CN203537722U - Water-cooled cooling device with continuous air flow - Google Patents

Abstract

The utility model relates to a water-cooled cooling device with continuous air flow. The water-cooled cooling device includes a shared cold flow channel, a cabinet set, a hot flow channel, a water-cooled heat dissipating apparatus and a fan set without outage. A first end portion of the cabinet set is connected with the shared cold flow channel and used for receiving an air flow from the shared cold flow channel, a second end portion of the cabinet set is connected with the hot flow channel and used for discharging the air flow from the shared cold flow channel, and a heating apparatus is arranged between the first end portion and the second end portion. An input end of the water-cooled heat dissipating apparatus is connected with the second end portion and used for receiving air flow from the cabinet set, and an output end of the water-cooled heat dissipating apparatus is used for discharging the air flow from the cabinet set to an air flow space. The fan set without outage is connected with the air flow space and used for discharging air in the air flow space, wherein the air flow space is surrounded by the water-cooled heat dissipating apparatus and the fan set without outage, so as to provide high efficiency and a continuous cooling effect.

Description

The cooling equipment of water-cooled with continuous air-flow

Technical field

The utility model system is about a kind of synthetic machine room cooling device, particularly about a kind of cooling equipment of water-cooled with continuous air-flow.

Background technology

The known computer room with cooling electronic device, be generally in one has the confined space of cold-room function a plurality of stack of cabinets are set, and electronic installation is set in stack of cabinets, that is, cold airflow is for flowing to this confined space, and those stack of cabinets receive the cold airflow of this confined space and then discharge thermal current to this same confined space.So mode, relatively consumes the energy, for air-flow effect and the heat radiation of individual other stack of cabinets, there is no good management and control.In addition, when the function of supplying power of this confined space lost efficacy, there is no the support of UPS.And under the framework being mixed at this thermal current and cold airflow, even if there is the support of UPS, this UPS need to provide the cold-room electric power in space on a large scale, for the specification requirement of UPS, will be very uneconomical.

Therefore how to provide high efficiency cooling device, and the support with UPS becomes very important problem of computer room of cooling electronic device.

Utility model content

Main purpose of the present utility model is to provide a kind of cooling equipment of water-cooled with continuous air-flow, its gas is shared that cold flow passage flows through this stack of cabinets and is a hot-fluid gas from one, and by directly and effectively guiding this hot-fluid gas to one water cooling plant, and will directly be directed to a confined space through the cooling cold flow gas of this water cooling plant, and use one there is the fan group of power down function not and the cold flow gas in this confined space is expelled to this shared cold flow passage and forms a Fluid Circulation.By so, and reach the cooling device of high efficiency and high reliability.

The technological means cording that the problem that the utility model is solution known techniques adopts has the cooling equipment of water-cooled of continuous air-flow, comprises: one shares cold flow passage, a stack of cabinets, a water-cooled power converter and a continuous electric fan group.The first end of stack of cabinets is that Connection Sharing cold flow passage receives from the air-flow of sharing cold flow passage, and the second end of stack of cabinets is the air-flow ejecting from sharing cold flow passage, and between first end and the second end, is an accommodating electro-heat equipment.The input of water-cooled power converter receives the air-flow from stack of cabinets for connecting the second end, and the output of water-cooled power converter is air-flow to airflow space ejecting from stack of cabinets; Constantly electric fan group connects airflow space and discharges the gas in airflow space, and wherein airflow space is by being enclosed and put by water-cooled power converter and continuous electric fan group.

In an embodiment of the present utility model, airflow space is an enclosure space.

In an embodiment of the present utility model, stack of cabinets is a plurality of.

In an embodiment of the present utility model, constantly electric fan group has a plurality of continuous electric fan members.

In an embodiment of the present utility model, the upside of airflow space and all sides are respectively by continuous electric fan group and water-cooled power converter is enclosed and is put.

In an embodiment of the present utility model, the gas of being discharged by continuous electric fan group is shared cold flow passage for being communicated to.

In an embodiment of the present utility model, electro-heat equipment is an electronic installation.

In an embodiment of the present utility model, water-cooled power converter comprises a cooling coil, and the input system of water-cooled power converter connects the second end and receives the air-flow from stack of cabinets via heat passage.

In an embodiment of the present utility model, between cooling coil and stack of cabinets, be formed with a heat passage.

In an embodiment of the present utility model, heat passage system is located among a heat passage ceiling and a sidewall.

The technological means adopting via the utility model, continuous continual gas flow is provided, and the in the situation that of making in power failure suddenly or have some fan failures, therefore whole gas flow can not stop, avoid the electronic installation in stack of cabinets overheated because of airless, cause damaging.Moreover water-cooled power converter utilizes the water of specific heat maximum to lower the temperature, so can effectively take away a large amount of heat energy, therefore can reach cooling effect more to economize the mode of energy.And cooling metope and stack of cabinets distance apart that the cooling coil of water-cooled power converter forms are very near, stack of cabinets can directly be entered hot gas to cooling in cooling coil, be disposed to again and share in cold flow passage, therefore can reduce the cold-room fan electric power of sharing the required load of cold flow passage.And equipment is more easy in known techniques on building, and construction institute's time spent is shorter, and can rack or the stack of cabinets of varying number be set according to different demands, and more kinds of customized selections are provided.

Accompanying drawing explanation

Fig. 1 shows one of schematic perspective view according to the cooling equipment of water-cooled with continuous air-flow of the first embodiment of the present utility model;

Fig. 2 shows according to two of the schematic perspective view of the cooling equipment of water-cooled with continuous air-flow of the first embodiment of the present utility model;

Fig. 3 shows according to three of the schematic perspective view of the cooling equipment of water-cooled with continuous air-flow of the first embodiment of the present utility model;

Fig. 4 is the cross-sectional schematic showing according to the cooling equipment of water-cooled with continuous air-flow of the first embodiment of the present utility model;

Fig. 5 is the top view showing according to the cooling equipment of water-cooled with continuous air-flow of the second embodiment of the present utility model.

Symbol description

100,100a has the cooling equipment of water-cooled of continuous air-flow

1 shares cold flow passage

2,2a stack of cabinets

20,20a rack

21 first ends

22 the second ends

23 electro-heat equipments

3 heat passages

31 heat passage ceilings

32 sidewalls

33 passage doors

4 water-cooled power converters

41 cooling coils

411 inputs

412 outputs

42 heat radiation doors

5 continuous electric fan groups

51 continuous electric fan members

511 circulating fans

512 continuous electric components

6 distribution boards and control panel device

S airflow space

Embodiment

The specific embodiment that the utility model adopts, by the embodiment by following and be attachedly graphic and be further described.

Refer to Fig. 1 to Fig. 4, the cooling equipment 100 of the water-cooled with continuous air-flow of the first embodiment of the present utility model comprises that one shares cold flow passage 1, several stack of cabinets 2, a heat passage 3, water-cooled power converter 4, one continuous electric fan group 5 and a distribution board and a control panel device 6.

Shared cold flow passage 1 is centered around the periphery of several stack of cabinets 2, and the cold air of cooling use is provided.In the present embodiment, sharing cold flow passage 1 is the cold air providing after cooling equipment 100 coolings of water-cooled.

In the present embodiment, the cooling equipment 100 of water-cooled with continuous air-flow is provided with four stack of cabinets 2, and four stack of cabinets 2 surround rectangle.Share cold flow passage 1 round the outside of four stack of cabinets 2, and heat passage 3 is positioned at the inner side of four stack of cabinets.Wherein, each stack of cabinets 2 comprises 20, ten racks of ten racks 20 next-door neighbour and forms a line and form a stack of cabinets 2.The lateral surface of each stack of cabinets 2 has a first end 21, and medial surface has a second end 22, and between first end 21 and the second end 22 an accommodating electro-heat equipment 23.Electro-heat equipment 23 is an electronic installation in the present embodiment, and it can produce heat in operation process.The first end 21 Connection Sharing cold flow passages 1 of each stack of cabinets 2 and receiving from the air-flow of sharing cold flow passage 1, the second end 22 ejects from sharing the heat passage 3 of the air-flow of cold flow passage 1 to the medial surface of stack of cabinets 2, the heat producing while taking away by this in electro-heat equipment 23 runnings.

Heat passage 3 is enclosed and is put by a heat passage ceiling 31, a sidewall 32, a passage door 33 and stack of cabinets 2.Therefore the gas that heat passage 3 makes to share cold flow passage 1 all can be circulated to heat passage 3 after via stack of cabinets 2, and passage door 33 passes in and out the heat passage 3 of stack of cabinets 2 inner sides for operating personnel.

Water-cooled power converter 4 has a cooling coil (cooling coil) 41 and one water cooling circulator (not shown), is used for the air of heat flux passage 3.Cooling coil 41 is located at the inner side of four stack of cabinets 2 and forms the cooling metope of rectangular arranged.Cooling coil 41 is an input 411 towards the side of heat passage 3, and input 411 connects the second end 22 and receives the air-flow from heat passage 3.And the another side of cooling coil 41 is an output 412, output 412 is expelled to an airflow space S by the air-flow of heat passage 3.The heat exchange function mode of water-cooled power converter 4 is as follows, and when the thermal air current of heat passage 3 is during through cooling coil 41, the heat of hot-air passes to the water in cooling coil 41.Then water cooling circulator is sent to cooling place by the water that absorbs heat and sends back after cooling again, so that continual cooling effect to be provided.In addition, water-cooled power converter of the present utility model in other embodiments, can arrange a continuous cooling system (not shown) and be connected with water-cooled power converter, with the effect that continues to provide cooling in power-off.

Constantly electric fan group 5, comprises 12 continuous electric fan members 51 in the present embodiment, and 51 of each continuous electric fan members all do not have a circulating fan 511 and a continuous electric components 512 that is arranged at airflow space S.Circulating fan 511 is arranged on the upside of airflow space S, encloses and puts the enclosure space forming and be airflow space S with the cooling coil 41 of water-cooled power converter 4 and floor.The cooling metope of cooling coil 41 is provided with a heat radiation door 42 and from heat passage 3, passes in and out airflow space S for operating personnel.Constantly electric fan group 5 is expelled to the gas of airflow space S to share cold flow passage 1, and provides continual gas flow effect by 511 of each circulating fans do not connect a continuous electric components 512.And now because airflow space S because airtight and produce negative pressure, so can be by the air intake of heat passage 3.Similarly, heat passage 3 also can will be shared the air intake of cold flow passage 1 after producing negative pressure.The effect of whole gas flow can be provided by the continuous running of electric fan group 5 thus.

Distribution board and control panel device 6 are arranged on the wall face of the sidewall 32 of heat passage 3 in the present embodiment, distribution board and control panel device 6 comprise a distribution board and a control panel, distribution board supply electric power is to electro-heat equipment 23, and control panel is used for controlling water-cooled power converter 4 and continuous electric fan group 5.In addition, also can in stack of cabinets 2, install temperature sensor (not shown), whether normally then be shown in distribution board and control panel device 6 to monitor the temperature of air-flow of each stack of cabinets 2.

Consult shown in Fig. 4, the cold air of sharing cold flow passage 1 flows into from the first end 21 of stack of cabinets 2, through electro-heat equipment 23, the torrid zone that time in electro-heat equipment 23 runnings produces is walked and is become hot-air, then from the second end 22, is discharged to heat passage 3.Then the hot-air of heat passage 3 flows into from input 411, takes away heat and becomes cold air again afterwards, then flow out to airflow space S from the output 412 of cooling coil 41 by cooling coil 41.Then the air in airflow space S is expelled to and shares in cold flow passage 1 via continuous electric fan group 5.

By technological means of the present utility model, constantly electric fan group 5 provides continuous continual gas flow, even have a power failure or have some fans to break down, therefore whole gas flow still can not stop, so the electro-heat equipment 23 in stack of cabinets 2 can not crossed because of airless heat-induced damage.Moreover, because water-cooled power converter 4 utilizes the water of specific heat maximum to lower the temperature, so can effectively take away a large amount of heats, therefore can reach cooling effect more to economize the mode of energy.And cooling metope and stack of cabinets 2 distance apart that the cooling coil 41 of water-cooled power converter 4 forms are very near, stack of cabinets 2 can directly be entered hot gas to cooling in cooling coil 41, be disposed to again and share in cold flow passage 1, therefore can reduce the cold-room fan electric power of continuous electric fan group 5 required loads.In addition, design by stack of cabinets 2 round the cooling coil 41 of water-cooled power converter 4, therefore need not set up the various attachment devices of air-conditioning equipment, the construction of the cooling equipment of water-cooled with continuous air-flow of the present utility model is comparatively easy, can manufacture fast.Also therefore the cooling equipment of water-cooled with continuous air-flow of the present utility model can arrange according to different demands rack and the stack of cabinets of varying number.For example, consult shown in Fig. 5, the stack of cabinets 2a of the cooling equipment 100a of the water-cooled with continuous air-flow of the second embodiment of the present utility model is only provided with two, and two stack of cabinets 2a line up L font.Each stack of cabinets 2a is comprised of five rack 20a.The cooling equipment 100a of water-cooled with continuous air-flow comprises altogether ten rack 20a, is applicable to the less situation of rack demand, and optionally reduces the quantity of the continuous electric fan member of continuous electric fan group.Certainly, the utility model is not limited to this, can increase or reduce along with different demands the quantity of rack, stack of cabinets or fan.

Above narration is only preferred embodiment of the present utility model explanation, is allly skillful in this skill person when doing according to above-mentioned explanation other all improvement, yet these change in the scope of the claims that still belongs to creation spirit of the present utility model and define.

Claims (10)

1. the cooling equipment of water-cooled with continuous air-flow, is characterized in that, it comprises:

One shares cold flow passage;

One stack of cabinets, the first end of this stack of cabinets receives the air-flow from this shared cold flow passage for connecting this shared cold flow passage, the second end of this stack of cabinets is this air-flow ejecting from this shared cold flow passage, and between this first end and this second end, is an accommodating electro-heat equipment;

One water-cooled power converter, the input of this water-cooled power converter receives the air-flow from this stack of cabinets for connecting this second end, and the output of this water-cooled power converter is air-flow to airflow space ejecting from this stack of cabinets; And

One continuous electric fan group, connects this airflow space and discharges the gas in this airflow space,

Wherein serve as reasons this water-cooled power converter and this continuous electric fan group of this airflow space enclosed and put.

2. the cooling equipment of water-cooled with continuous air-flow as claimed in claim 1, is characterized in that, this airflow space is an enclosure space.

3. the cooling equipment of water-cooled with continuous air-flow as claimed in claim 1, is characterized in that, this stack of cabinets is a plurality of.

4. the cooling equipment of water-cooled with continuous air-flow as claimed in claim 1, is characterized in that, this continuous electric fan group has a plurality of continuous electric fan members.

5. the cooling equipment of water-cooled with continuous air-flow as claimed in claim 1, is characterized in that, the upside of this airflow space and all sides are respectively by this continuous electric fan group and this water-cooled power converter is enclosed and put.

6. the cooling equipment of water-cooled with continuous air-flow as claimed in claim 1, is characterized in that, the gas of being discharged by this continuous electric fan group is for being communicated to this shared cold flow passage.

7. the cooling equipment of water-cooled with continuous air-flow as claimed in claim 1, is characterized in that, this electro-heat equipment is an electronic installation.

8. the cooling equipment of water-cooled with continuous air-flow as claimed in claim 1, is characterized in that, this water-cooled power converter comprises a cooling coil.

9. the cooling equipment of water-cooled with continuous air-flow as claimed in claim 8, it is characterized in that, between this cooling coil and this stack of cabinets, be formed with a heat passage, the input system of this water-cooled power converter connects this second end and receives the air-flow from this stack of cabinets via this heat passage.

10. the cooling equipment of water-cooled with continuous air-flow as claimed in claim 9, is characterized in that, this heat passage system is located in a heat passage ceiling and a sidewall.

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