CN203533842U - Air conditioner condensed water comprehensive utilization device - Google Patents
Air conditioner condensed water comprehensive utilization device Download PDFInfo
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- CN203533842U CN203533842U CN201320721209.8U CN201320721209U CN203533842U CN 203533842 U CN203533842 U CN 203533842U CN 201320721209 U CN201320721209 U CN 201320721209U CN 203533842 U CN203533842 U CN 203533842U
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- pipe
- condensed water
- condensate water
- inlet pipe
- cold
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Abstract
The utility model discloses an air conditioner condensed water comprehensive utilization device and belongs to the technical field of refrigeration equipment. The air conditioner condensed water comprehensive utilization device comprises a condensed water inlet pipe, a condensed water outlet pipe, a refrigerant inlet pipe, a refrigerant outlet pipe and a double-pipe heat exchanger, wherein the device is arranged vertically; the condensed water inlet pipe is located at the upper end; the condensed water outlet pipe is located at the lower end; the refrigerant inlet pipe is located at one end of the condensed water outlet pipe; the refrigerant outlet pipe is located at one end of the condensed water inlet pipe; the refrigerant inlet pipe is connected to the refrigerant outlet pipe through the inner cavity of the double-pipe heat exchanger; the condensed water inlet pipe is connected to the condensed water outlet pipe through the outer cavity of the double-pipe heat exchanger. The air conditioner condensed water comprehensive utilization device improves efficiency of a refrigeration system by utilizing the cold amount of the condensed water and solves the environment problem caused by direct discharge of the condensed water.
Description
Technical field:
The utility model belongs to refrigeration equipment technical field, is specifically related to a kind of condensed water comprehensive utilization device.
Background technology:
Refrigeration plant is a kind of common apparatus that cold is provided at present, in mankind's activity places such as communications and transportation, business and industry, has a wide range of applications, and when it moves in refrigeration or except wet cooling condition, at evaporator surface, can produce temperature compared with low coagulation water.As shown in Figure 1 be a conventional refrigeration system, this system mainly comprises with lower member, evaporimeter 6, compressor 5, condenser fan 4, condenser 3, throttling arrangement 2 and evaporator surface condensate-scavenging installation 1.
When unit operation is when freezing or remove wet cooling condition, the high temperature of being discharged by compressor 5, higher pressure refrigerant gas, through refrigerant line 7, enter condenser 3, under the effect of condenser fan 4, carry out becoming middle temperature, high pressure refrigerant liquid after heat exchange with surrounding air, through refrigerant line 7, throttling in throttling arrangement 2, enters evaporimeter 6 after becoming the gas-liquid two-phase state of low temperature, low pressure.In evaporimeter 6, low-temperature refrigerant and air carry out forced heat-exchanging, after cold-producing medium heat absorption, by pipeline 7, are back to compressor 5, at compressor 5, compress, and again become the gas of HTHP.Thus, form a complete kind of refrigeration cycle.
Usually, during in refrigeration with except wet cooling condition operation, the refrigerant temperature that enters evaporimeter 6 is lower, and evaporimeter 6 wall surface temperatures, lower than surrounding air dew-point temperature, can form condensate water continuously at evaporimeter 6 walls.The mode generally adopting is at present that the condensate water that evaporimeter 6 is produced, by condensate-scavenging installation 1, is generally comprised of drip tray and drainpipe, is directly discharged to outdoor.This processing mode, the cold that condensate water has on the one hand is not utilized effectively, and directly discharge also can produce adverse influence to environment around on the other hand.
In view of the above problems, need to a kind ofly can fully utilize condensed water device, can utilize on the one hand condensate water cold to improve the efficiency of refrigeration system, also can solve on the other hand the condensate water environmental problem that directly discharge produces.
Summary of the invention:
The problem that the utility model exists for prior art, provides a kind of condensed water comprehensive utilization device.
A kind of condensed water comprehensive utilization device that the utility model pin provides comprises that condensate water water inlet pipe 11, condensate water outlet pipe 12, cold-producing medium enter pipe 13, cold-producing medium goes out pipe 14 and double pipe heat exchanger 15; This device is vertical to be arranged, described condensate water water inlet pipe 11 is positioned at upper end, described condensate water outlet pipe 12 is positioned at lower end, described cold-producing medium enters one end that pipe 13 is positioned at described condensate water outlet pipe 12, described cold-producing medium goes out one end that pipe 14 is positioned at described condensate water water inlet pipe 11, described double pipe heat exchanger 15 is divided into internal cavity and external cavity by its inner wall, and condensate water externally cavity flows, and cold-producing medium flows at internal cavity; Described cold-producing medium enters pipe 13 internal cavities by described double pipe heat exchanger 15 and described cold-producing medium and goes out to manage 14 and be connected, and described condensate water water inlet pipe 11 is connected with described condensate water outlet pipe 12 by the external cavity of described double pipe heat exchanger 15.
The utility model utilizes condensate water cold to improve the efficiency of refrigeration system, solves the condensate water environmental problem that directly discharge produces simultaneously.
Accompanying drawing explanation:
Fig. 1 a is the schematic diagram of the utility model the first embodiment;
Fig. 1 b is the schematic diagram of the utility model the second embodiment;
Fig. 2 is the utility model structural representation.
In figure: 1: evaporator surface condensate-scavenging installation; 2: throttling arrangement; 3: condenser; 4: condenser fan; 5: compressor; 6: evaporimeter; 7: refrigerant line; 11: condensate water water inlet pipe; 12: condensate water outlet pipe; 13: cold-producing medium enters pipe; 14: cold-producing medium goes out pipe; 15: double pipe heat exchanger.
The specific embodiment:
Below in conjunction with accompanying drawing, the utility model is done to more detailed explanation.
As shown in Figure 2, the utility model comprises that condensate water water inlet pipe 11, condensate water outlet pipe 12, cold-producing medium enter pipe 13, cold-producing medium goes out pipe 14 and double pipe heat exchanger 15; This device is vertical to be arranged, described condensate water water inlet pipe 11 is positioned at upper end, described condensate water outlet pipe 12 is positioned at lower end, described cold-producing medium enters one end that pipe 13 is positioned at described condensate water outlet pipe 12, described cold-producing medium goes out one end that pipe 14 is positioned at described condensate water water inlet pipe 11, described double pipe heat exchanger 15 is divided into internal cavity and external cavity by its inner wall, and condensate water externally cavity flows, and cold-producing medium flows at internal cavity; Described cold-producing medium enters pipe 13 internal cavities by described double pipe heat exchanger 15 and described cold-producing medium and goes out to manage 14 and be connected, and described condensate water water inlet pipe 11 is connected with described condensate water outlet pipe 12 by the external cavity of described double pipe heat exchanger 15.
When refrigeration plant is in refrigeration or when moving under wet cooling condition, the temperature on evaporimeter 6 surfaces shown in Fig. 1 is during lower than the dew-point temperature of surrounding air, on its surface, produce condensate water, after water accumulating disc is collected, condensate water water inlet pipe 11 through evaporator surface condensate-scavenging installation 1 enters in double pipe heat exchanger 15, high temperature refrigerant before the exhaust of Fig. 1 a compressor 5 or Fig. 1 b throttling enters pipe 13 by cold-producing medium and enters, condensate water and cold-producing medium carry out heat exchange by 15 liang of interchannel walls of double pipe heat exchanger, latent cold utilization of condensate water, improve the refrigeration performance of refrigeration plant.Condensate water is dived after cold part utilization, condensate water outlet pipe 12 by evaporator surface condensate-scavenging installation 1 enters on the sprayer that is arranged on outdoor condenser 3 leeward sides, condensate water forms vaporific or drops at this place, under the effect of outdoor condenser fan 4, be inhaled into outdoor heat exchanger surface, carry out heat exchange with the high temperature refrigerant of its internal flow, part is evaporated, can play the effect of enhanced heat exchange, dive and to be coldly further applied, in addition, because condensate water is evaporated, anhydrous discharge, can solve direct discharge surrounding environment is produced to adverse influence.
Claims (1)
1. a condensed water comprehensive utilization device, is characterized in that this device comprises that condensate water water inlet pipe (11), condensate water outlet pipe (12), cold-producing medium enter pipe (13), cold-producing medium goes out pipe (14) and double pipe heat exchanger (15), this device is vertical to be arranged, described condensate water water inlet pipe (11) is positioned at upper end, described condensate water outlet pipe (12) is positioned at lower end, described cold-producing medium enters one end that pipe (13) is positioned at described condensate water outlet pipe (12), described cold-producing medium goes out one end that pipe (14) is positioned at described condensate water water inlet pipe (11), described double pipe heat exchanger (15) is divided into internal cavity and external cavity by its inner wall, described cold-producing medium enters the internal cavity of pipe (13) by described double pipe heat exchanger (15) and goes out pipe (14) with described cold-producing medium and be connected, described condensate water water inlet pipe (11) is connected with described condensate water outlet pipe (12) by the external cavity of described double pipe heat exchanger (15).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320721209.8U CN203533842U (en) | 2013-11-13 | 2013-11-13 | Air conditioner condensed water comprehensive utilization device |
Applications Claiming Priority (1)
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CN201320721209.8U CN203533842U (en) | 2013-11-13 | 2013-11-13 | Air conditioner condensed water comprehensive utilization device |
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CN203533842U true CN203533842U (en) | 2014-04-09 |
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CN201320721209.8U Expired - Fee Related CN203533842U (en) | 2013-11-13 | 2013-11-13 | Air conditioner condensed water comprehensive utilization device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107726506A (en) * | 2017-11-21 | 2018-02-23 | 江永县元杰科技有限公司 | The energy-conservation quick cooling device of air-conditioning |
-
2013
- 2013-11-13 CN CN201320721209.8U patent/CN203533842U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107726506A (en) * | 2017-11-21 | 2018-02-23 | 江永县元杰科技有限公司 | The energy-conservation quick cooling device of air-conditioning |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140409 Termination date: 20161113 |