CN104066303A - Wind-guiding apparatus and counter data center using the wind-guiding apparatus - Google Patents

Abstract

Disclosed is a wind-guiding apparatus. The apparatus comprises two first wind-guiding members spaced to be opposite to each other and a second wind-guiding member fixed at the top portions of the two first wind-guiding members. Each first wind-guiding member comprises a telescopic first guide vane, the second wind-guiding member comprises a second telescopic guide vane, each first guide vane and one end of the second guide vane are drawn out towards the same direction from the inside of the corresponding first wind-guiding member and the corresponding second wind-guiding member, and the first wind guide vanes and the second guide vane enclose a wind-guiding channel together, thus the wind-guiding apparatus can be conveniently used.

Description

Air ducting and use the container data center of this air ducting

Technical field

The present invention relates to a kind of air ducting and use the container data center of this air ducting.

Background technology

In existing machine room, conventionally place some container type data centers, each container type data center comprises a counter and is positioned over a large amount of rack in counter.When the server in rack is worked, can produce a large amount of heat.The radiating mode of traditional container type data center is: the sidewall of this machine room is offered an air intake vent over against the air inlet place of each container type data center, for reaching better radiating effect, in prior art, can use wind scooper to be contained in the air inlet of this machine room, the cold air of machine room outside can, in wind scooper flows into counter, be conducive to server to dispel the heat.Yet existing wind scooper is generally by plastic or iron plate is integrally formed makes, the volume of wind scooper is excessive, and is screwed on counter, uses inconvenient.

Summary of the invention

In view of more than, the container data center that is necessary to provide a kind of air ducting easy to use and is provided with this air ducting.

A kind of air ducting, comprise that relative two first air guide members and are fixed on second air guide member at this two first air guide member top, each first air guide member comprises telescopic first guide vane, this second air guide member comprises telescopic second guide vane, and self-corresponding the first air guide member of two first guide vanes and the second guide vane are pulled out in the same direction and jointly surrounded an air-guiding aisle in the second air guide member.

A kind of container data center, comprise a machine room, one is contained in counter and the air ducting in machine room, one sidewall of this machine room is offered a through hole over against this counter, this counter is offered an air intake vent over against this through hole, this air ducting comprises that two is relative and be individually fixed in the second air guide member that first air guide member and of this machine room in through hole both sides is fixed on this two first air guide member top, each first air guide member comprises telescopic first guide vane, one end of these two first guide vanes is pulled out and is fixed on this counter in a side of air intake vent in the first air guide member, this second air guide member comprises telescopic one second guide vane, one end of this second guide vane is pulled out and is fixed on this counter in the top of air intake vent in the second air guide member, this two first guide vane and the second guide vane surround an air-guiding aisle jointly, this air-guiding aisle is over against the air intake vent of this counter.

Compare prior art, the first guide vane telescopically of the first air guide member of this container data center is located in the first corresponding air guide member, the second guide vane telescopically of the second air guide member is located in this second air guide member, during use, from the first air guide member and the second air guide member, the first guide vane and the second guide vane are pulled out and be fixed on counter respectively, make the first guide vane and the second guide vane jointly surround the air-guiding aisle of an air intake vent over against this counter, thus can this air ducting easy to use.

Accompanying drawing explanation

Fig. 1 is the three-dimensional exploded view of the better embodiment of container data center of the present invention, and this container data center comprises two first air guide members and one second air guide member.

Fig. 2 is the three-dimensional exploded view of one first air guide member of Fig. 1.

Fig. 3 is the stereo amplification figure of the second air guide member of Fig. 1.

Fig. 4 is the three-dimensional combination figure of Fig. 1.

Fig. 5 is the use state diagram of container data center of the present invention.

Main element symbol description

Air ducting	100
		Counter	200
Machine room	300
		Rack	202
Air intake vent	204
		Air outlet	206
Supporting surface	500
		Diapire	301
Sidewall	303
		Opening	302
Clamping hole	502
		The first air guide member	20
The second air guide member	40
		Bracing frame	22、42
Rotating shaft	24、44
		The first guide vane	26
Elastic component	28、48
		Base plate	222
Top board	223
		Side plate	224
Receiving space	225、422
		Axis hole	226
Hole clipping	227
		Holding block	228
Breach	221
		Contiguous block	229
Location hole	242
		Air dam	262、462
Fixed part	264、464
		The first fixing end	282
The second fixing end	284
		The second guide vane	46
Intercell connector	427
		Air-guiding aisle	60

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

Embodiment

Refer to Fig. 1, the better embodiment of container data center of the present invention comprises that one is contained in counter 200 and the air ducting 100 in a machine room 300.In this counter 200, accommodate some racks 202, an air intake vent 204 is offered in one end of this counter 200, and a side of this counter 200 is in offering an air outlet 206 away from these air intake vent 204 places.This machine room 300 is supported on a supporting surface 500, and this machine room 300 comprises a diapire 301 and the sidewall 303 that the side of this diapire 301 extends vertically upward certainly.This sidewall 303 is offered an opening 302 in air intake vent 204 places over against this counter 200.This supporting surface 500 is offered two clamping holes 502 in the both sides of this opening 302.

This air ducting 100 comprises two first air guide members 20 and one second air guide member 40.

Refer to Fig. 2, each first air guide member 20 comprises a bracing frame 22, a rotating shaft 24, one first guide vane 26 and an elastic component 28.

This bracing frame 22 comprises the top board 223 of base plate 222, one parallel this base plate 222 and is vertically connected at the biside plate 224 of the both sides of this base plate 222 and top board 223.This base plate 222, top board 223 and side plate 224 surround a receiving space 225 jointly.This base plate 222 and top board 223 are relatively offered two axis holes 226, and this base plate 222 is offered a hole clipping 227 in contiguous corresponding axis hole 226 places.This base plate 222 is convexly equipped with a holding block 228 downwards.This top board 223 is upwards convexly equipped with a contiguous block 229 that offers a breach 221.

The two ends of this rotating shaft 24 are rotatably mounted in two axis holes 226 of this bracing frame 22.This rotating shaft 24 one end is wherein offered a location hole 242 vertically.

This first guide vane 26 comprises that a rectangular air dam 262 and is located at the fixed part 264 of these air dam 262 one end.This air dam 262 is made by flexible material.In present embodiment, this fixed part 264 is a strip magnet.

In present embodiment, this elastic component 28, for flexure strip is coiled to form, has the first fixing end 282 and the second fixing end 284.

While assembling each first air guide member 20, the air dam of the first guide vane 26 262 is fixed in this rotating shaft 24 in the other end away from this fixed part 264, and rotates this rotating shaft 24 this air dam 262 is wound in this rotating shaft 24.This elastic component 28 is sheathed on to one end that this rotating shaft 24 is provided with location hole 242, and the second fixing end 284 of this elastic component 28 is fixed in this location hole 242.By this rotating shaft 24, be wound in the receiving space 225 that the first guide vane 26 in this rotating shaft 24 and elastic component 28 be contained in this bracing frame 22 together, the two ends of this rotating shaft 24 are rotatably inserted in two axis holes 226 of this bracing frame 22, and the first fixing end 282 of this elastic component 28 snap in the hole clipping 227 of this bracing frame 22.Now, the fixed part 264 of this first guide vane 26 extends the receiving space 225 of this bracing frame 22.

Refer to Fig. 3, the structural similarity of the structure of this second air guide member 40 and the first air guide member, this second air guide member 40 comprises that a bracing frame 42, that offers a receiving space 422 is located at rotatably rotating shaft 44, one second guide vane 46 and in this receiving space 422 and is located at the elastic component 48 that forces this second guide vane 46 to reset between this bracing frame 42 and this rotating shaft 44.This second guide vane 46 comprises that one is wound in the fixed part 464 that air dam 462 and in this rotating shaft 44 is located at one end of this air dam 462 and is extended this receiving space 422.The two ends of this bracing frame 42 are outwards convexly equipped with two intercell connectors 427.In present embodiment, this fixed part 464 is a strip magnet.

See also Fig. 4 and Fig. 5, during use, the holding block of two first air guide members 20 228 is inserted in two clamping holes 502 of this supporting surface 500, make the fixed part 264 of the first guide vane 26 of each the first air guide member 20 over against the opening 302 of this machine room 300, and the breach 221 of the contiguous block 229 of two first air guide members 20 face.Two intercell connectors 427 of this second air guide member 40 are snapped in the breach 221 of two first air guide members 20, the bracing frame 42 of this second air guide member 40 is placed between the bracing frame 22 of two first air guide members 20, and the fixed part 464 of this second guide vane 46 is over against the opening 302 of this machine room 300.Towards the fixed part 264 that pulls two first guide vanes 26 in this machine room 300, rotating shaft 24 is rotated, there is elastic deformation in elastic component 28, the air dam 262 of the first guide vane 26 is pulled out from corresponding rotating shaft 24, and through the opening 302 of this machine room 300, be attached at the both sides that this counter 200 is relative to the fixed part 264 of two first guide vanes 26.Towards the fixed part 464 that pulls the second guide vane 46 in this machine room 300, rotating shaft 44 is rotated, there is elastic deformation in elastic component 48, the air dam 462 of the second guide vane 46 is pulled out from corresponding rotating shaft 44, and through the opening 302 of this machine room 300, to the fixed part 464 of the second guide vane 46, be attached at the top of this counter 200.Now, the diapire 301 of two first guide vanes 26 and the second guide vane 46 and machine room 300 surrounds the air-guiding aisle 60 of an air intake vent 204 over against this counter 200 jointly.Air outside machine room 300 flows in this counter 200 from this air intake vent 204 through air-guiding aisle 60, and the heat that the rack 202 in this counter 200 produces is discharged from the air outlet 206 of counter 200.

When not needing to use this air ducting 100, make the fixed part 264,464 of each first guide vane 26 and the second guide vane 46 depart from counter 200, now, under the elastic restoring force effect of elastic component 28,48, rotating shaft 24,44 reversions, are wound in corresponding rotating shaft 24,44 air dam 262,462 of the first guide vane 26 and the second guide vane 46.Upwards take out the second air guide member 40, make the intercell connector 427 of this second air guide member 40 depart from the breach 221 of the first corresponding air guide member 20.Take out the first air guide member 20, make the holding block 228 of each the first air guide member 20 depart from corresponding clamping hole 502.

In other embodiments, the fixed part 264,464 of each first air guide member 20 and the second air guide member can be the grab that is fastened in this counter 200.

In other embodiments, clamping hole 502 can be opened in the diapire 301 of this machine room 300 in the both sides of contiguous this opening 302, the holding block 228 of these two first air guide members 20 inserts in two clamping holes 502 in these machine rooms 300, makes the fixed part 264 of the first guide vane 26 of each the first air guide member 20 over against this counter 200.

Claims (10)

1. an air ducting, comprise that relative two first air guide members and are fixed on second air guide member at this two first air guide member top, each first air guide member comprises telescopic first guide vane, this second air guide member comprises telescopic second guide vane, and self-corresponding the first air guide member of two first guide vanes and the second guide vane are pulled out in the same direction and jointly surrounded an air-guiding aisle in the second air guide member.

2. air ducting as claimed in claim 1, it is characterized in that: each first air guide member also comprises that a bracing frame and that offers a receiving space is contained in the rotating shaft in the receiving space of this bracing frame rotationally, each first guide vane can be wound in this rotating shaft, this rotating shaft is fixed in one end of each the first guide vane, and the other end of each the first guide vane is provided with a fixed part.

3. air ducting as claimed in claim 2, it is characterized in that: this bracing frame comprises that a base plate, is parallel to the top board of this base plate and is vertically connected at this base plate and top board and relative biside plate, this receiving space is surrounded by this base plate, top board and side plate, this base plate and top board offer two relative axis holes, insert in this two axis hole rotationally at the two ends of this rotating shaft.

4. air ducting as claimed in claim 2, is characterized in that: the top board of these two first air guide members is relatively upwards convexly equipped with respectively a contiguous block, and this second air guide member is fixed between this two contiguous block.

5. air ducting as claimed in claim 2, is characterized in that: between each bracing frame and corresponding rotating shaft, be provided with an elastic component that forces the first corresponding guide vane to reset.

6. air ducting as claimed in claim 1, is characterized in that: this second air guide member also comprises that the rotating shaft and that a bracing frame, that offers a receiving space is located in this receiving space is rotationally located at the elastic component that forces this second air guide member to reset between this bracing frame and this rotating shaft.

7. air ducting as claimed in claim 6, is characterized in that: this second guide vane is wound in this rotating shaft, and this rotating shaft is fixed in one end of this second guide vane, and the other end of this second guide vane is provided with a fixed part.

8. a container data center, comprise a machine room, one is contained in counter and the air ducting in machine room, one sidewall of this machine room is offered a through hole over against this counter, this counter is offered an air intake vent over against this through hole, this air ducting comprises that two is relative and be individually fixed in the second air guide member that first air guide member and of this machine room in through hole both sides is fixed on this two first air guide member top, each first air guide member comprises telescopic first guide vane, one end of these two first guide vanes is pulled out and is fixed on this counter in a side of air intake vent in the first air guide member, this second air guide member comprises telescopic one second guide vane, one end of this second guide vane is pulled out and is fixed on this counter in the top of air intake vent in the second air guide member, this two first guide vane and the second guide vane surround an air-guiding aisle jointly, this air-guiding aisle is over against the air intake vent of this counter.

9. container data center as claimed in claim 8, it is characterized in that: each first air guide member also comprise a bracing frame, that offers a receiving space be contained in rotationally this bracing frame receiving space rotating shaft and be located at the elastic component that forces this first guide vane to reset between this bracing frame and rotating shaft, each first guide vane can be wound in corresponding rotating shaft, one end of each the first guide vane is fixed in this rotating shaft, and the other end of each the first guide vane is provided with a fixed part that can be fixed on this counter.

10. container data center as claimed in claim 8, it is characterized in that: the second air guide member also comprises that a bracing frame, that offers a receiving space is located at rotationally rotating shaft and in this receiving space and is located at the elastic component that forces this second air guide member to reset between this bracing frame and this rotating shaft, this second guide vane is wound in this rotating shaft, this rotating shaft is fixed in one end of this second guide vane, and the other end of this second guide vane is provided with the fixed part that can be fixed on this counter.