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Evaporator and cooling device

An evaporator and filter technology, applied in evaporators/condensers, machines that use refrigerant evaporation, refrigerators, etc., can solve problems such as shortened life of compressors

Active Publication Date: 2010-10-20
THE TOKYO ELECTRIC POWER CO INC +4
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

As a result, there is a problem that the life of the compressor is shortened.

Method used

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  • Evaporator and cooling device
  • Evaporator and cooling device
  • Evaporator and cooling device

Examples

Experimental program
Comparison scheme
Effect test

no. 1 approach

[0021] First, refer to figure 1 , the overall structure of the cooling device of the first embodiment will be described.

[0022] The cooling device of the first embodiment is used in connection with an air conditioner, cools the heated cold water through heat exchange in the air conditioner, and then supplies it to the air conditioner again. Furthermore, this cooling device includes a first cooling head 2 , a second cooling head 4 , a cooling device main body 6 , a cooling tower 8 , a first pump 10 , and a second pump 12 .

[0023] The first cold water head 2 receives cold water sent from another cooling device (not shown) and cold water sent from the cooling device main body 6, and supplies the cold water to each air conditioner (not shown). In addition, this cold water is included in the concept of the working fluid of this invention.

[0024] The second cold water head 4 receives cold water returned from each air conditioner not shown, and supplies the cold water to oth...

no. 2 approach

[0050] Next, refer to Figure 6 and Figure 7 , the structure of the evaporator 14 according to the second embodiment of the present invention will be described.

[0051] In this second embodiment, unlike the above-mentioned first embodiment, each filter 40 provided in the housing 22 is divided into a plurality. Specifically, as Figure 6 and Figure 7 As shown, the filter 40 is divided into a plurality of (three in this embodiment) filter members 41 arranged in the vertical direction. Each filter member 41 is arrange|positioned in the oblique attitude|position at substantially the same angle so that it may become farther from the suction port 22d so that it may become an upper part. That is, each filter member 41 is placed in a posture laid down at a predetermined angle from a vertically erected state toward a direction in which its upper end approaches the side wall portion 22a of the case 22 surrounding the generation space S3. Each filter member 41 is inclined at an a...

no. 3 approach

[0064] Next, refer to Figure 8 , the structure of the evaporator 14 according to the third embodiment of the present invention will be described.

[0065] In this third embodiment, unlike the above-mentioned second embodiment, the receiving plate part 52a of the cold water receiving part 52 is arranged from the communication space S4 toward the generation space in the width direction (the flow direction of the refrigerant vapor evaporated from the cold water). The inclined attitude of S3 descent is configured. Specifically, the filter 50 is divided into a plurality of (three in this embodiment) filter members 51 arranged in the vertical direction. The upper end surface and the lower end surface of each filter member 51 are inclined so as to descend from the communication space S4 toward the generation space S3. Moreover, the receiving plate part 52a of the cold water receiving part 52 is also inclined so that it may descend from the communication space S4 toward the generat...

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PUM

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Abstract

A compressor having extended service life. An evaporator has a housing having a suction opening capable of being connected to a suction section of a compressor and evaporates at least a part of droplet-like or mist-like working liquid in the housing by using sucking action of the compressor performed through the suction opening. In the housing is placed a filter for separating a first space for producing the droplet-like or mist-like working liquid and a second space communicating with the suction opening. The filter is placed inclined such that the nearer the upper part of the housing, the further from the suction opening, and the filter allows vapor evaporated from the drop-like or mist-like working liquid to permeate through the filter and captures the drop-like or mist-like working liquid.

Description

technical field [0001] The invention relates to an evaporator and a cooling device. Background technique [0002] Conventionally, various cooling devices such as refrigerators and ice makers that generate cold water or ice are known (for example, refer to Patent Document 1). This type of cooling unit connects the evaporator and condenser through a compressor. In the evaporator, water as a refrigerant is produced in the form of drops or mist. Then, the inside of the evaporator is decompressed by the suction action of the compressor to evaporate a part of the droplet or mist refrigerant. Cooling of the refrigerant is performed using the heat of evaporation at this time. The evaporated refrigerant vapor is sucked out by the compressor and compressed. The compressed refrigerant vapor is then sent to and condensed by a condenser. [0003] Figure 11 An example of an evaporator applied to the above-mentioned conventional cooling device is shown in FIG. In this evaporator, a ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F25B39/02F25B19/00F25B43/00B01D46/10
CPCB01D46/125F25B39/02F25B19/00B01D46/12B01D46/121
Inventor 冈田和人藤泽亮户岛正刚仲山善裕井出聪饭塚晃一朗须藤邦彦仓茂一隆樱场一郎林大介社头真二池内正毅布拉兹尼克·马尔钦·安德列亚森汉斯·马瑟波尔克里斯琴·斯瓦莱科特-延森
Owner THE TOKYO ELECTRIC POWER CO INC