CN215421356U - Micromodule cooling energy-saving system - Google Patents

Abstract

The utility model provides a micromodule cooling economizer system, includes data center micromodule computer lab, and data center micromodule computer lab is equipped with controller and a plurality of server rack, and server rack upper portion is equipped with the integral type air conditioner, is provided with the main wind channel between integral type air conditioner and server rack, is provided with cooling water course and secondary wind channel between the server rack, and server rack bottom is provided with the water catch bowl. Utilize the air conditioner comdenstion water to accomplish the liquid cooling process, discharge the steam cooling of rack into the computer lab again to and discharge the condensate water atomizing into the air conditioner and make the air conditioner cooling, reduce the consumption. Energy conservation, greenness and high utilization rate. And a secondary air channel is adopted, and the opening and closing of the valve are controlled by a controller, so that the effect of local heat dissipation is achieved. The liquid cooling and air cooling combined mode is adopted, so that the reliability is higher and better, and meanwhile, the local heat dissipation can be realized.

Description

Micromodule cooling energy-saving system

Technical Field

The invention relates to the technical field of a micro-module system, in particular to a micro-module cooling energy-saving system.

Background

A miniature modular data center is a modular data center product integrating functional modules of an IT cabinet, refrigeration, an uninterruptible power supply, fire protection, illumination, monitoring, wiring, security and the like, and all the constituent units of the miniature modular data center are standardized products meeting the general standards in the industry. Micro-modular data centers on the market often adopt row-to-row air conditioners for heat dissipation, require a lot of air conditioners and are high in cost.

For example, a "micro-module data center" disclosed in chinese patent literature, with the publication number "CN 110267490A", discloses a micro-module data center, which includes an integrated cabinet and at least one set of IT cabinets, wherein the integrated cabinet includes: the intelligent cabinet comprises a cabinet body with an accommodating cavity, a power supply assembly, a monitoring alarm assembly and an air conditioner, wherein a front door body is arranged on the front side of the cabinet body, a rear door body is arranged on the rear side of the cabinet body, and the cabinet body, the front door body and the rear door body enclose a closed space; the air conditioner is arranged at the bottom of the accommodating cavity; a cold air channel is arranged between the air conditioner and the front door body, and a hot air channel is arranged between the air conditioner and the rear door body; the air conditioner can be with cold wind from the air conditioner department take out to the cold wind passageway, and can take out hot-blast to the air conditioner department by hot air channel, and this micromodule data center has avoided gaseous mixed flow through sealing the cold and hot pain to isolation design, improves return air temperature by a wide margin, improves refrigeration efficiency. However, the multiple air conditioners have high cost, single heat dissipation and poor energy-saving effect.

Disclosure of Invention

The invention aims to solve the problems of poor heat dissipation effect, poor energy saving and the like of a micro module in the prior art. The utility model provides a micromodule cooling economizer system can dispel the heat to the computer lab through liquid cooling and forced air cooling, utilizes the air conditioner comdenstion water to dispel the heat simultaneously, reaches energy-conserving effect.

The utility model provides a micromodule cooling economizer system, includes data center micromodule computer lab, data center micromodule computer lab is equipped with a plurality of server cabinets, server cabinet upper portion is equipped with the integral type air conditioner, is provided with the main wind channel between integral type air conditioner and server cabinet, be provided with cooling water course and secondary wind channel between the server cabinet, server cabinet bottom is provided with the water catch bowl. The condensed water of the air conditioner is guided into the cooling water channel to achieve the liquid cooling effect, the heat of the cabinet is dissipated, and meanwhile, the air conditioner distributes air to the secondary air channel through the controller, so that local heat dissipation is achieved. The comdenstion water is through the cooling water course collection to the water catch bowl, and steam in the rack can realize energy-conserving effect through the water catch bowl cooling through the steam discharge after will cooling again in the computer lab, and the water of water catch bowl can pass through the atomizer and atomize the comdenstion water entering air conditioner at last, makes the air conditioner cooling again, reduces the consumption.

Preferably, a first air outlet is arranged below the main air duct and communicated with the secondary air duct. The main air duct is communicated with the secondary air ducts through the first air outlets, so that air conditioning air is conveniently distributed to different secondary air ducts, and the control of air distribution is realized.

Preferably, the cooling water channel is communicated with a condensed water pipeline of the integrated air conditioner. The condensate water of the air conditioner is utilized in the liquid cooling system, and the problem of condensate water waste is solved.

Preferably, the cooling water channel is communicated with the water collecting tank. The condensed water is cooled and enters the water collecting tank at the bottom, so that the residual condensed water is convenient to collect.

Preferably, a second air outlet is formed in the lower portion of the server cabinet and communicated with the water collecting tank. The second air outlet can be with in the steam discharge water catch bowl in the rack, through the comdenstion water cooling of steam in the water catch bowl.

Preferably, the inner surface of the server cabinet is provided with a temperature sensor, the temperature sensor is connected with a controller in the machine room, the temperature sensor monitors the temperature of the cabinet in real time, and transmits a signal to the controller so as to control the opening and closing of the secondary air outlet valve for local heat dissipation.

Preferably, the water collecting tank is provided with a third air outlet, and the third air outlet is communicated with the machine room. The hot air cooled in the cabinet is discharged into the machine room again through the third air outlet, so that the heat of the cabinet is reused, and the energy utilization rate is improved.

Preferably, the water collecting tank is provided with an atomizer, and the atomizer is connected with the controller. The controller controls the atomizer to atomize the condensed water in the water collecting tank, and the water mist is discharged into the air conditioner to cool the air conditioner. The power consumption of the air conditioner is reduced, and the energy-saving effect is achieved.

Therefore, the invention has the following beneficial effects:

(1) utilize the air conditioner comdenstion water to accomplish the liquid cooling process, discharge the steam cooling of rack into the computer lab again to and discharge the condensate water atomizing into the air conditioner and make the air conditioner cooling, reduce the consumption. Energy conservation, greenness and high utilization rate.

(2) And a secondary air channel is adopted, and the opening and closing of the valve are controlled by a controller, so that the effect of local heat dissipation is achieved.

(3) The liquid cooling and air cooling combined mode is adopted, so that the reliability is higher and better, and meanwhile, the local heat dissipation can be realized.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a micromodule cooling economizer system;

in the figure 1, an integrated air conditioner; 2. a main air duct; 3. a server cabinet; 4. a cooling water channel; 5. a secondary air duct; 6. a water collection tank.

Detailed Description

Example (b):

as in the embodiment shown in fig. 1. The utility model provides a micromodule cooling economizer system, includes data center micromodule computer lab, and data center micromodule computer lab is equipped with a plurality of server cabinets, and server cabinet upper portion is equipped with integral type air conditioner 1, is provided with main wind channel 2 between integral type air conditioner 1 and server cabinet 3, is provided with cooling water course 4 and secondary wind channel 5 between the server cabinet 3, and there is first air outlet on 5 upper portions in secondary wind channel, and first air outlet department is provided with the air outlet valve. The lateral wall of the server cabinet is provided with a temperature sensor, and the bottom of the server cabinet is provided with a second air outlet. The computer lab bottom is provided with water catch bowl 6, and water catch bowl 6 is provided with the third air outlet to the terminal pipeline that is connected to the air conditioner that sets up of water catch bowl is provided with the atomizer in the pipeline. The controller controls the starting and stopping of the atomizer and the air outlet valve in the machine room.

The working process of the invention is as follows:

the condensed water generated by the refrigeration of the integrated air conditioner 1 is radiated for the server cabinet 3 through the cooling water channel 4. The wind of integral type air conditioner is advanced to go into main wind channel 2, and temperature sensor detects the temperature of server rack 3, and when the temperature value was too high, the signal transmission was for the controller, and the air outlet valve of control first air outlet department is opened, increases secondary wind channel 5's air output, realizes local radiating effect. During the water catch bowl 6 was assembled to the comdenstion water through cooling water course 4, in the steam of server rack 3 discharged steam into water catch bowl 6 through the second gas outlet, steam passed through the comdenstion water cooling and discharged the computer lab with the refrigerated gas again through the third gas outlet, realizes energy cycle and strengthens the radiating effect simultaneously. The water collection tank 6 is arranged at the bottom of the machine room, the liquid cooling effect can be achieved, the whole machine room is cooled, meanwhile, the water collection tank 6 is provided with a pipeline connected to the air conditioner, the condensate water can be atomized and conveyed to the air conditioner through an atomizer in the pipeline, the air conditioner is cooled, and energy loss is reduced. The whole system realizes energy conservation and improves the energy utilization rate. And a liquid cooling and wind energy combination mode is adopted, so that the heat dissipation effect is improved, and the reliability is higher.

Claims (9)

1. The utility model provides a micromodule cooling economizer system which characterized in that, includes data center micromodule computer lab, data center micromodule computer lab is equipped with a plurality of server cabinets, server cabinet upper portion is equipped with the integral type air conditioner, is provided with main wind channel between integral type air conditioner and server cabinet, main wind channel below is provided with first gas outlet, be provided with cooling water course and secondary wind channel between the server cabinet, first gas outlet and secondary wind channel UNICOM, server cabinet bottom is provided with the water catch bowl.

2. The micromodule cooling economizer system of claim 1 further comprising a condensate water conduit of an air conditioner, wherein the cooling water conduit is in communication with a condensate water conduit of an integrated air conditioner.

3. The micromodule cooling economizer system of claim 1 wherein the cooling water channel is in communication with a water collection sump.

4. The micromodule cooling and energy saving system according to claim 1, wherein a second air outlet is provided below the server cabinet, and the second air outlet is communicated with the water collecting tank.

5. The micromodule cooling economizer system of claim 1 wherein the inner surface of the server cabinet is provided with a temperature sensor.

6. The micromodule cooling energy-saving system according to claim 1, wherein the water collecting tank is provided with a third air outlet, and the third air outlet is communicated with the machine room.

7. The micromodule cooling energy saving system according to claim 1, wherein the first air outlet is provided with an air outlet valve.

8. The micromodule cooling economizer system of claim 1 wherein the sump end is provided with an atomizer.

9. The micromodule cooling and energy saving system according to claim 1, wherein a controller is arranged in the data center micromodule machine room.

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