CN204176953U - There is the cold liquid machine of the two heat radiation of two condensation - Google Patents

There is the cold liquid machine of the two heat radiation of two condensation Download PDF

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Publication number
CN204176953U
CN204176953U CN201420602779.XU CN201420602779U CN204176953U CN 204176953 U CN204176953 U CN 204176953U CN 201420602779 U CN201420602779 U CN 201420602779U CN 204176953 U CN204176953 U CN 204176953U
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China
Prior art keywords
condensation
valve
radiator
condenser
cooling
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Withdrawn - After Issue
Application number
CN201420602779.XU
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Chinese (zh)
Inventor
王伟
汪长江
赵贝
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Hefei Swan Refrigeration Technology Co Ltd
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Hefei Swan Refrigeration Technology Co Ltd
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Abstract

The utility model discloses a kind of cold liquid machine with the two heat radiation of two condensation, on routine cold liquid machine (there is the air blast cooling of compression mechanism cold-peace double mode) basis, set up a kind of specific cycle branch to realize specific cycle, form the two radiator structure of two condensation, realize condensation heat release and air blast cooling function, specific cycle is by three kinds of circulation actings in conjunction, i.e. compression mechanism SAPMAC method+cooling fluid kind of refrigeration cycle+cooling fluid heat radiation circulation, work in this state, can realize being regulated by compression mechanism cold-peace air blast cooling two ore control for liquid temp, environment temperature can be avoided low, only still cannot meet the risk of temperature control requirement by air blast cooling pattern during temperature control wide ranges, or the condensation that only may occur by compressor cooling pattern is not mated or returns the problems such as liquid is not enough, thus strengthen the adaptive capacity to environment of unit.

Description

There is the cold liquid machine of the two heat radiation of two condensation
Technical field
The utility model relates to cold liquid machine field, specifically a kind of cold liquid machine with the two heat radiation of two condensation.
Background technology
The main purpose of cold liquid machine is for cooled object provides the circulation refrigerating medium of uniform temperature, flow and pressure requirements, i.e. cooling fluid.Along with some high powered radars, laser, rack, medical treatment and printing equipment are fast-developing in recent years, the requirement of cold liquid machine is also got more and more.As, people more and more pay close attention to the performance of product in energy-conservation, efficient, reliability and environmental suitability etc.Especially to the cold liquid machine of important use, comprise the cold liquid machine that military equipment is supporting, in the face of field rugged environment climate change, how to improve the quality of product, need more counter-measure.
For meeting the large span working environment of-40 DEG C ~ 50 DEG C; cold liquid machine can adopt the double mode design of compression mechanism cold-peace air blast cooling usually; cooling is provided by compressor cooling pattern to load in summer; cooling is provided to load in the winter time by air blast cooling pattern; and at transition season (as environment temperature-15 DEG C ~ 25 DEG C) for ensureing for liquid temp; often first open air blast cooling pattern, when air blast cooling pattern do not reach require time, then be switched to compressor cooling pattern.Such as, environment temperature changes to 10 DEG C from-15 DEG C, feed flow temperature requirement 15 DEG C, returning liquid temp is 20 DEG C, and bring into operation air blast cooling pattern, is subject to the restrictions such as product structure due to heat-sinking capability, environment temperature no longer meets feed flow requirement to 5 DEG C, and has to be switched to compressor cooling pattern.Now, can deposit not enough both ways: 1. return liquid temp still higher than environment temperature 10 DEG C ~ 15 DEG C, fail to make full use of air blast cooling pattern embodied energy-conservation; 2. during compression mechanism SAPMAC method relative ambient temperature 5 DEG C, bring condensation temperature too low, the negative effect of some running aspects can be caused on the contrary.This situation above, common at transition season (as environment temperature-15 DEG C ~ 25 DEG C).
Utility model content
The purpose of this utility model is the deficiency that will solve prior art existence, provides a kind of cold liquid machine with the two heat radiation of two condensation of compact conformation, effectively can improve the running status of product in transition season (as environment temperature-15 DEG C ~ 25 DEG C).
In order to reach above-mentioned effect, the utility model is on routine cold liquid machine basis, and set up a kind of specific cycle branch to realize specific cycle, concrete technical scheme is as follows:
A kind of cold liquid machine with the two heat radiation of two condensation, include compressor, water tank, the pump housing, first group of condensation cooling mechanism and second group of condensation cooling mechanism, it is characterized in that: first group of described condensation cooling mechanism includes the first blower fan, first condenser and the first radiator, second group of described condensation cooling mechanism includes the second blower fan, second condenser and the second radiator, two branch roads are divided into from the outlet introduction pipe of described compressor after connecting the first check valve, one of them branch road connects successively the first condenser and the first magnetic valve, another branch road connects the second condenser, the end of two branch roads is in parallel and connects reservoir successively again, device for drying and filtering, the import of described compressor is accessed after expansion valve and plate type heat exchanger, form the compressor cooling circulatory system, access the water inlet of described water tank after connecting the described pump housing, electric T-shaped valve, control valve, plate type heat exchanger, knockout, load and liquid trap successively from the delivery port introduction pipe of described water tank, form cooling fluid cooling cycle system, two branch roads are divided into after the delivery port introduction pipe of water tank also connects the described pump housing and electric T-shaped valve successively, one of them branch road connects successively the second check valve and the first radiator, another branch road connects successively the second radiator and the 3rd check valve, the end of two branch roads accesses the water inlet of described water tank after being in parallel and connecting the 4th check valve, knockout, load and liquid trap successively again, form cooling fluid heat dissipation circulating system, also include the second magnetic valve, described first radiator arrival end walk abreast access described second magnetic valve the port of export and described in the port of export of two check valves, the other arrival end being associated in described electric T-shaped valve of arrival end of described second magnetic valve, the arrival end of described second check valve is connected with a port of export of described electric T-shaped valve.
The described cold liquid machine with the two heat radiation of two condensation, it is characterized in that: the port of export of described first condenser is connected with the arrival end of described first magnetic valve, the port of export of described second radiator is connected with the arrival end of described 3rd check valve, after the described port of export of the 3rd check valve and the port of export of the first radiator converge, then lead to described knockout through described 4th check valve.
The described cold liquid machine with the two heat radiation of two condensation, is characterized in that: described first magnetic valve is in normally open, can be electromagnetic valve of gas circuit, can be arranged on the arrival end of described first condenser.
The described cold liquid machine with the two heat radiation of two condensation, is characterized in that: described second magnetic valve is in normally off, can be the electric control valve of regulatory function.
First and second group condensation cooling mechanism is parallel form, forms the two radiator structure of two condensation, realizes respective condensation heat release and air blast cooling function; Often organize condensation heat radiation combination to be made up of respective condenser, radiator and blower fan etc. again, and require former integral condenser and radiator respectively to split into two parts structure according to designed total condensation heat release and total heat dissipation capacity, usual employing is divided equally and identical structural design, but does not get rid of asymmetric design; The relative condenser of radiator should first be passed through by fan airflow.
For increasing the reliability of condensation heat radiation combination, fan airflow should be made first through radiator, after condenser, so at low ambient conditions, when cold liquid machine switches to compressor cooling pattern by air blast cooling pattern, corresponding condenser has obtained good overall preheating, is convenient to the startup of compressor.Condenser often in group and radiator are finned heat exchanger, version can be made two relatively independent parts, also can be made of one shared one group of fin, only be separated on pipeline; The windward side of design should keep identical, and guarantee that wind path is unobstructed, windage is even.
Specific cycle of the present utility model is by three kinds of circulation actings in conjunction, i.e. compression mechanism SAPMAC method+cooling fluid kind of refrigeration cycle+cooling fluid heat radiation circulation, when transition season (as environment temperature-15 DEG C ~ 25 DEG C) is with this operation, first group of condensation cooling mechanism is in air blast cooling, second group of condensation cooling mechanism is in condensation heat release, thus realizes being regulated by compression mechanism cold-peace air blast cooling two ore control for liquid temp.
Compression mechanism SAPMAC method generally by compressor → condenser → reservoir → device for drying and filtering → expansion valve → plate type heat exchanger → compressor, forms a circulatory system.Can be not limited thereto, as plate type heat exchanger can change double pipe heat exchanger into, increase gas-liquid separator etc.
Cooling fluid kind of refrigeration cycle generally by the water tank → pump housing → electric T-shaped valve → control valve → plate type heat exchanger → knockout → load → liquid trap → water tank, forms a circulatory system.This can not be limit, as increased filter, flowmeter etc.
Cooling fluid heat radiation circulation is general by the water tank → pump housing → electric T-shaped valve → radiator → knockout → load → liquid trap → water tank, forms a circulatory system.It is, by electric T-shaped valve, cooling fluid is switched to radiator, and all the other are with cooling fluid kind of refrigeration cycle.
Conventional cold liquid facility have compression mechanism cold-peace air blast cooling pattern, namely provide cooling by the mode of compression mechanism SAPMAC method+cooling fluid kind of refrigeration cycle to load summer; Winter provides air blast cooling to cool by cooling fluid heat radiation circulation to load; Electric T-shaped valve is passed through in switching between pattern.
In transition season (as environment temperature-15 DEG C ~ 25 DEG C), open this specific cycle.Compressor cooling due to environment temperature lower, do not need double-condenser during high temperature, namely cut off the first condenser in first group of condensation cooling mechanism by the first magnetic valve (refrigerant side), and with the second condenser in second group of condensation cooling mechanism, make compressor cold operation more reliable.The utility model is not got rid of because needs compressor can partial relief, or adopts converter technique, or adopts the situations such as fan speed regulation, makes system more perfect.Simultaneously, cooling fluid kind of refrigeration cycle normally works (electric T-shaped valve is in cooling fluid kind of refrigeration cycle state), and the second magnetic valve (cooling fluid side) joined on side is opened, and under the cooperation of the second check valve, make cooling fluid can only flow through the first radiator in first group of condensation cooling mechanism, make the direct air blast cooling of fractional load heat, to reduce power consumption, improve overall efficiency.
The utility model is due on routine cold liquid machine basis; set up a kind of specific cycle branch; condensation heat radiation is split into two parts; and add the first magnetic valve (refrigerant side), the second magnetic valve (cooling fluid side) and first, second, third and fourth check valve; thus realize a kind of new design; be particularly suitable for transition season (as environment temperature-15 DEG C ~ 25 DEG C) use, and this temperature section at home annual accounting be expected more than 50%, mean that this mode often can be enabled.This, concerning the cold liquid machine of the requirement harshness in space, has good market using value.
The beneficial effects of the utility model:
1, the cold liquid machine of the utility model runs at transition season, can more give full play to air blast cooling effect, makes complete machine obtain higher energy-saving effect.
2, the utility model is when compressor cold operation is freezed, and condensation heat release is more reasonable, and system cloud gray model is safer, can give full play to the refrigeration efficiency of unit.
3, the utility model is by the rational deployment of condenser and radiator, and under meeting cold environmental conditions, when cold liquid machine switches to compressor cooling pattern by air blast cooling pattern, condenser has obtained good overall preheating.Otherwise pattern switching is not affected again.
4, the two condensation of the utility model employing, two heat radiation form two groups of condensation heat radiation combinations, have both remained original compressor cooling, air blast cooling pattern, and have turn increased a kind of new mode of operation.
5, the utility model controls simple, convenient, and reliable, is easy to realize modular design.
Accompanying drawing explanation
Fig. 1 is the utility model structural representation.
Detailed description of the invention
See Fig. 1, a kind of cold liquid machine with the two heat radiation of two condensation, include compressor 1, water tank 11, the pump housing 12, first group of condensation cooling mechanism 3 and second group of condensation cooling mechanism 5, first group of condensation cooling mechanism 3 includes the first blower fan 3.1, first condenser 3.2 and the first radiator 3.3, second group of condensation cooling mechanism 5 includes the second blower fan 5.1, second condenser 5.2 and the second radiator 5.3, two branch roads are divided into from the outlet introduction pipe of compressor 1 after connecting the first check valve 2, one of them branch road connects successively the first condenser 3.2 and the first magnetic valve 4, another branch road connects the second condenser 5.2, the end of two branch roads is in parallel and connects reservoir 6 successively again, device for drying and filtering 7, the import of expansion valve 8 and plate type heat exchanger 9 rear access compressor 1, form the compressor cooling circulatory system, after also connecting the pump housing 12, electric T-shaped valve 13, control valve 17, plate type heat exchanger 9, knockout 19, load 10 and liquid trap 20 successively from the delivery port introduction pipe of water tank 11, the water inlet of access water tank 11, forms cooling fluid cooling cycle system, two branch roads are divided into after the delivery port introduction pipe of water tank 11 also connects the pump housing 12 and electric T-shaped valve 13 successively, one of them branch road connects successively the second check valve 15 and the first radiator 3.3, another branch road connects successively the second radiator 5.3 and the 3rd check valve 16, the end of two branch roads accesses the water inlet of water tank 11 after being in parallel and connecting the 4th check valve 18, knockout 19, load 10 and liquid trap 20 successively again, form cooling fluid heat dissipation circulating system, also include the second magnetic valve 14, first radiator 3.3 arrival end walks abreast the port of export of access second magnetic valve 14 and the port of export of the second check valve 15, the other arrival end being associated in electric T-shaped valve 13 of arrival end of the second magnetic valve 14, the arrival end of the second check valve 15 is connected with a port of export of electric T-shaped valve 13.
In the utility model, the port of export of the first condenser 3.2 is connected with the arrival end of the first magnetic valve 4, the port of export of the second radiator 5.3 is connected with the arrival end of the 3rd check valve 16, after the port of export of the 3rd check valve 16 and the port of export of the first radiator 3.3 converge, then lead to knockout 19 through the 4th check valve 18.
First magnetic valve 4 is in normally open, can be electromagnetic valve of gas circuit, can be arranged on the arrival end of the first condenser 3.2.
Second magnetic valve 14 is in normally off, can be the electric control valve of regulatory function, can meet more temperature control methods.
Below in conjunction with accompanying drawing, the utility model is further described:
Specific cycle of the present utility model is by three kinds of circulation actings in conjunction, i.e. compression mechanism SAPMAC method+cooling fluid kind of refrigeration cycle+cooling fluid heat radiation circulation.
Compression mechanism SAPMAC method generally by compressor 1 → the first check valve 2 → condenser 3.2 → the first magnetic valve 4+ condenser 5.2 → reservoir 6 → device for drying and filtering 7 → expansion valve 8 → plate type heat exchanger 9 → compressor 1, forms a circulatory system (can not limit therewith).
Cooling fluid kind of refrigeration cycle generally by water tank 11 → pump housing 12 → electric T-shaped valve 13 → control valve 17 → plate type heat exchanger 9 → knockout 19 → load 10 → liquid trap 20 → water tank 11, forms a circulatory system (can not limit therewith).
Cooling fluid heat radiation circulation is by water tank 11 → pump housing 12 → electric T-shaped valve 13 → the second check valve 15 → radiator 3.3+ radiator the 5.3 → three check valve the 16 → four check valve 18 → knockout 19 → load 10 → liquid trap 20 → water tank 11, forms a circulatory system (can not limit therewith).
Under specific cycle state: electric T-shaped valve 13 operating position is in cooling fluid kind of refrigeration cycle state; Second magnetic valve 14 is opened, and part cooling fluid flows into the first radiator 3.3, and under the effect of second and third check valve 15,16, cooling fluid cannot flow into the second radiator 5.3; First magnetic valve 4 cuts out simultaneously, cuts off the first condenser 3.2, the high-pressure hot gas that compressor 1 is produced condensation heat release in the second condenser 5.2.Such guarantee compression refrigeration and air blast cooling pattern simultaneously and deposit, realize this special pattern.
First group of condensation cooling mechanism 3 and second group of condensation cooling mechanism 5 adopt parallel form, can complete condensation heat radiation and air blast cooling function separately; First group of condensation cooling mechanism 3 is made up of the first blower fan 3.1, first condenser 3.2 and the first radiator 3.3 etc., and second group of condensation cooling mechanism 5 is made up of the second blower fan 5.1, second condenser 5.2 and the second radiator 5.3 etc.; First condenser 3.2 and the second condenser 5.2 can meet total condensation exotherm requirement altogether, and the first radiator 3.3 and the second radiator 5.3 can meet total forced heat radiation requirement altogether; Usual two groups of employings are divided equally and identical structural design, but do not get rid of asymmetric design; First blower fan 3.1 and the second blower fan 5.1 adopt same model usually, so that modularized design, its quantity is determined with Air Quantity Required; From airflow direction, air-flow should be made first to flow through the first radiator 3.3 or the second radiator 5.3, flow through cold first condenser 3.2 or the second condenser 5.2 again, so at low ambient conditions, when cold liquid machine switches to compressor cooling pattern by air blast cooling pattern, corresponding condenser has obtained good overall preheating, is convenient to the startup of compressor; Coexist condenser in a group and radiator is finned heat exchanger, version can be made two relatively independent parts, also can be made of one shared one group of fin, only be separated on pipeline; The windward side of design should keep identical, and guarantee that wind path is unobstructed, windage is even.
Above embodiment is only preferred embodiment of the present utility model; but the utility model is not limited to above-mentioned embodiment; for persons skilled in the art; to any apparent change that it does under the prerequisite not deviating from the utility model principle, all belong to the protection domain of design of the present utility model and claims.

Claims (4)

1. one kind has the cold liquid machine of the two heat radiation of two condensation, include compressor, water tank, the pump housing, first group of condensation cooling mechanism and second group of condensation cooling mechanism, it is characterized in that: first group of described condensation cooling mechanism includes the first blower fan, first condenser and the first radiator, second group of described condensation cooling mechanism includes the second blower fan, second condenser and the second radiator, two branch roads are divided into from the outlet introduction pipe of described compressor after connecting the first check valve, one of them branch road connects successively the first condenser and the first magnetic valve, another branch road connects the second condenser, the end of two branch roads is in parallel and connects reservoir successively again, device for drying and filtering, the import of described compressor is accessed after expansion valve and plate type heat exchanger, form the compressor cooling circulatory system, access the water inlet of described water tank after connecting the described pump housing, electric T-shaped valve, control valve, plate type heat exchanger, knockout, load and liquid trap successively from the delivery port introduction pipe of described water tank, form cooling fluid cooling cycle system, two branch roads are divided into after the delivery port introduction pipe of water tank also connects the described pump housing and electric T-shaped valve successively, one of them branch road connects successively the second check valve and the first radiator, another branch road connects successively the second radiator and the 3rd check valve, the end of two branch roads accesses the water inlet of described water tank after being in parallel and connecting the 4th check valve, knockout, load and liquid trap successively again, form cooling fluid heat dissipation circulating system, also include the second magnetic valve, described first radiator arrival end walk abreast access described second magnetic valve the port of export and described in the port of export of two check valves, the other arrival end being associated in described electric T-shaped valve of arrival end of described second magnetic valve, the arrival end of described second check valve is connected with a port of export of described electric T-shaped valve.
2. the cold liquid machine with the two heat radiation of two condensation according to claim 1, it is characterized in that: the port of export of described first condenser is connected with the arrival end of described first magnetic valve, the port of export of described second radiator is connected with the arrival end of described 3rd check valve, after the described port of export of the 3rd check valve and the port of export of the first radiator converge, then lead to described knockout through described 4th check valve.
3. the cold liquid machine with the two heat radiation of two condensation according to claim 1, is characterized in that: described first magnetic valve is in normally open, can be electromagnetic valve of gas circuit, can be arranged on the arrival end of described first condenser.
4. the cold liquid machine with the two heat radiation of two condensation according to claim 1, is characterized in that: described second magnetic valve is in normally off, can be the electric control valve of regulatory function.
CN201420602779.XU 2014-10-17 2014-10-17 There is the cold liquid machine of the two heat radiation of two condensation Withdrawn - After Issue CN204176953U (en)

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Application Number Priority Date Filing Date Title
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104315739A (en) * 2014-10-17 2015-01-28 合肥天鹅制冷科技有限公司 Liquid cooling machine with double condensation and double heat dissipation
CN112303761A (en) * 2020-10-15 2021-02-02 珠海格力电器股份有限公司 Fluorine pump air conditioning system for adjusting central heating temperature and control method

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104315739A (en) * 2014-10-17 2015-01-28 合肥天鹅制冷科技有限公司 Liquid cooling machine with double condensation and double heat dissipation
CN112303761A (en) * 2020-10-15 2021-02-02 珠海格力电器股份有限公司 Fluorine pump air conditioning system for adjusting central heating temperature and control method

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AV01 Patent right actively abandoned

Granted publication date: 20150225

Effective date of abandoning: 20160928

C25 Abandonment of patent right or utility model to avoid double patenting