CN103366833A - Heat dissipation device combination - Google Patents

Abstract

A heat dissipation device combination is disclosed, comprising a heat dissipation device, a fixing rack and a wind guide member, wherein the rear end of the heat dissipation device is an air outlet opening, the fixing rack comprises two side plates which are oppositely and respectively fixed at the rear ends of the two sides of the heat dissipation device, the inner side of at least one side plate is provided with a number of convex closures which are arranged near the rear end of the side plate in a spaced way along the vertical direction, and the wind guide member which is connected between the two side plates in a pivoted manner can rotate backwards relative to the two side pates and can be arranged on a corresponding convex closure in a clamped manner. The heat dissipation device combination is characterized in that the fixing rack is mounted at the air outlet opening end of the heat dissipation device, the rotatable wind guide member is mounted on the fixing rack, the wind guide member can rotate as needed and can guide wind currents to flow toward elements in need of heat dissipation, and therefore the wind currents flowing out from the heat dissipation device can be effectively utilized and heat dissipation efficiency can be improved.

Description

The heating radiator combination

Technical field

The present invention relates to a kind of heating radiator combination.

Background technology

Traditional heating radiator one side is air inlet, and opposite side is air outlet, by distinguished and admirable can not being effectively used of air outlet outflow.

Summary of the invention

In view of more than, be necessary to provide a kind of radiating efficiency high the heating radiator combination.

A kind of heating radiator combination, comprise a heating radiator, a fixed mount and an air guide member, the rear end of this heating radiator is air outlet, this fixed mount comprises that two relatively are individually fixed in the side plate of rear end of the both sides of this heating radiator, the inboard adjacent back end of at least one side plate is provided with some vertically spaced convex closures, and this air guide member is pivotally connected between this biside plate and relative this biside plate and rotates backward and be placed in a convex closure of correspondence.

Compare prior art, this heating radiator combination is by the air outlet one end installing fixed mount at heating radiator, at fixed mount rotating air guide member is installed again, air guide member can rotate and guide the distinguished and admirable flow direction more to need the element that dispels the heat as required, thereby can effectively utilize distinguished and admirable that heating radiator flows out, improve radiating efficiency.

Description of drawings

Fig. 1 is the three-dimensional exploded view of the better embodiment of heating radiator combination of the present invention.

Fig. 2 is the three-dimensional assembly diagram of Fig. 1.

Fig. 3 is the stereographic map of another embodiment of heating radiator combination of the present invention.

The main element symbol description

Heating radiator	10
		Base	12
Fin	14
		Perforation	141
Air inlet	16
		Air outlet	18
Fixed mount	20
		Side plate	21
Projection	212
		Pivoting hole	214
Convex closure	215
		Top board	23
Connecting portion	25
		Air guide member	30
Guide vane	31
		Side arm	33
Pivotal axis	332

Following embodiment further specifies the present invention in connection with above-mentioned accompanying drawing.

Embodiment

Please refer to Fig. 1 and Fig. 2, the better embodiment of heating radiator combination of the present invention comprises a heating radiator 10, a fixed mount 20 and an air guide member 30.

The fins 14 that extend along fore-and-aft direction that this heating radiator 10 comprises a base 12 and is vertically installed in that some on this base 12 are parallel to each other.The front end of these fins 14 forms air inlet 16, distinguished and admirable can being entered in the gap of 14 of these fins by this air inlet 16.The rear end of these fins 14 forms air port 18, distinguished and admirablely can flow out these heating radiators 10 by this air outlet 18.The some fins 14 adjacent back end places that are positioned at the leftmost side and the rightmost side form respectively accordingly two between the upper and lower every perforation 141.

This fixed mount 20 comprises two relative side plates 21, be vertically connected at a top board 23 between these biside plate 21 tops and a junction 25 between the vertical rear end that connects these biside plate 21 bottoms.The inboard adjacent front end place of every side plate 21 convex with two between the upper and lower every projection 212.Every side plate 21 adjacent back end are provided with some vertically spaced pivoting holes 214.The rear place of the inboard of every side plate 21 between per two adjacent pivoting holes 214 forms respectively some vertically spaced convex closures 215.

This air guide member 30 comprises a guide vane 31 and the two side arms 33 that is vertically extended to form forward by the two ends of this guide vane 31 respectively.Each adjacent top place, side arm 33 outside convexes with a pivotal axis 332.

During assembling, outwards pull respectively the front end of the biside plate 21 of this fixed mount 20, make respectively outside elastic deformation of this biside plate 21.The front end sleeve of this fixed mount 20 is located at the rear end of this heating radiator 10, the projection 212 that makes this biside plate 21 is respectively over against the perforation 141 of the fin 14 of these heating radiator 10 left and right sides.Unclamp this biside plate 21, these biside plate 21 elastic recoverys snap in respectively in the perforation 141 of corresponding fin 14 of these heating radiator 10 left and right sides these projections 212, thereby this fixed mount 20 is fixed in this heating radiator 10.This top board 23 is positioned at the top of the rear end of these fins 14, and this connecting portion 25 is positioned at the rear of this base 12.Press in opposite directions the two side arms 33 of this air guide member 30, this two side arms 33 is out of shape in opposite directions and is placed between the rear end of this biside plate 21, and the pivotal axis 332 that makes this two side arms 33 is respectively over against two corresponding pivoting holes 214 of this biside plate 21.Unclamp this two side arms 33, these two side arms 33 elastic recoverys make this two pivotal axis 332 snap in respectively corresponding pivoting hole 214, thereby this air guide member 30 is pivotally connected in the rear end of this biside plate 21.Because the rear end of the inboard of this biside plate 21 vertically is respectively equipped with some convex closures 215, the bottom of this air guide member 30 rotates backward, the two side arms 33 of this air guide member 30 can be placed in the convex closure 215 of differing heights, thereby this air guide member 30 can be positioned vertical position to 90 diverse locations of spending in the journey that rotate backward.

When using the combination of this heating radiator, the user can turn to a desired angle with this air guide member 30 as required, makes the two side arms 33 of this air guide member 30 be placed in the corresponding convex closure 215 of this biside plate 21.Distinguished and admirable air inlet 16 by this heating radiator 10 enters in the gap of 14 of these fins, and flows out these heating radiators 10 by this air outlet 18 under the guiding of the guide vane 31 of this air guide member 30.These air guide member 30 bootable distinguished and admirable flow directions more need the element that dispels the heat, thereby can effectively utilize distinguished and admirable that heating radiator 10 flows out, and improve radiating efficiency.

In the present embodiment, the two ends of this air guide member 30 are pivotally connected to two pivoting holes 214 that are positioned at the top of this biside plate 21.In other embodiments, the two ends of this air guide member 30 also can be pivotally connected to as required in two corresponding pivoting holes 214 of other height of this biside plate 21.

Please refer to Fig. 3, according to radiating requirements, in another embodiment, this fixed mount 20 can be installed a plurality of air guide members 30 simultaneously.

Claims (5)

1. heating radiator combination, comprise a heating radiator, a fixed mount and an air guide member, the rear end of this heating radiator is air outlet, this fixed mount comprises that two relatively are individually fixed in the side plate of rear end of the both sides of this heating radiator, the inboard adjacent back end of at least one side plate is provided with some vertically spaced convex closures, and this air guide member is pivotally connected between this biside plate and relative this biside plate and rotates backward and be placed in a convex closure of correspondence.

2. heating radiator combination as claimed in claim 1, it is characterized in that: every side plate adjacent back end is provided with a pivoting hole, and the two ends of this air guide member convex with respectively a pivotal axis, and two pivotal axis of this air guide member snap in the pivoting hole of this biside plate respectively pivotally.

3. heating radiator combination as claimed in claim 2, it is characterized in that: these convex closures are positioned at the rear of the pivoting hole of corresponding side plate.

4. heating radiator combination as claimed in claim 1, it is characterized in that: this fixed mount also comprises a top board that is vertically connected between this biside plate top and a junction between the rear end that vertically connects this biside plate bottom, this top board is positioned at the top of the rear end of this heating radiator, and this connecting portion is in the rear of this heating radiator.

5. such as the described heating radiator combination of any one in the claim 1 to 4, it is characterized in that: the fins that extend along fore-and-aft direction that this heating radiator comprises a base and is vertically installed in that some on this base are parallel to each other, the fin adjacent back end place of the leftmost side and the rightmost side form respectively two between the upper and lower every perforation, the inboard adjacent front end place of every side plate convex with two between the upper and lower every projection, the projection of this biside plate snaps in respectively in the perforation of corresponding fin of this heating radiator left and right sides.

Images