CN212081511U

CN212081511U - Atomizing cooling device

Info

Publication number: CN212081511U
Application number: CN201922164327.3U
Authority: CN
Inventors: 廖晶
Original assignee: Huaneng Yingcheng Thermal Power Co ltd
Current assignee: Huaneng Yingcheng Thermal Power Co ltd
Priority date: 2019-12-05
Filing date: 2019-12-05
Publication date: 2020-12-04
Anticipated expiration: 2029-12-05

Abstract

The utility model discloses an atomizing heat sink, include: a plurality of atomizing assemblies arranged side by side; each atomization assembly comprises a steel frame, fans and a water spray pipe, wherein a plurality of water spray nozzles which are uniformly distributed are formed in the water spray pipe along the bus direction of the water spray pipe, the water spray pipe is fixed on the steel frame, the fans are arranged below the water spray pipe, the fans are uniformly distributed along the extension direction of the water spray pipe, and the fans are fixed on the steel frame; and the distance adjusting assembly adjusts the distance between every two adjacent atomizing assemblies. The higher the outdoor temperature is in the cooling process of the air conditioner, the more difficult the refrigerant is to compress and release heat, which causes the excessive load of the compressor. The fan is evenly distributed along the extension direction of the spray pipe, so that the fan is used for blowing the liquid drops flowing out from the water spraying opening, the liquid drops are evenly distributed in the air, the ambient temperature of the outdoor heat exchanger can be reduced, and the phenomenon that the compressor of the air conditioner is overloaded due to overhigh temperature in summer is avoided.

Description

Atomizing cooling device

Technical Field

The utility model relates to an electric field, concretely relates to atomizing heat sink.

Background

In the cooling process of the air conditioner, the gaseous refrigerant is compressed by a compressor, and then heat is released in an outdoor heat exchanger. The higher the outdoor temperature is, the more difficult the refrigerant is to compress and release heat, which may cause the compressor to be overloaded. In summer, due to overhigh temperature, the compressor is easy to have overlarge load to cause the shutdown of the air conditioner.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned technique not enough, propose one kind, solve the technical problem of atomizing heat sink among the prior art.

In order to achieve the above technical purpose, the technical scheme of the utility model provides an atomizing heat sink, include:

a plurality of atomizing assemblies arranged side by side; each atomization assembly comprises a steel frame, fans and a water spray pipe, wherein a plurality of water spray nozzles which are uniformly distributed are formed in the water spray pipe along the bus direction of the water spray pipe, the water spray pipe is fixed on the steel frame, the fans are arranged below the water spray pipe, the fans are uniformly distributed along the extension direction of the water spray pipe, and the fans are fixed on the steel frame;

and the distance adjusting assembly adjusts the distance between every two adjacent atomizing assemblies.

Compared with the prior art, the beneficial effects of the utility model include: the water is supplied to the water spraying pipe from an external water source, and the water in the water spraying pipe is sprayed out from a plurality of water spraying openings which are uniformly distributed. And the fan is evenly distributed along the extension direction of the water spray pipe, so that the fan is utilized to blow the liquid drops flowing out from the water spray opening, the liquid drops are evenly distributed in the air, the specific heat capacity of water is large on one hand, the water drops can absorb heat by themselves, and on the other hand, the water drops can absorb heat in the gasification process. And the environment temperature of the outdoor heat exchanger can be reduced, so that the phenomenon that the compressor of the air conditioner is overloaded due to overhigh temperature in summer is avoided. Simultaneously in order to increase the area that sprays of water smoke, make multiunit atomization component set up side by side, recycle the interval between each atomization component of roll adjustment subassembly adjustment, and then avoid appearing not having the region that water smoke covered between each atomization component to and avoid appearing each atomization component and spraying the phenomenon that the water smoke scope overlaps.

Drawings

FIG. 1 is a schematic view of an atomization cooling device of the present invention;

FIG. 2 is a schematic view of the spray pipe structure of an atomization cooling device of the present invention;

fig. 3 is a schematic structural view of the atomizing head of the atomizing and cooling device of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model provides an atomizing heat sink, include: the atomization assembly 100, the distance adjustment assembly 200, the water storage tank 300, the water pump 400 and the water return tank 500.

The atomization assembly 100 includes a steel frame 110, a fan 120, and a spray tube 130.

Wherein the steel frame 110 is used to connect the fan 120 and the spray pipe 130.

A fan 120 for blowing the droplets sprayed from the water jetting port 131 by the fan 120. The plurality of fans 120 are uniformly distributed along the spray pipe 130, and the fans 120 are disposed below the spray pipe 130, so that the droplets sprayed from the spray pipe 130 are dispersed in the environment by the blowing of the fans 120.

The water spraying pipe 130 is a straight pipe, a plurality of water spraying ports 131 are uniformly distributed along the same bus, and in order to maintain the same water output of each water spraying port 131 and achieve the purpose of uniform spraying, the water spraying pipe 130 is preferably horizontally arranged, so that the water pressure at each water spraying port 131 caused by gravity can be prevented from being different, and the water output of each water spraying port 131 is prevented from being different. However, if the water spray pipe 130 needs to be tilted or vertically arranged in actual installation, the effect of gravity on the uniform spraying of the uniform water spray pipe 130 can be reduced by increasing the water supply pressure and reducing the diameter of the water spray nozzle 131. In addition, in order to spray water as uniformly as possible from the spray pipe 130, an atomizing nozzle 131a is additionally provided at the water spray port 131.

In order to obtain a larger water mist spraying area, the present embodiment preferably employs a plurality of atomization assemblies 100 arranged side by side. For energy saving, the water supply rate of the water spray pipe 130 is adjusted according to the actual outside temperature, the water supply rate is increased when the temperature is high, and the water supply rate is appropriately decreased when the temperature is low. The varying water supply rate results in varying water flow rate from the nozzles 131, and when the water flow rate from the nozzles 131 is larger and the distance between the nozzles 130 is smaller, the water mist sprayed from the nozzles 130 will overlap. When the water jet flow rate is small and the distance between the water jet pipes 130 is large, the area between the adjacent water jet pipes 130 which is not covered by the water mist is present. Therefore, the distance adjusting assembly 200 is added.

The pitch adjustment assembly 200 includes: the slide rail 210, the sliding block 220 and the cylinder 230, the slide rail 210 is fixed on a reliable connection surface, and can be fixed on a rack or a wall according to actual conditions. The slide rail 210 is disposed vertically with respect to the spray pipe 100, and two slide rails 210 are disposed oppositely and disposed at two ends of the atomizing assembly 100 respectively. The sliding block 220 is slidably disposed on the sliding rail 210. The two ends of each atomization assembly 100 are respectively and fixedly connected with a sliding block 220, and the piston rod and the cylinder body of the cylinder 230 are respectively fixed between two adjacent sliding blocks on the same sliding rail 210, so as to drive the atomization assemblies 100 to slide, and further adjust the distance between the atomization assemblies 100.

It should be noted that, a set of fans 120 corresponds to one spray pipe 130, the relative positions of the two are fixed, and the fans 120 slide along with the sliding of the spray pipes 130, and in this embodiment, the steel frame 110 is preferably used to fixedly connect the fans 120 and the spray pipes 130, and then the steel frame 110 is connected to the sliding blocks 220. In addition, when the stroke of the conventional cylinder 230 is too small with respect to the interval of the sprinkler pipe 100, the slider 220 may be extended outwardly to the connection rib 221 and then the cylinder may be mounted on the connection rib 221. In this way, the stroke of the cylinder 230 is only required to be greater than the varying distance between two adjacent spray pipes 130. In addition, in order to avoid the sliding of each atomization assembly 100 on the slide rail 210, one of the atomization assemblies 100 should be fixed on the slide rail 210.

The water storage tank 300 is of a vertically-arranged cylindrical structure, a filter layer 310 is arranged in the middle of the inside of the water storage tank 300, the bottom of the water storage tank 300 extends downwards to form a water outlet pipe 320, a water valve 321 is further arranged on the water outlet pipe 320, the filter layer 310 is used for filtering impurities in the water storage tank 300 and preventing solid particles from blocking the water spraying opening 131, and preferably, quartz sand and activated carbon are sequentially adopted as filter materials on the filter layer 310.

The water inlet end of the water pump 400 is connected with the water outlet pipe 320, and the water outlet end of the water pump 400 is connected with the water spray pipe 130 through a hose 410.

The water return tank 500 is disposed below the water spray pipe 400, the water return tank 500 is used for receiving and collecting water drops which are not melted into the air, so that the water is recycled, the bottom of the water return tank 500 extends downwards to form a water return pipe 510, and the free end of the water return pipe 510 is lapped on the upper edge of the water storage tank 300. It should be noted that when the upper edge of the water storage tank 500 is lower than the water return tank 500, the collected water in the water return tank 500 can be transferred to the water storage tank 300 by gravity. When the water storage tank 300 is higher than the water return tank 500 in actual installation, water in the water return tank 500 cannot be conveyed to the water storage tank by gravity, and a water suction pump can be additionally arranged for conveying water.

The above description of the present invention does not limit the scope of the present invention. Any other corresponding changes and modifications made according to the technical idea of the present invention should be included in the scope of the claims of the present invention.

Claims

1. An atomized cooling device, comprising:

2. The atomization cooling device according to claim 1, wherein the distance adjusting assembly comprises two slide rails, a plurality of slide blocks and a plurality of air cylinders, the two slide rails are arranged oppositely and located at two ends of the atomization assembly respectively, the slide blocks are slidably arranged on the slide rails, two ends of each atomization assembly are fixedly connected with one slide block respectively, one air cylinder is arranged between every two adjacent slide blocks, and a cylinder body and a piston rod of each air cylinder are fixedly connected with two adjacent slide blocks respectively.

3. The atomization cooling device as claimed in claim 2, further comprising a water storage tank, wherein the water storage tank is of a vertically-placed cylindrical structure, a filter layer is arranged in the middle of the water storage tank, the water storage tank extends downwards to form a water outlet pipe, and the water outlet pipe is connected with a water pump.

4. The atomization cooling device of claim 3, further comprising a water return tank, wherein the water return tank is disposed below the water spray pipe, a water return pipe extends from a lower portion of the water return tank, and a free end of the water return pipe is connected to an upper edge of the water storage tank in a lap joint manner.

5. The desuperheater of claim 2, further comprising an atomizer head, wherein the atomizer head receives the water jet.