CN103379800A - Radiating device - Google Patents

Abstract

A radiating device comprises a shell body and a radiating element, wherein the shell body comprises a base board and two opposite lateral boards, wherein a supporting frame, an air inlet and an air outlet are arranged between the two opposite lateral board, the supporting frame is located between the air inlet and the air outlet, the radiating element is fixed on the supporting frame and on the two lateral boards and are located above the base board, the supporting frame is provided with an air port, the wind current passes through the air port through the air inlet, then passes through the radiating element, and finally flows out of the air outlet, the base board is provided with drainage holes and is used for receiving water drops dropping from the radiating element, and the water drops are discharged out of the shell body through the drainage holes.

Description

Heat abstractor

Technical field

The present invention relates to a kind of heat abstractor, refer to especially a kind of heat abstractor with heat exchanger.

Background technology

In the electronic installations such as large server or container, all need to utilize a plurality of heat dissipation elements, dispel the heat such as heat exchanger etc.These two or more heat dissipation elements normally are fixed on the casing of this electronic installation, so that ventilate.Because each heat dissipation element has water droplet to flow down in the process of heat radiation, like this, below each or a plurality of heat dissipation element, be provided with drip tray, splash in the electronic installation in order to prevent water droplet.Like this, need to be in this electronic installation respectively fixedly heat dissipation element and drip tray, and to arrange in position corresponding to heat dissipation element in order to the fixing fixed structure of drip tray, when dismantling, heat dissipation element and drip tray will separately be dismantled, and be very inconvenient.

Summary of the invention

In view of above content, be necessary to provide a kind of heat abstractor of simultaneously dismounting.

A kind of heat abstractor, include housing and heat dissipation element, described housing includes base plate and two relative side plates, between the two described side plates carriage is installed, and be provided with air inlet and air outlet, described carriage is between described air inlet and described air outlet, described heat dissipation element is fixed on carriage and the two described side plates, and be positioned at described base plate top, described carriage is provided with the air port, and is distinguished and admirable from the described air inlet described air port of flowing through, and flow through described heat dissipation element and flow out described air outlet, described base plate is provided with osculum, and described base plate is in order to accept the water droplet from described heat dissipation element drippage, and described water droplet is discharged described housing via described osculum.

In one execution mode, described base plate has certain gradient, and described osculum is located at the lowest part of described base plate.

In one execution mode, described heat dissipation element has two, and described carriage includes the first carriage and the second carriage, and a described heat dissipation element is fixed on described the first carriage, and another described heat dissipation element is fixed on described the second carriage.

In one execution mode, described the first carriage includes the first upper boom and the first lower beam, be provided with the first air port between described the first upper boom and described the first lower beam, distinguished and admirablely flow into described the first heat dissipation element from described the first air port, described the second carriage includes the second upper boom and the second lower beam, be provided with the second air port between described the second upper boom and described the second lower beam, distinguished and admirablely flow into described the second heat dissipation element from described the second air port, described the first upper boom to the distance between the described base plate greater than described the second upper boom to the distance between the described base plate.

In one execution mode, described heat abstractor also includes strutting piece, also is equiped with fixture on every side plate, and described strutting piece includes supporting bracket, and described supporting bracket is fixed on the described fixture, and a described heat dissipation element is placed on the described supporting bracket.

In one execution mode, the described base plate of described supporting bracket almost parallel is distinguished and admirablely flowed through between described supporting bracket and the described base plate from described air inlet, and flows to described the second air port.

In one execution mode, described supporting bracket is provided with apopore, and the water droplet that drips from a described heat dissipation element is pooled on the described base plate from described apopore, and discharges described housing via described osculum.

In one execution mode, described heat abstractor also includes dividing plate, also be provided with flanging on described the second upper boom, the locking plate that described dividing plate includes body and extends respectively from two of described body relative edges, one described locking plate is fixed on the described supporting bracket, and another described locking plate is fixed on the described flanging.

In one execution mode, one described heat dissipation element is fixed between described the first carriage and the described dividing plate, another described heat dissipation element is fixed between described the second carriage and the described air outlet, and described the first carriage is between described air inlet and a described heat dissipation element.

In one execution mode, also be equiped with the operation beam between the two described side plates, the described base plate of described operation beam almost parallel is in order to convenient mobile described housing.

Compared to prior art, in above-mentioned heat abstractor, heat dissipation element is fixed in the housing, during use, only need in fixing described housing one electronic installation, or dismantle described housing, just simultaneously installation or removal heat dissipation element.Simultaneously, described housing makes things convenient for heat dissipation element to ventilate, and heat dissipation element is fixed in the housing, and the base plate of described housing also is provided with osculum, will discharge from the water droplet of heat dissipation element drippage.Like this, both guarantee the fixing and drain function of housing, played again the effect of easy disassembly.

Description of drawings

Fig. 1 is the three-dimensional exploded view of heat abstractor one preferred embodiment of the present invention.

Fig. 2 is Fig. 1 one another visual angle figure.

Fig. 3 is the partial assembly drawing of Fig. 1.

Fig. 4 is the three-dimensional assembly diagram of Fig. 1.

Fig. 5 is the three-dimensional assembly diagram of Fig. 2.

Fig. 6 is another visual angle figure of Fig. 4 and Fig. 5.

The main element symbol description

Housing	10
		Base plate	11
Osculum	112
		Fixture	12
Stator	121
		The first fixing hole	1211
Side plate	13
		Fixing hole	131
The first installing hole	133
		First crossbeam	151
Second cross beam	152
		The operation beam	16
The first carriage	17
		The first upper boom	171
The first lower beam	172
		The first support chip	173
The first air port	175
		The second carriage	18
Flanging	180
		The first lockhole	1801
The second upper boom	181
		The second lower beam	182
The second air port	183
		Air inlet	19
Air outlet	191
		Heat dissipation element	20
Locking plate	21
		Through hole	211
Installed part	23
		Strutting piece	30
Supporting bracket	31
		The second lockhole	311
The second fixing hole	312
		Apopore	315
Against sheet	33
		Installation sheet	35
The second installing hole	351
		Dividing plate	50
Body	51
		Locking plate	52
Locking hole	521

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

Embodiment

See also Fig. 1 and Fig. 2, in a preferred embodiment of the present invention, a heat abstractor comprises a housing 10, two heat dissipation elements 20, a strutting piece 30 and a dividing plate 50.

Described housing 10 comprises a base plate 11 and two relative side plates 13.In one embodiment, described base plate 11 approximate vertical two described side plates 13.Described base plate 11 has certain gradient, and offers an osculum 112(as shown in Figure 6 at the lowest part of described base plate 11).Described osculum 112 connects an outlet pipe (not shown), in order to the water in the described housing 10 is discharged.One first crossbeam 151, a second cross beam 152 and an operation beam 16 are installed between the two described side plates 13.Described first crossbeam 151 and described second cross beam 152 are connected between the lateral edges of the described base plate 11 of approximate vertical of two described side plates 13.In one embodiment, the described base plate 11 of described operation beam 16 almost parallels, and in order to convenient mobile described housing 10.Installing one first carriage 17 and one second carriage 18 between the two described side plates 13.Described the first carriage 17 and described the second carriage 18 are parallel to each other, and relatively described base plate 11 tilts.Described the first carriage 17 comprises one first upper boom 171 and one first lower beam 172.Described the first upper boom 171 is fixed on the described first crossbeam 151 by existing fixed forms such as welding, screw lockings.Described the first lower beam 172 is fixed on the two described side plates 13, and extends one first support chip 173.Leave the slit (not shown) between described the first support chip 173 and the described side plate 13.Described the second carriage 18 comprises one second upper boom 181 and one second lower beam 182.Described the second upper boom 181 and described the second lower beam 182 are fixed on the two described side plates 13, and extend a flanging 180 along the top edge of described the second upper boom 181.The described operation beam 16 of described flanging 180 almost parallels and described base plate 11.Described flanging 180 is offered some the first lockholes 1801.Distance between described the first upper boom 171 and the described base plate 11 is greater than the distance between described the second upper boom 181 and the described base plate 11.Described the second lower beam 182 is resisted against on the described base plate 11.Form an air inlet 19 between described first crossbeam 151, described base plate 11 and the two described side plates 13.Form an air outlet 191 between described second cross beam 152, described base plate 11 and the two described side plates 13.Every side plate 13 is being offered respectively two first installing holes 133 near described the first support chip 173 places.Every side plate 13 is being offered respectively two fixing holes 131 near described the first carriage 17 and described the second carriage 18 places.Described the first carriage 17 offers one first air port 175.Described the second carriage 18 offers one second air port 183.Also be fixed with a fixture 12 on every side plate 13.Described fixture 12 roughly becomes " L " shape, and comprises a stator 121.Described stator 121 is offered some the first fixing holes 1211.In one embodiment, the described base plate 11 of described stator 121 almost parallels.

Described heat dissipation element 20 is used for an electronic installation is dispelled the heat.One described heat dissipation element 20 can be in order to be installed on described the first carriage 17.Another described heat dissipation element 20 can be in order to be installed on described the second carriage 18.Each heat dissipation element 20 is provided with a locking plate 21.Described locking plate 21 is offered two through hole 211.Each through hole 211 is in order to install an installed part 23.In one embodiment, two described the first heat dissipation elements 20 are respectively a heat exchanger, and described installed part 23 is a steel turn-buckle.

The lateral edges two ends that described strutting piece 30 comprises a supporting bracket 31 and self-supporting slab 31 tilt to extend respectively against sheet 33.Described supporting bracket 31 is offered some apopores 315.One lateral edges of described supporting bracket 31 is offered some the second lockholes 311, and offers respectively some the second fixing holes 312 at two ends.Each is acute angle against the angle between sheet 33 and the described supporting bracket 31.Each extends an installation sheet 35 against sheet 33.Described installation sheet 35 is offered two second installing holes 351.

Described dividing plate 50 comprises a body 51 and the locking plate 52 that extends respectively from described body 51 two ends.Each locking plate 52 is offered some locking holes 521.Locking hole 521 respectively corresponding described the first lockhole 1801 and described the second lockholes 311 on the two described locking plates 52.In one embodiment, described dividing plate 50 is roughly " Z " shape.

See also Fig. 3-5, during assembling, with described strutting piece 30 close described the first carriages 17.Mobile described strutting piece 30, make in the slit between described installation sheet 35 described the first support chips 173 of insertion and the described side plate 13, described the first support chip 173 is against described against sheet 33, and described the first installing hole 133 of described the second installing hole 351 alignment, described the second fixing hole 312 of described the first fixing hole 1211 alignment.Utilize the locking part such as screw to pass described the second installing hole 351 and described the first installing hole 133, and pass described the first fixing hole 1211 and described the second fixing hole 312, described strutting piece 30 is fixed on the two described side plates 13.Described dividing plate 50 is placed between described supporting bracket 31 and the described flanging 180, and two described locking plates 52 are resisted against respectively on described supporting bracket 31 and the described flanging 180, and described locking hole 521 align respectively described the first lockhole 1801 and described the second lockhole 311.Utilize the locking part such as screw to lock respectively described locking hole 521 and described the first lockhole 1801, described locking hole 521 and described the second lockhole 311.Thereby described dividing plate 50 is fixed on described supporting bracket 31 and the described flanging 180, and with the gap sealing between described supporting bracket 31 and the described flanging 180.In one embodiment, the described base plate 11 of described supporting bracket 31 almost parallels.One described heat dissipation element 20 is placed on described the first carriage 17 and the described supporting bracket 31, and described heat dissipation element 20 is between described the first carriage 17 and described dividing plate 50.Another described heat dissipation element 20 is placed on described the second carriage 18 on a side and described base plate 11 of described the first carriage 17.Another described heat dissipation element 20 is between the second carriage 18 and described air outlet 191.Described installed part 23 is fixed in the described through hole 211, and the described installed part 23 of turn is locked in the fixing hole 131 on the described side plate 13 described installed part 23.Like this, two described heat dissipation elements 20 are fixed in the described housing 10.Described housing 10 is in order to be installed in the described electronic installation.Like this, when mounted, the correspondence position that only needs described housing 10 is installed in the electronic installation gets final product.

See also Fig. 3-6, distinguished and admirable from described air inlet 19 parts flow through described the first air port 175, a described heat dissipation element 20 during use, and flow out described air outlet 191.Flow into distinguished and admirable described the second air port 183 of between described supporting bracket 31 and described base plate 11, flowing through of another part, another described heat dissipation element 20 of described air inlet 19, and flow out described air outlet 191.In this process, the water droplet that a described heat dissipation element 20 the produces described apopore 315 of flowing through is pooled on the described base plate 11, and the described osculum 112 of flowing through flows out described housing 10.The water droplet that another described heat dissipation element 20 produces is pooled on the described base plate 11, and the described osculum 112 of flowing through flows out described housing 10.

Claims (10)

1. heat abstractor, include housing and heat dissipation element, described housing includes base plate and two relative side plates, carriage is installed and is provided with air inlet and air outlet between the two described side plates, described carriage is between described air inlet and described air outlet, it is characterized in that: described heat dissipation element is fixed on carriage and the two described side plates, and be positioned at described base plate top, described carriage is provided with the air port, distinguished and admirable from the described air inlet described air port of flowing through, and flow through described heat dissipation element and flow out described air outlet, described base plate is provided with osculum, described base plate is in order to accept the water droplet from described heat dissipation element drippage, and described water droplet is discharged described housing via described osculum.

2. heat abstractor as claimed in claim 1, it is characterized in that: described base plate has certain gradient, and described osculum is located at the lowest part of described base plate.

3. heat abstractor as claimed in claim 1, it is characterized in that: described heat dissipation element has two, described carriage includes the first carriage and the second carriage, and a described heat dissipation element is fixed on described the first carriage, and another described heat dissipation element is fixed on described the second carriage.

4. heat abstractor as claimed in claim 3, it is characterized in that: described the first carriage includes the first upper boom and the first lower beam, be provided with the first air port between described the first upper boom and described the first lower beam, distinguished and admirablely flow into a described heat dissipation element from described the first air port, described the second carriage includes the second upper boom and the second lower beam, be provided with the second air port between described the second upper boom and described the second lower beam, distinguished and admirablely flow into another described heat dissipation element from described the second air port, described the first upper boom to the distance between the described base plate greater than described the second upper boom to the distance between the described base plate.

5. heat abstractor as claimed in claim 4, it is characterized in that: described heat abstractor also includes strutting piece, also is equiped with fixture on every side plate, and described strutting piece includes supporting bracket, described supporting bracket is fixed on the described fixture, and a described heat dissipation element is placed on the described supporting bracket.

6. heat abstractor as claimed in claim 5 is characterized in that: the described base plate of described supporting bracket almost parallel, and distinguished and admirablely flow through between described supporting bracket and the described base plate from described air inlet, and flow to described the second air port.

7. heat abstractor as claimed in claim 5, it is characterized in that: described supporting bracket is provided with apopore, is pooled on the described base plate from described apopore from the water droplet of a described heat dissipation element drippage, and discharges described housing via described osculum.

8. heat abstractor as claimed in claim 5, it is characterized in that: described heat abstractor also includes dividing plate, also be provided with flanging on described the second upper boom, the locking plate that described dividing plate includes body and extends respectively from two of described body relative edges, one described locking plate is fixed on the described supporting bracket, and another described locking plate is fixed on the described flanging.

9. heat abstractor as claimed in claim 8, it is characterized in that: a described heat dissipation element is fixed between described the first carriage and the described dividing plate, another described heat dissipation element is fixed between described the second carriage and the described air outlet, and described the first carriage is between described air inlet and a described heat dissipation element.

10. heat abstractor as claimed in claim 1 is characterized in that: also be equiped with the operation beam between the two described side plates, the described base plate of described operation beam almost parallel is in order to convenient mobile described housing.

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