CN202041900U

CN202041900U - Heat dissipation structure used for plurality of equipment cabinets

Info

Publication number: CN202041900U
Application number: CN201120096198XU
Authority: CN
Inventors: 沈卫东; 李宁; 童中原; 李宝雨
Original assignee: Dawning Information Industry Beijing Co Ltd
Current assignee: Dawning Information Industry Beijing Co Ltd
Priority date: 2011-04-02
Filing date: 2011-04-02
Publication date: 2011-11-16
Anticipated expiration: 2021-04-02

Abstract

The utility model discloses a heat dissipation structure used for a plurality of equipment cabinets, which comprises at least two equipment cabinets and an air conditioner. The two equipment cabinets are mutually independent and both provided with a first air inlet and a first air outlet. The air conditioner is disposed between the two equipment cabinets and provided with a second air outlet and a second air inlet, wherein the second air outlet is communicated with the first air inlets of the equipment cabinets on both sides of the air conditioner, and the second air inlet is communicated with the first air outlets of the equipment cabinets on both sides of the air conditioner. According to the heat dissipation structure, one air conditioner is used for dissipating heat for the plurality of equipment cabinets; the air conditioner and the equipment cabinets are mutually independent, thereby being convenient to assemble. Further, when a fault occurs to a certain equipment cabinet, the equipment cabinet can be dismantled independently for maintenance, and heat dissipation of other parts is not affected.

Description

The radiator structure that is used for many racks

Technical field

The utility model relates to a kind of radiator structure that is used for rack, particularly a kind of radiator structure that is used for many racks, that is, and with the air conditioner structure that is many cooling machine cabinets.

Background technology

Usually assembling equipment such as server, switch, memory storage in the server cabinet thick and fast, these devices consume electric power also produce heat.Raising along with server performance, the power of its consumption is also increasing, and the result can form the thermal load of concentrating very much in the server cabinet, if and untimely the dispersing of heat that these thermal loads produce, to performance, safety and serviceable life of equipment all be totally unfavorable.Therefore, the data center of having assembled server cabinet disposes the cooling system of circularly cooling usually, to keep the required temperature and humidity of server reliably working.Yet present cooling system can not be realized server cabinet is dispelled the heat effectively, therefore, need provide a kind of device that can dispel the heat for server cabinet effectively.

The utility model content

At the one or more problems that exist in the correlation technique, the purpose of this utility model is to provide a kind of radiator structure that is used for many racks, comes many racks are dispelled the heat effectively to utilize an air conditioner.

For achieving the above object, according to an aspect of the present utility model, provide a kind of radiator structure that is used for many racks, this radiator structure comprises: at least two racks, these at least two racks are separate, and each rack all has first air inlet and first air outlet; And air conditioner, be arranged between these at least two racks, have second air outlet that communicates with first air inlet of its both sides rack respectively and second air inlet that communicates with first air outlet of this both sides rack.

Preferably, air conditioner comprises 12 calandria heat exchangers and the aerofoil fan that is arranged on wherein.

Preferably, these at least two racks are arranged on the side that both sides or at least two racks are arranged on air conditioner symmetrically about air conditioner.

Preferably, each rack in these at least two racks includes at least one plenum chamber, and this at least one plenum chamber is removably mounted on each rack, and wherein, this first air inlet and/or first air outlet are arranged at least one plenum chamber.

Preferably, each rack in these at least two racks includes two plenum chambers, each rack also comprises the rack body, two plenum chambers are separately positioned on the both sides, front and back of rack body, first air inlet is set in place on the plenum chamber of rack body front side, and first air outlet is set in place on the plenum chamber of rack body rear side.

Preferably, each plenum chamber further comprises cover plate, side plate and plenum chamber shell, and cover plate, side plate are removably mounted on the plenum chamber shell.

Preferably, first air inlet and first air outlet comprise the groove that is arranged on the side plate.

Preferably, the rack body comprises first opening, and each plenum chamber also comprises second opening that communicates with first opening of rack body.

Preferably, second air outlet and second air inlet comprise a plurality of grooves disposed thereon.

Preferably, be provided with blade server in each rack.

By above-mentioned at least one technical scheme of the utility model,,, therefore, be convenient to assembling owing to separate between air conditioner and each rack by providing heat radiation for a plurality of racks with an air conditioner.And, when certain rack breaks down, can disassemble separately and keep in repair, and not influence the heat radiation of other parts; And one-to-multiple heat dissipation equipment can be saved air-conditioning and rack cost effectively, reduces unnecessary energy consumption.By plenum chamber is set,, thereby reduced noise and the pressure that enters cooling air in the rack rapidly for cooling air provides than large space.Therefore, according to static pressure device of the present utility model, can play good noise reduction depressurization to rack.

Description of drawings

Above-mentioned and/or additional aspect of the utility model and advantage are from obviously and easily understanding becoming the description of embodiment below in conjunction with accompanying drawing, wherein:

Fig. 1 gives the structural representation of many cooling machine cabinets according to the utility model embodiment by an air conditioner;

Fig. 2 is the structural representation according to the air conditioner of the utility model embodiment;

Fig. 3 is the synoptic diagram according to the rack structure of the utility model embodiment;

Fig. 4 is the exploded view of rack structure shown in Figure 3; And

Fig. 5 is the structural representation according to the rack of another embodiment of the utility model.

Embodiment

Consider the problem that exists in the correlation technique, the utility model provides a kind of radiator structure that is used for many racks.Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings.Should be understood that below by the embodiment that is described with reference to the drawings be exemplary, only be used to explain the utility model, and can not be interpreted as restriction of the present utility model.

Fig. 1 gives the structural representation of many cooling machine cabinets according to the utility model one embodiment by an air conditioner.As shown in Figure 1, it shows four racks 2 (certainly, 5,6 or more rack can be set as required), is provided with blade server in the rack 2.Air conditioner 1 is arranged between the rack 2, and wherein, 4 racks 2 are about the both sides that are arranged on of air conditioner 1 symmetry, that is, two racks 2 respectively are set in air conditioner 1 both sides, and, these racks 2 are separate, are appreciated that obviously these racks 2 also can be arranged on a side of air conditioner 1.Certainly, rack 2 also can asymmetricly be arranged on air conditioner 1 both sides.This air conditioner 1 comprises 12 comb heat exchanger (not shown) and aerofoil fan (not shown).

And shown in Fig. 2 and 3, this air conditioner 1 is provided with air outlet 13 (second air outlet) and air inlet (second air inlet) 14, and this rack 2 is provided with air inlet (first air inlet) and air outlet (first air outlet) (will be explained hereinafter).As shown in Figure 1, air conditioner 1 and a plurality of rack 2 are arranged side by side, and the air outlet 13 of air conditioner 1 communicates with the air inlet of rack 2, the air inlet 14 of air conditioner 1 communicates with the air outlet of this rack 2, and the air inlet of per two adjacent racks communicates, and the air outlet of per two adjacent racks communicates.Also comprise the header board 11 that is arranged on the front side on this air conditioner 1, the wind of sending from aerofoil fan is beaten on header board 11 and is sent into by the air outlet 13 of air conditioner 1 in the air inlet of rack of the both sides that are adjacent setting, the wind of sending into passes through the blade server in the rack, and enters the air inlet 14 of the air conditioner 1 that communicates with it by the air outlet of rack.Hot blast through blade server enters in the air conditioner 1, and through the cooling of 12 calandria heat exchangers, afterwards, sends into the rack 1 from air outlet 13 once more through aerofoil fan, so circulation, thereby, for the blade server in the rack dispels the heat.As shown in Figure 1, air conditioner 1 is called first rack, second rack from air conditioner 1 rack to the right, by that analogy successively to the process that a plurality of racks dispel the heat for convenience of description.As shown in Figure 1, the air inlet of first rack that the wind process of sending from air conditioner 1 is adjacent, the wind that part enters passes and enters the air inlet of second rack from this air inlet, enter the blade server of the wind of the second rack air inlet through this rack, and entering the air outlet of first rack by the air outlet of this second rack, the air inlet of the air conditioner 1 that communicates from the air outlet with first rack enters air conditioner 1 and is cooled.When many racks are set, send and pass through successively a plurality of racks 2 that communicate with it from the wind that air conditioner 1 is sent from the air outlet 13 of air conditioner 1, pass through the device that need dispel the heat then, and pass out to the air inlet of this air conditioner 1, thereby realize heat radiation to a plurality of racks from the air outlet of rack.

According to an embodiment of the present utility model, the structure of this rack 2 is shown in Fig. 3 and 4.As shown in Figure 3, this rack 2 comprises rack body 22 and two

plenum chambers

21,23 that are arranged on these both sides, rack body 22 front and back.Be inserted with blade server 223 in this rack body interior 22.These two plenum chambers are removably mounted on the rack body 22.Plenum chamber 21 both sides that are positioned at rack body 22 front sides are respectively arranged with the side plate that is removably mounted on it, this side plate is provided with air inlet 213,213 ' (and the opening that is positioned on plenum chamber 23 side plates of rack body 22 rear sides is an air outlet 233), this side plate can certainly be pulled down, thereby form air inlet/air outlet.Certainly, air inlet/air outlet can also be arranged on the groove on this side plate.Also be provided with cover plate 212 and plenum chamber shell on each plenum chamber, cover plate 212, side plate are removably mounted on the plenum chamber shell 211.And

plenum chamber

21,23 also comprises the opening 214 that communicates with the opening 221 of rack body 22.The plenum chamber that is positioned at rack body 22 rear sides is installed in the rear side of rack body 22 as described above, makes the opening of rack body 22 rear sides communicate with the opening of rear side plenum chamber 23.And the air inlet of this rack communicates with the air inlet of neighboring cabinet, and the air outlet of this rack communicates with the air outlet of this neighboring cabinet.As shown in figs. 1 and 4, the wind of air conditioner 1 is from this rack of the air inlet 213 in plenum chamber 21 left sides ' enter, part wind enters rack body 22 and enters the air inlet of air conditioner 1 or the air outlet of neighboring cabinet from the left side air outlet (not shown) of rear side plenum chamber 23 by the opening 214 that communicates with rack body 22, another part wind enters this neighboring cabinet by the left side air inlet that the air inlet 213 with this rack plenum chamber right side enters another rack adjacent with this rack, so analogize, the wind of sending from air conditioner 1 enters each rack that communicates with it.Owing to be provided with plenum chamber in the both sides, front and back of rack body 22,, thereby reduced noise and the pressure that enters cooling air in the rack rapidly for cooling air provides than large space.Therefore, according to static pressure device of the present utility model, can play good noise reduction depressurization to rack.

According to another embodiment of the present utility model, only front side or the rear side at the rack body 22 of rack 2 is provided with

plenum chamber

21 or 23, and this plenum chamber is removably mounted on the rack body.These plenum chamber both sides are respectively arranged with the side plate that is removably mounted on it, and this side plate is provided with air inlet/air outlet, and these rack body both sides are provided with air outlet/air inlet.When plenum chamber only was installed in rack body front side, part cold wind entered from the air inlet of plenum chamber, and through the rack body, and the air outlet of slave cabinet side sends, and another part cold wind enters in this neighboring cabinet by the air inlet of neighboring cabinet plenum chamber.When plenum chamber only was installed in rack body rear side, the rack body side surface was provided with air inlet, and the plenum chamber both sides are provided with air outlet.This air-supply principle as mentioned above.

According to another embodiment of the present utility model, as shown in Figure 5, plenum chamber is not set on the rack 3, this rack comprises the header board 31 that is arranged on the front side.Be respectively arranged with air port 33 in the rack both sides, the air outlet 13 of one of them air port and air conditioner 1, the air port of another rack that another air port of this rack 3 also is adjacent communicates.

According to radiator structure of the present utility model, can provide heat radiation for a plurality of racks with an air conditioner, and, separate between air conditioner and each rack, be convenient to assembling.And, when certain rack breaks down, can disassemble separately and keep in repair, and not influence the heat radiation of other parts.

Although illustrated and described embodiment of the present utility model, for the ordinary skill in the art, be appreciated that under the situation that does not break away from principle of the present utility model and spirit and can carry out multiple variation, modification, replacement and modification that scope of the present utility model is by claims and be equal to and limit to these embodiment.

Claims

1. a radiator structure that is used for many racks is characterized in that, described radiator structure comprises:

At least two racks, described at least two racks are separate, and each rack all has first air inlet and first air outlet; And

Air conditioner is arranged between described two racks at least, has second air outlet that communicates with first air inlet of its both sides rack respectively and second air inlet that communicates with first air outlet of this both sides rack.

2. radiator structure according to claim 1 is characterized in that, described air conditioner comprises 12 calandria heat exchangers and the aerofoil fan that is arranged on wherein.

3. radiator structure according to claim 1 is characterized in that, described at least two racks are arranged on the side that both sides or described at least two racks are arranged on described air conditioner symmetrically about described air conditioner.

4. radiator structure according to claim 1, it is characterized in that, each rack in described at least two racks includes at least one plenum chamber, described at least one plenum chamber is removably mounted on each rack, wherein, described first air inlet and/or described first air outlet are arranged on described at least one plenum chamber.

5. radiator structure according to claim 4, it is characterized in that, each rack in described at least two racks includes two plenum chambers, each rack also comprises the rack body, described two plenum chambers are separately positioned on the both sides, front and back of described rack body, described first air inlet is set in place on the plenum chamber of described rack body front side, and described first air outlet is set in place on the plenum chamber of described rack body rear side.

6. according to claim 4 or 5 described radiator structures, it is characterized in that each plenum chamber further comprises cover plate, side plate and plenum chamber shell, described cover plate, side plate are removably mounted on the described plenum chamber shell.

7. radiator structure according to claim 6 is characterized in that, described first air inlet and described first air outlet comprise the groove that is arranged on the described side plate.

8. radiator structure according to claim 5 is characterized in that, described rack body comprises first opening, and each plenum chamber also comprises second opening that communicates with first opening of described rack body.

9. radiator structure according to claim 1 is characterized in that, described second air outlet and described second air inlet comprise a plurality of grooves disposed thereon.

10. radiator structure according to claim 1 is characterized in that, is provided with blade server in each rack.