CN105650923A - Method and system for conducting refrigeration through noise sound waves - Google Patents

Abstract

The invention discloses a method and system for conducting refrigeration through noise sound waves. The system comprises a sound wave reception intensifier, a refrigeration container and a gas circulation system. The sound wave reception intensifier is used for receiving noise sound waves and intensifying pulses of the noise sound waves. The refrigeration container is used for receiving the intensified pulses of the noise sound waves sent by the sound wave reception intensifier, and compressing refrigeration gas in the compression container through the pulses of the noise sound waves. The gas circulation system is used for receiving the compressed refrigeration gas conveyed from the refrigeration container so that pipelines can be filled with the refrigeration gas. The pipelines at different positions are opened, and therefore the refrigeration gas expands to absorb heat in the surrounding environment. By means of the system, the refrigeration cost of a data center is saved, and noise is reduced.

Description

A kind of method and system utilizing noise sound wave to freeze

Technical field

The present invention relates to refrigeration cool-down technical field, particularly relate to a kind of method and system utilizing noise sound wave to freeze.

Background technology

At present, arrival along with big data and cloud computing epoch, data center is as its infrastructure, role is also more important, server numerous in data center, storage device, network equipment etc. ran without interruption in 24 hours, giving out huge heat, these heats cause ambient temperature and raise, and can have a strong impact on the properly functioning of the internal various electronic equipments of data center when temperature rises to a certain degree. In order to ensure the properly functioning of data center's internal unit, data center generally requires and is equipped with perfect refrigeration cool-down system, by a considerable amount of refrigeration plants, data central interior is lowered the temperature, current existing data center cooling method mainly adopts traditional cooling method, namely data center environment is carried out cooling refrigeration by conventional refrigerant air conditioning system, this exacerbates the energy expenditure of whole data center significantly, also improves operating cost simultaneously. The power consumption of cooling at current general data center to consume the 45%-50% of overall power. Meanwhile, data center is numerous due to number of devices, and especially in the presence of the ventilation installation that lowers the temperature in a large number, the noise problem of whole data center is also extremely serious. These problems are becoming the huge challenge that each manufacturer is encountered at present.

Summary of the invention

It is an object of the invention to provide a kind of method and system utilizing noise sound wave to freeze, to realize saving data center's refrigeration cost, and reduce noise.

For solving above-mentioned technical problem, the present invention provides a kind of system utilizing noise sound wave to freeze, and this system includes:

Acoustic receiver booster, is used for receiving noise sound wave and strengthening sound wave impulse;

Refrigerating container, for receiving the strengthened sound wave impulse that described acoustic receiver booster sends, utilizes the refrigerant gas in described sound wave impulse compression Refrigerating container;

Gas-circulating system, for receiving the refrigerant gas after the compression that described Refrigerating container transmits, makes refrigerant gas be full of pipeline, and opens the pipeline of diverse location, make the volumetric expansion of described refrigerant gas, absorb surrounding heat.

Preferably, described Refrigerating container is additionally operable to when refrigerant gas is compressed to preset vol, and the refrigerant gas after compression is delivered to described gas-circulating system.

Preferably, described acoustic receiver booster includes multiple electromagnetic chip, and each electromagnetic chip is for strengthening sound wave impulse.

Preferably, one end of described Refrigerating container is closed, and the other end is the surface film that acoustic pressure is sensitive, and described surface film is for after receiving the acoustic pressure that sound wave impulse produces, a part of acoustic pressure is sent to inside Refrigerating container, the refrigerant gas within Refrigerating container is compressed.

Preferably, described gas-circulating system also includes absorption cell, for, after described refrigerant gas returns to normal barometric pressure, utilizing the solution in absorption cell to absorb described refrigerant gas.

The present invention also provides for a kind of method utilizing noise sound wave to freeze, and the method includes:

Acoustic receiver booster receives noise sound wave, and strengthens sound wave impulse;

Refrigerating container receives the strengthened sound wave impulse that described acoustic receiver booster sends, and utilizes the refrigerant gas in described sound wave impulse compression Refrigerating container;

Gas-circulating system receives the refrigerant gas after the compression that transmits of described Refrigerating container, makes refrigerant gas be full of pipeline, and opens the pipeline of diverse location, makes the volumetric expansion of described refrigerant gas, absorbs surrounding heat.

Preferably, after the described refrigerant gas utilized in described sound wave impulse compression Refrigerating container, also include:

When refrigerant gas is compressed to preset vol, the refrigerant gas after compression is delivered to described gas-circulating system by described Refrigerating container.

Preferably, described acoustic receiver booster includes multiple electromagnetic chip, and each electromagnetic chip is for strengthening sound wave impulse.

Preferably, described Refrigerating container receives the strengthened sound wave impulse that described acoustic receiver booster sends, and utilizes the refrigerant gas in described sound wave impulse compression Refrigerating container, including:

After the surface film of described Refrigerating container receives the acoustic pressure that sound wave impulse produces, a part of acoustic pressure is sent to inside Refrigerating container by described surface film, and the refrigerant gas within Refrigerating container is compressed; Wherein, one end of described Refrigerating container is closed, and the other end is the described surface film that acoustic pressure is sensitive.

Preferably, described method also includes:

After described refrigerant gas returns to normal barometric pressure, the absorption cell in described gas-circulating system utilizes the solution in absorption cell to absorb described refrigerant gas.

A kind of method and system utilizing noise sound wave to freeze provided by the present invention, acoustic receiver booster, it is used for receiving noise sound wave and strengthening sound wave impulse; Refrigerating container, for receiving the strengthened sound wave impulse that described acoustic receiver booster sends, utilizes the refrigerant gas in described sound wave impulse compression Refrigerating container; Gas-circulating system, for receiving the refrigerant gas after the compression that described Refrigerating container transmits, makes refrigerant gas be full of pipeline, and opens the pipeline of diverse location, make the volumetric expansion of described refrigerant gas, absorb surrounding heat. Visible, the feature big according to data center's heat dissipation capacity, noise intensity is high, receive and strengthen the sound wave pulse of noise by sound wave booster, the acoustic pressure that sound wave pulse produces is utilized to compress gas in Refrigerating container, according to gas expansion heat absorption principle, data center is freezed, thus effectively reducing data center's temperature, high relative to tradition cooling method energy consumption, save data center's refrigeration cost. And utilize sound wave impulse that refrigerant gas is compressed, be effectively utilized the noise in environment, weaken noise intensity, reduce noise.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is only embodiments of the invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to the accompanying drawing provided.

Fig. 1 is the structural representation of a kind of system utilizing noise sound wave to freeze provided by the present invention;

Fig. 2 is the structural representation of acoustic receiver booster;

Fig. 3 is the structural representation of Refrigerating container;

Fig. 4 is the structural representation of gas phase blood circulation;

Fig. 5 is the flow chart of a kind of method utilizing noise sound wave to freeze provided by the present invention.

Detailed description of the invention

The core of the present invention is to provide a kind of method and system utilizing noise sound wave to freeze, to realize.

In order to make those skilled in the art be more fully understood that the present invention program, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only a part of embodiment of the present invention, rather than whole embodiments. Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

Refer to the structural representation that Fig. 1, Fig. 1 are a kind of system utilizing noise sound wave to freeze provided by the present invention, this system includes:

Acoustic receiver booster 101, is used for receiving noise sound wave and strengthening sound wave impulse;

Refrigerating container 102, for receiving the strengthened sound wave impulse that acoustic receiver booster sends, utilizes the refrigerant gas in sound wave impulse compression Refrigerating container;

Gas-circulating system 103, for receiving the refrigerant gas after the compression that Refrigerating container transmits, makes refrigerant gas be full of pipeline, and opens the pipeline of diverse location, make the volumetric expansion of refrigerant gas, absorb surrounding heat.

Visible, the feature that this system is big according to data center's heat dissipation capacity, noise intensity is high, receive and strengthen the sound wave pulse of noise by sound wave booster, the acoustic pressure that sound wave pulse produces is utilized to compress gas in Refrigerating container, according to gas expansion heat absorption principle, data center is freezed, thus effectively reducing data center's temperature, high relative to tradition cooling method energy consumption, save data center's refrigeration cost. And utilize sound wave impulse that refrigerant gas is compressed, be effectively utilized the noise in environment, weaken noise intensity, reduce noise.

Concrete, Refrigerating container is additionally operable to when refrigerant gas is compressed to preset vol, and the refrigerant gas after compression is delivered to gas-circulating system.

Wherein, acoustic receiver booster includes multiple electromagnetic chip, and each electromagnetic chip is for strengthening sound wave impulse. Multiple electromagnetic chips are multistage electromagnetic chip, and every one-level electromagnetic chip is able to receive that sound wave pulse signal and sound wave pulse signal is strengthened. Fig. 2 is the structural representation of acoustic receiver booster.

Wherein, one end of Refrigerating container is closed, and the other end is the surface film that acoustic pressure is sensitive, and surface film is for after receiving the acoustic pressure that sound wave impulse produces, a part of acoustic pressure is sent to inside Refrigerating container, the refrigerant gas within Refrigerating container is compressed. Fig. 3 is the structural representation of Refrigerating container.

Wherein, gas-circulating system also includes absorption cell, for, after refrigerant gas returns to normal barometric pressure, utilizing the solution absorption refrigeration gas in absorption cell. Fig. 4 is the structural representation of gas phase blood circulation.

This system utilizes noise sound wave to be freezed in data center, and sound wave booster is used for receiving noise sound wave and suitably sound wave impulse being strengthened.Refrigerating container is used for holding refrigerant gas and utilizing membrane structure that refrigerant gas is produced pressure. Gas-circulating system can be passed through pipe switch and open the pipeline of diverse location, make internal gas volumetric expansion, absorb surrounding heat, when gas return to normal barometric pressure volume, gas temperature returns to after after ambient temperature and opens extraction duct, utilizes the solution in absorption cell that the refrigerant gas within blood circulation is absorbed. This system compensate for the shortcoming that tradition cooling method energy consumption is high, utilizes the method that refrigerant gas is compressed by sound wave impulse, is effectively utilized the noise in environment simultaneously, and weakens noise intensity to a certain extent. And situation can be laid according to the equipment of data center and adjust gas-circulating system, improve system utilization rate. Utilize free of contamination refrigerant gas, solve the problem of environmental pollution that conventional refrigeration is likely to result in, utilize chemical reaction to achieve recycling of refrigerant gas simultaneously.

Concrete, utilize the sound wave pulse that the noise that data center sends produces, acted on sound wave booster, after suitably strengthening, sound wave impulse is impacted on the elastic film of Refrigerating container, gas within Refrigerating container is produced acoustic pressure, compression Refrigerating container internal gas volume, when gas volume is compressed to after to a certain degree, refrigerant gas is transferred to gas-circulating system by Refrigerating container, raise according to gas compression temperature, the physics that gas expansion temperature reduces, control gas-circulating system switch and change blood circulation internal capacity, gas volume is made to expand, it is capable of the effect to surrounding refrigeration.

Acoustic receiver booster is able to receive that the noise sound wave that data center produces, and by the mode strengthened step by step, the sound wave impulse that data center is produced strengthens so that it is elastic film can produce enough acoustic pressure.

One end of Refrigerating container is shut, and the other end utilizes membrane sealed, and thin film is sensitive to sound wave pulse, it is possible to be delivered in the gas of internal tank by the acoustic pressure that sound wave pulse produces, the volume of compression internal refrigeration storage gas.

Gas-circulating system inner gas tube can close according to demand and open, simultaneously different at diverse location internal diameter of the pipeline, after the refrigerant gas after compression enters gas-circulating system, gas is full of pipeline, pipe switch can be passed through and open the pipeline of diverse location, make internal gas volumetric expansion, absorb surrounding heat, when gas returns to normal barometric pressure volume, gas temperature opens extraction duct after returning to ambient temperature, utilize the solution in absorption cell that the refrigerant gas within blood circulation is absorbed, reduce gas-circulating system internal pressure, refrigerant gas can utilize carbon dioxide, absorbent solution can adopt various aqueous slkali, generate product can re-use.

Detailed, based on the present invention, said system is proposed, main, feature that noise intensity high big according to data center's heat dissipation capacity, receive and strengthen the sound wave pulse of noise by acoustic receiver booster, the acoustic pressure that sound wave pulse produces is utilized to compress gas in Refrigerating container, according to gas expansion heat absorption principle, data center being freezed, thus effectively reducing data center's temperature, saving data center's refrigeration cost. The position of sound production acoustic receiver booster that the internal noise intensity of the heart is relatively large in the data, acoustic receiver booster is able to receive that the noise sound wave that the various equipment of data center produces, and utilize multiple electromagnetic chip that sound wave pulse is repeatedly strengthened, when sound wave pulse strengthens after to a certain extent, it is possible to by sound pulse transmission to the surface film of Refrigerating container. One end of Refrigerating container is shut, the other end is coated with the acoustic shock thin film that acoustic pressure is sensitive and surface film, when the sound wave pulse of some strength impacts on acoustic shock thin film, acoustic shock thin film can produce deformation, refrigerant gas within Refrigerating container is compressed, after refrigerant gas is compressed to certain volume, open the connecting valve between Refrigerating container and gas phase blood circulation, volume expansion, produce first time heat absorption, can reducing ambient temperature, simultaneously because acoustic pressure effect, the gas after expansion is re-compressed. After a part of gas enters gas phase blood circulation, owing to its pressure is still above atmospheric pressure, the change in volume of refrigerant gas can be controlled by the control that gas phase blood circulation internal pipeline is switched, switch is opened in the position needing emphasis to freeze, increase refrigerant gas volume, absorb surrounding heat. When gas return to normal barometric pressure volume, gas temperature returns to and opens extraction duct after ambient temperature, utilize the solution in absorption cell that the refrigerant gas within blood circulation is absorbed, reduce gas-circulating system internal pressure, refrigerant gas can utilize carbon dioxide, absorbent solution can adopt various aqueous slkali, and generating product can re-use.

Visible, utilize sound wave impulse to produce acoustic pressure, weaken the intensity of data center's noise, the problem to some extent solving data center's strong noise.By noise acoustic pressure, refrigerant gas being compressed, the problem solving conventional air compressor high energy consumption utilizes free of contamination refrigerant gas, and solving conventional refrigerants may to the problem of environment. Further, refrigerant gas is absorbed by chemical solvent, it is not necessary to empties gas phase blood circulation internal gas by vacuum generator, further saves system entirety energy consumption. The reaction product of refrigerant gas and chemical solvent can regenerate refrigerant gas by chemical reaction simultaneously, it is achieved that recycling of refrigerant gas. By on-off control gas phase blood circulation, it is possible to be effectively improved the utilization ratio of system according to the equipment situation of laying of data center. Therefore the present invention can effectively reduce the highly energy-consuming problem of data center's refrigeration system.

The system that noise sound wave freezes that utilizes that the present invention proposes includes acoustic receiver booster, Refrigerating container and gas phase blood circulation. Containing multistage electromagnetic chip in acoustic receiver booster, as shown in Figure 2. Every one-level electromagnetic chip is able to receive that sound wave pulse signal and sound wave pulse signal is strengthened. After noise sound wave is received by first order electromagnetic chip, first order electromagnetic chip is transmitted into second level electromagnetic chip after being strengthened by sound wave pulse signal, sound wave pulse is strengthened by second level electromagnetic chip again, by that analogy, when sound wave pulse signal reaches after to a certain degree, sound wave pulse signal is transmitted into the surface film of Refrigerating container by acoustic receiver booster.

Refrigerating container one end is closed, and the other end is the surface film that acoustic pressure is sensitive, as shown in Figure 3. After surface film receives the acoustic pressure that sound wave pulse produces, a part of acoustic pressure is sent to inside Refrigerating container, refrigerant gas volume within Refrigerating container is compressed, when refrigerant gas volume is compressed to after to a certain degree, opening the connecting valve between Refrigerating container and gas phase blood circulation, refrigerant gas enters gas phase blood circulation.

Gas phase blood circulation needs to be designed according to data center layouts, as shown in Figure 4, arranges controlled valve in the position needing emphasis to lower the temperature. After refrigerant gas is compressed to certain volume, open the valve between Refrigerating container and gas phase blood circulation, volume expansion, produce first time heat absorption, it is possible to reducing ambient temperature, simultaneously because acoustic pressure effect, the gas after expansion is re-compressed. After a part of gas enters gas phase blood circulation, owing to its pressure is still above atmospheric pressure, the change in volume of refrigerant gas can be controlled by the control that gas phase blood circulation internal pipeline is switched, switch is opened in the position needing emphasis to freeze, increase refrigerant gas volume, absorb surrounding heat. When gas return to normal barometric pressure volume, gas temperature returns to and opens extraction duct after ambient temperature, utilize the solution in absorption cell that the refrigerant gas within blood circulation is absorbed, reduce gas-circulating system internal pressure.

Refer to the flow chart that Fig. 5, Fig. 5 are a kind of method utilizing noise sound wave to freeze provided by the present invention, the method includes:

S11: acoustic receiver booster receives noise sound wave, and strengthens sound wave impulse;

S12: Refrigerating container receives the strengthened sound wave impulse that acoustic receiver booster sends, utilizes the refrigerant gas in sound wave impulse compression Refrigerating container;

S13: gas-circulating system receives the refrigerant gas after the compression that transmits of Refrigerating container, makes refrigerant gas be full of pipeline, and opens the pipeline of diverse location, makes the volumetric expansion of refrigerant gas, absorbs surrounding heat.

Visible, the feature that the method is big according to data center's heat dissipation capacity, noise intensity is high, receive and strengthen the sound wave pulse of noise by sound wave booster, the acoustic pressure that sound wave pulse produces is utilized to compress gas in Refrigerating container, according to gas expansion heat absorption principle, data center is freezed, thus effectively reducing data center's temperature, high relative to tradition cooling method energy consumption, save data center's refrigeration cost.And utilize sound wave impulse that refrigerant gas is compressed, be effectively utilized the noise in environment, weaken noise intensity, reduce noise.

Concrete, after utilizing the refrigerant gas in sound wave impulse compression Refrigerating container, when refrigerant gas is compressed to preset vol, the refrigerant gas after compression is delivered to gas-circulating system by Refrigerating container.

Wherein, acoustic receiver booster includes multiple electromagnetic chip, and each electromagnetic chip is for strengthening sound wave impulse.

Refrigerating container receives the strengthened sound wave impulse that acoustic receiver booster sends, utilize sound wave impulse compression Refrigerating container in refrigerant gas process particularly as follows: when the surface film of Refrigerating container receive sound wave impulse generation acoustic pressure after, a part of acoustic pressure is sent to inside Refrigerating container by surface film, and the refrigerant gas within Refrigerating container is compressed; Wherein, one end of Refrigerating container is closed, and the other end is the surface film that acoustic pressure is sensitive.

After refrigerant gas returns to normal barometric pressure, the absorption cell in gas-circulating system utilizes the solution absorption refrigeration gas in absorption cell.

To sum up, a kind of method and system utilizing noise sound wave to freeze provided by the present invention, acoustic receiver booster, it is used for receiving noise sound wave and strengthening sound wave impulse; Refrigerating container, for receiving the strengthened sound wave impulse that acoustic receiver booster sends, utilizes the refrigerant gas in sound wave impulse compression Refrigerating container; Gas-circulating system, for receiving the refrigerant gas after the compression that Refrigerating container transmits, makes refrigerant gas be full of pipeline, and opens the pipeline of diverse location, make the volumetric expansion of refrigerant gas, absorb surrounding heat. Visible, the feature big according to data center's heat dissipation capacity, noise intensity is high, receive and strengthen the sound wave pulse of noise by sound wave booster, the acoustic pressure that sound wave pulse produces is utilized to compress gas in Refrigerating container, according to gas expansion heat absorption principle, data center is freezed, thus effectively reducing data center's temperature, high relative to tradition cooling method energy consumption, save data center's refrigeration cost. And utilize sound wave impulse that refrigerant gas is compressed, be effectively utilized the noise in environment, weaken noise intensity, reduce noise.

Above a kind of method and system utilizing noise sound wave to freeze provided by the present invention are described in detail. Principles of the invention and embodiment are set forth by specific case used herein, and the explanation of above example is only intended to help to understand method and the core concept thereof of the present invention. It should be pointed out that, for those skilled in the art, under the premise without departing from the principles of the invention, it is also possible to the present invention carries out some improvement and modification, these improve and modify in the protection domain also falling into the claims in the present invention.

Claims (10)

1. one kind utilizes the system that noise sound wave freezes, it is characterised in that including:

Acoustic receiver booster, is used for receiving noise sound wave and strengthening sound wave impulse;

Refrigerating container, for receiving the strengthened sound wave impulse that described acoustic receiver booster sends, utilizes the refrigerant gas in described sound wave impulse compression Refrigerating container;

Gas-circulating system, for receiving the refrigerant gas after the compression that described Refrigerating container transmits, makes refrigerant gas be full of pipeline, and opens the pipeline of diverse location, make the volumetric expansion of described refrigerant gas, absorb surrounding heat.

2. the system as claimed in claim 1, it is characterised in that described Refrigerating container is additionally operable to when refrigerant gas is compressed to preset vol, is delivered to described gas-circulating system by the refrigerant gas after compression.

3. the system as claimed in claim 1, it is characterised in that described acoustic receiver booster includes multiple electromagnetic chip, each electromagnetic chip is for strengthening sound wave impulse.

4. the system as claimed in claim 1, it is characterized in that, one end of described Refrigerating container is closed, the other end is the surface film that acoustic pressure is sensitive, described surface film is for after receiving the acoustic pressure that sound wave impulse produces, a part of acoustic pressure is sent to inside Refrigerating container, the refrigerant gas within Refrigerating container is compressed.

5. the system as described in Claims 1-4, it is characterised in that described gas-circulating system also includes absorption cell, for, after described refrigerant gas returns to normal barometric pressure, utilizing the solution in absorption cell to absorb described refrigerant gas.

6. one kind utilizes the method that noise sound wave freezes, it is characterised in that including:

Acoustic receiver booster receives noise sound wave, and strengthens sound wave impulse;

Refrigerating container receives the strengthened sound wave impulse that described acoustic receiver booster sends, and utilizes the refrigerant gas in described sound wave impulse compression Refrigerating container;

Gas-circulating system receives the refrigerant gas after the compression that transmits of described Refrigerating container, makes refrigerant gas be full of pipeline, and opens the pipeline of diverse location, makes the volumetric expansion of described refrigerant gas, absorbs surrounding heat.

7. method as claimed in claim 6, it is characterised in that after the described refrigerant gas utilized in described sound wave impulse compression Refrigerating container, also include:

When refrigerant gas is compressed to preset vol, the refrigerant gas after compression is delivered to described gas-circulating system by described Refrigerating container.

8. method as claimed in claim 6, it is characterised in that described acoustic receiver booster includes multiple electromagnetic chip, and each electromagnetic chip is for strengthening sound wave impulse.

9. method as claimed in claim 6, it is characterised in that described Refrigerating container receives the strengthened sound wave impulse that described acoustic receiver booster sends, utilizes the refrigerant gas in described sound wave impulse compression Refrigerating container, including:

After the surface film of described Refrigerating container receives the acoustic pressure that sound wave impulse produces, a part of acoustic pressure is sent to inside Refrigerating container by described surface film, and the refrigerant gas within Refrigerating container is compressed; Wherein, one end of described Refrigerating container is closed, and the other end is the described surface film that acoustic pressure is sensitive.

10. the method as described in claim 6 to 9, it is characterised in that also include:

After described refrigerant gas returns to normal barometric pressure, the absorption cell in described gas-circulating system utilizes the solution in absorption cell to absorb described refrigerant gas.