CN205690737U - Indoor pool heating system - Google Patents
Indoor pool heating system Download PDFInfo
- Publication number
- CN205690737U CN205690737U CN201620477399.7U CN201620477399U CN205690737U CN 205690737 U CN205690737 U CN 205690737U CN 201620477399 U CN201620477399 U CN 201620477399U CN 205690737 U CN205690737 U CN 205690737U
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- Prior art keywords
- reservoir
- cross valve
- evaporator
- indoor
- compressor
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Abstract
The utility model discloses a kind of indoor pool heating system, this system includes compressor, gas-liquid separator, cross valve I, cross valve II, cross valve III, heat exchanger, outdoor evaporator, indoor evaporator, condenser, electric expansion valve, reservoir, some check valves and is respectively arranged at the high-voltage switch gear with compressor outlet and is arranged at the low tension switch of suction port of compressor, four interfaces of cross valve I connect with compressor, cross valve II, outdoor evaporator and gas-liquid separator respectively, and the outlet of outdoor evaporator connects with the entrance of reservoir;Its excess-three interface of cross valve II connects with heat exchanger, condenser and check valve respectively, and the outlet of check valve connects with indoor evaporator and gas-liquid separator respectively, and heat exchanger, condenser all connect with reservoir with indoor evaporator;One interface of cross valve III is for closing mouth, and its excess-three interface connects with outdoor evaporator, indoor evaporator, reservoir respectively;Dehumidifying is realized while realizing swimming pool heating.
Description
Technical field
This utility model relates to a kind of heating system, particularly relates to a kind of indoor pool heating system.
Background technology
Along with improving constantly of people's living standard, people do not require nothing more than the place that can swim, the environment to swimming
Higher requirement is proposed.For a long time, how controlling the temperature and humidity of air in natatorium is all a difficult problem.Indoor pool
Surface water constantly evaporates, and causes indoor air relative humidity deviation water content to be continuously increased, and the air of high relative humidity is easily to building
Building thing to cause damage, it can make building steel structure corrosion, body of wall moldy metamorphism, have a strong impact on building attractive in appearance with use
Life-span.Indoor relative humidity affects the comfortable and healthy of the mankind, proves through scientific research, and air humidity is not 40% ~ 65%
In the range of, virus, antibacterial grow with regard to as easy as rolling off a log.If people rests in this environment for a long time, it is easy to cause respiratory tract to be asked
Topic.Past always takes to increase ventilation number, and the way supplementing a large amount of fresh airs improves air quality in shop.But it is big
The ventilation of amount, take away is not only substantial amounts of water vapour, has also taken away a large amount of heat energy contained in water vapour.In order to solve
Heating and the problem of dehumidifying, people have developed heater and dehumidifier.
Conventional Swimming pool heater is a kind of electric energy that consumes, and the energy in absorption air is converted to be several times as much as the heat of electric energy
Can, carry out a kind of equipment of the heating of the water to swimming pool.In work, low temperature swimming-pool water is in the circular treatment through swimming pool filter plant
After, under the pressure effect of water pump, entering Swimming pool heater by pipeline, the swimming-pool water of low temperature is heated by Swimming pool heater
Becoming of a relatively high swimming-pool water, so circulation is carried out, until swimming-pool water is heated to the heating-up temperature set, last natatorium heating system
Device is automatically detecting swimming-pool water to after design temperature, and Swimming pool heater is out of service, meets the temperature that swimming-pool water sets.
Existing swimming pool heating system is all simple function unit with swimming pool dehumidifying unit, it is desirable to reach swimming pool heated at constant temperature,
When reaching effect on moisture extraction again, have only two platform independent units run simultaneously could realize heating and dehumidifying, the most not only make
Becoming purchase cost to increase, mounting cost increases;And owing to the unit function of two platform independent can not combine, it is impossible to enough realize cold
Reclaim, increase the consumption of energy, add use cost and be unfavorable for environmental protection.
Utility model content
The purpose of this utility model is to provide a kind of swimming pool that can carry out to heat the indoor swimming that can realize again swimming pool dehumidifying
Pond heating system.
The utility model discloses a kind of indoor pool heating system, this system includes compressor, gas-liquid separator, four-way
Valve I, cross valve II, cross valve III, heat exchanger, outdoor evaporator, indoor evaporator, condenser, electric expansion valve, reservoir,
Some check valves and be respectively arranged at the high-voltage switch gear with compressor outlet and be arranged at the low tension switch of suction port of compressor, four
Four interfaces of logical valve I connect with compressor, cross valve II, outdoor evaporator and gas-liquid separator respectively, outdoor evaporator
Outlet connects with the entrance of reservoir;Its excess-three interface of cross valve II connects with heat exchanger, condenser and check valve respectively,
The outlet of check valve connects with indoor evaporator and gas-liquid separator respectively, heat exchanger, condenser and indoor evaporator all with storage
Liquid device connects;One interface of cross valve III for close mouth, its excess-three interface respectively with outdoor evaporator, indoor evaporator,
Reservoir connects;In system connectivity pipeline from cross valve I to gas-liquid separator, from outdoor evaporator to reservoir, condenser
To reservoir, from indoor evaporator to reservoir, from heat exchanger to reservoir, from cross valve III to outdoor evaporator with from four-way
It is equipped with check valve on the connecting pipe in valve III to indoor evaporator direction.
As preferably, described heat exchanger is titanium big gun heat exchanger.
This utility model carry out swimming pool heating time, the loop of connection is: compressor outlet to cross valve I to cross valve II to
Heat exchanger, to reservoir, is low temperature spray liquid enthalpy gain system outside reservoir, and reservoir be exported to electric expansion valve to cross valve
III to outdoor evaporator from gas-liquid separator from compressor;Form high temperature high pressure liquid during operation in compressor, enter heat exchanger,
In swimming pool, liquid provides heat, and the high temperature high pressure liquid after heat exchange enters in reservoir;High temperature high pressure liquid enters reservoir
Form Low temperature low pressure liquid by electronic expansion valve action afterwards after cross valve III enters outdoor evaporator, form low-temp low-pressure gas
Liquid mixture enters gas-liquid separator, and the gas compensation after gas-liquid separation enters in compressor.
When this utility model carries out swimming pool heating and indoor refrigeration, the heating circuit of connection is: compressor outlet is to four-way
Valve I to cross valve, II to heat exchanger is to reservoir;Refrigerating circuit is reservoir from electric expansion valve to cross valve III from indoor steaming
Send out device from gas-liquid separator from compressor.Form high temperature high pressure liquid during operation in compressor, enter heat exchanger, liquid in swimming pool
Body provides heat, and the high temperature high pressure liquid after heat exchange enters in reservoir;High temperature high pressure liquid passes through electronics after entering reservoir
Expansion valve effect forms Low temperature low pressure liquid and enters indoor evaporator through cross valve III, completes refrigeration through indoor evaporator effect,
Low-temp low-pressure gas-liquid mixture after refrigeration enters gas-liquid separator, and the gas compensation after gas-liquid separation enters in compressor.
This utility model carry out swimming pool dehumidifying time, the loop of connection is: compressor outlet to cross valve I to cross valve II to
Condenser is to reservoir, and the outlet of reservoir is sequentially communicated electric expansion valve, cross valve III, indoor evaporator, gas-liquid separator
And compressor, form high temperature high pressure liquid during operation in compressor, enter condenser, complete dehumidifying.
When this utility model carries out swimming pool indoor heating, compressor produces high temperature high pressure liquid, and high temperature high pressure liquid is being
In system, the loop of circulation is: compressor outlet is to cross valve I to four-way II condenser to reservoir, the outlet of reservoir and electronics
Expansion apparatus connects, and high temperature high pressure liquid is converted into Low temperature low pressure liquid by electronic expansion device, and Low temperature low pressure liquid enters outdoor steaming
Send out device and enter gas-liquid separator entrance compressor.
Visible, this utility model can carry out swimming pool heating can realize again swimming pool dehumidifying, it is achieved energy while swimming pool heating
Enough utilize the load that swimming pool heats, carry out cold recovery, dehumidify simultaneously, at air outlet, be equipped with air conditioner electric heating, it is ensured that
Room air can be dehumidified when one side swimming pool heats, and do not reduce indoor environment temperature by unit.Reduce
Purchase cost, mounting cost, use cost, reduce energy consumption, meets the needs of environmental protection.
Accompanying drawing explanation
Fig. 1 is the layout schematic diagram of one preferred embodiment of this utility model.
Fig. 2 be the present embodiment carry out swimming pool heating time cold-producing medium move towards schematic diagram.
Fig. 3 be the present embodiment when carrying out swimming pool heating and indoor refrigeration simultaneously cold-producing medium move towards schematic diagram.
Fig. 4 be the present embodiment carry out swimming pool dehumidifying time cold-producing medium move towards schematic diagram.
Fig. 5 be the present embodiment carry out cold-producing medium when swimming pool heats move towards schematic diagram.
A compressor, B gas-liquid separator, C cross valve I, D cross valve II, E cross valve III, F heat exchanger,
G outdoor evaporator, H indoor evaporator, I condenser, J electric expansion valve, K reservoir, L check valve, M are high
Compress switch, N low tension switch.
Detailed description of the invention
As it is shown in figure 1, this indoor pool heating system that present embodiment discloses, including compressor A, gas-liquid separator
B, cross valve I C, cross valve II D, cross valve III E, heat exchanger F, outdoor evaporator G, indoor evaporator H, condenser I, electronics are swollen
Swollen valve J, reservoir K, some check valve L and respectively at compressor A connection high-voltage switch gear M and low tension switch N, cross valve I C
Four interfaces connect with compressor A, cross valve II D, outdoor evaporator G and gas-liquid separator B respectively, outdoor evaporator G's
Outlet connects with the entrance of reservoir K;Its excess-three interface of cross valve II D respectively with heat exchanger F, condenser I and check valve L
Connection, the outlet of check valve L connects with indoor evaporator H and gas-liquid separator B respectively, heat exchanger F, condenser I and indoor steaming
Send out device H all to connect with reservoir K;One interface of cross valve III E for close mouth, its excess-three interface respectively with outdoor evaporator
G, indoor evaporator H, reservoir K connect;In system connectivity pipeline from cross valve I C to gas-liquid separator B, from outdoor evaporator G
To reservoir K, condenser I to reservoir K, from indoor evaporator H to reservoir K, from heat exchanger F to reservoir K, from four-way
Valve III E to outdoor evaporator G and be equipped with check valve L on the connecting pipe of cross valve III E to indoor evaporator H direction.
As in figure 2 it is shown, the loop of connection is when the present embodiment carries out swimming pool heating: compressor outlet is to cross valve I to four
Logical valve II to heat exchanger, to reservoir, is low temperature spray liquid enthalpy gain system outside reservoir, and reservoir be exported to electric expansion valve
To cross valve III to outdoor evaporator from gas-liquid separator from compressor;Form high temperature high pressure liquid during operation in compressor, enter
Entering heat exchanger, in swimming pool, liquid provides heat, and the high temperature high pressure liquid after heat exchange enters in reservoir;High temperature high pressure liquid is entered
Form Low temperature low pressure liquid by electronic expansion valve action after entering reservoir and formed low after cross valve III enters outdoor evaporator
Temperature low-pressure gas-liquid mixture enters gas-liquid separator, and the gas compensation after gas-liquid separation enters in compressor.
During as it is shown on figure 3, the present embodiment carries out swimming pool heating and indoor refrigeration, the heating circuit of connection is: compressor goes out
Mouth is to cross valve I to cross valve, II to heat exchanger to reservoir;Refrigerating circuit be reservoir from electric expansion valve to cross valve III
From indoor evaporator from gas-liquid separator from compressor.Form high temperature high pressure liquid during operation in compressor, enter heat exchanger, to
In swimming pool, liquid provides heat, and the high temperature high pressure liquid after heat exchange enters in reservoir;After high temperature high pressure liquid enters reservoir
Form Low temperature low pressure liquid by electronic expansion valve action and enter indoor evaporator through cross valve III, be finished through indoor evaporator
Becoming refrigeration, the low-temp low-pressure gas-liquid mixture after refrigeration enters gas-liquid separator, and the gas compensation after gas-liquid separation enters compressor
In.
As shown in Figure 4, when the present embodiment carries out swimming pool dehumidifying, the loop of connection is: compressor outlet is to cross valve I to four
Logical valve II to condenser is to reservoir, and the outlet of reservoir is sequentially communicated electric expansion valve, cross valve III, indoor evaporator, gas
Liquid/gas separator and compressor, form high temperature high pressure liquid, enter condenser, complete dehumidifying in compressor during operation.
During as it is shown in figure 5, the present embodiment carries out swimming pool indoor heating, compressor produces high temperature high pressure liquid, High Temperature High Pressure
The loop that liquid circulates in system is: compressor outlet is to cross valve I to four-way II condenser to reservoir, going out of reservoir
Mouth connects with electronic expansion device, and high temperature high pressure liquid is converted into Low temperature low pressure liquid by electronic expansion device, and Low temperature low pressure liquid enters
Enter outdoor evaporator and enter gas-liquid separator entrance compressor.
Visible, the present embodiment can carry out swimming pool heating can realize again swimming pool dehumidifying, it is achieved can while swimming pool heating
Utilize the load that swimming pool heats, carry out cold recovery, dehumidify simultaneously, at air outlet, be equipped with air conditioner electric heating, it is ensured that at machine
Room air can be dehumidified when one side swimming pool heats, and do not reduce indoor environment temperature by group.Reduce and adopt
Purchase cost, mounting cost, use cost, reduce energy consumption, meet the needs of environmental protection.
Claims (2)
1. an indoor pool heating system, it is characterised in that: this system includes compressor, gas-liquid separator, cross valve I, four
Logical valve II, cross valve III, heat exchanger, outdoor evaporator, indoor evaporator, condenser, electric expansion valve, reservoir, Ruo Gandan
To valve and be respectively arranged at the high-voltage switch gear with compressor outlet and be arranged at the low tension switch of suction port of compressor, cross valve I
Four interfaces connect with compressor, cross valve II, outdoor evaporator and gas-liquid separator respectively, the outlet of outdoor evaporator with
The entrance connection of reservoir;Its excess-three interface of cross valve II connects with heat exchanger, condenser and check valve respectively, check valve
Outlet connect with indoor evaporator and gas-liquid separator respectively, heat exchanger, condenser and indoor evaporator are all with reservoir even
Logical;One interface of cross valve III for close mouth, its excess-three interface respectively with outdoor evaporator, indoor evaporator, reservoir
Connection;In system connectivity pipeline from cross valve I to gas-liquid separator, from outdoor evaporator to reservoir, condenser to liquid storage
Device, from indoor evaporator to reservoir, from heat exchanger to reservoir, from cross valve III to outdoor evaporator and from cross valve III to
It is equipped with check valve on the connecting pipe in indoor evaporator direction.
Indoor pool heating system the most according to claim 1, it is characterised in that: described heat exchanger is titanium big gun heat exchanger.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620477399.7U CN205690737U (en) | 2016-05-24 | 2016-05-24 | Indoor pool heating system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620477399.7U CN205690737U (en) | 2016-05-24 | 2016-05-24 | Indoor pool heating system |
Publications (1)
Publication Number | Publication Date |
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CN205690737U true CN205690737U (en) | 2016-11-16 |
Family
ID=57262785
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620477399.7U Expired - Fee Related CN205690737U (en) | 2016-05-24 | 2016-05-24 | Indoor pool heating system |
Country Status (1)
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CN (1) | CN205690737U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106705479A (en) * | 2016-12-20 | 2017-05-24 | 上海湿腾电器有限公司 | Anti-haze heat pump capable of realizing constant-temperature dehumidification and total heat recovery |
CN114427759A (en) * | 2020-10-29 | 2022-05-03 | 广东爱克节能设备有限公司 | Multifunctional swimming pool heat pump dehumidification constant temperature system |
-
2016
- 2016-05-24 CN CN201620477399.7U patent/CN205690737U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106705479A (en) * | 2016-12-20 | 2017-05-24 | 上海湿腾电器有限公司 | Anti-haze heat pump capable of realizing constant-temperature dehumidification and total heat recovery |
CN106705479B (en) * | 2016-12-20 | 2019-03-26 | 上海湿腾电器有限公司 | A kind of anti-haze heat pump of constant temperature dehumidification total heat recovery |
CN114427759A (en) * | 2020-10-29 | 2022-05-03 | 广东爱克节能设备有限公司 | Multifunctional swimming pool heat pump dehumidification constant temperature system |
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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: 20161116 Termination date: 20210524 |