at one end of the radiating block.

2. radiator according to claim 1, it is characterised in that second angle is less than first angle.

3. radiator according to claim 1, it is characterised in that two first U-tubes are V-shaped, described two Two U-tubes are V-shaped.

4. radiator according to claim 3, it is characterised in that near two second U-tubes of the base plate Width is less than two spacing of perforation of each fin for being arranged in two relative the second linear tubes.

5. radiator according to claim 1, it is characterised in that two first U-tubes and two the second U-tubes welderings It is connected to four grooves of the base plate.

6. radiator according to claim 1, it is characterised in that described each fin is welded in described four first Linear tube and four the second linear tubes.

7. radiator according to claim 1, it is characterised in that each support frame includes that supporting plate and two installations are convex Edge, two mounting flanges are arranged at the both sides of the supporting plate, and the base plate is fixed in its bottom, and two installations are convex Edge is located in the two ends of the radiating block, and four mounting flanges of two support frames are oppositely arranged.

8. radiator according to claim 7, it is characterised in that it is convex that the fan group is fixed on two relative installations Edge, and positioned at one end of the radiating block, its air intake vent is towards the radiating block, and its air outlet direction is outside.