CN208832636U - Indoor temperature control system - Google Patents
Indoor temperature control system Download PDFInfo
- Publication number
- CN208832636U CN208832636U CN201821422609.8U CN201821422609U CN208832636U CN 208832636 U CN208832636 U CN 208832636U CN 201821422609 U CN201821422609 U CN 201821422609U CN 208832636 U CN208832636 U CN 208832636U
- Authority
- CN
- China
- Prior art keywords
- water
- level
- segregator
- coil pipe
- collector
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/54—Free-cooling systems
Abstract
A kind of indoor temperature control system, comprising: air source host, circulating pump, water tank, water segregator, water collector, coil pipe and fresh air module.The circulating pump is connected with the air source host;The water tank is connected with the circulating pump and air source host;The water segregator is connected with the water tank;The coil pipe has water inlet end and water outlet, and the water inlet end is connected with the water segregator, and the coil pipe includes ground coiled pipe and top surface coil pipe, and the ground coiled pipe is installed in flooring, and the top surface coil pipe is installed in indoor top surface;The water collector is connected with the water outlet, and the water collector is also connected with the water tank;The fresh air module is connect with the water segregator, and the fresh air module is also connect with the water collector.The indoor temperature control system is capable of providing the indoor environment of healthiness.
Description
Technical field
The utility model relates to home improvement arts more particularly to a kind of indoor temperature control systems.
Background technique
Refrigeration is carried out using air-conditioning and has become the indoor refrigeration modes generally used, is widely used in house and public building
In.
Air-conditioning realizes that four primary elements of refrigeration are compressor, condenser, expansion valve and evaporator.Wherein, compressor
Play compressible drive refrigerant in air conditioning coolant loop.The main function of condenser is to receive high pressure gas from compressor
Body simultaneously converts liquid for the gas.Expansion valve for realizing condensing pressure to evaporating pressure throttling, while for control system
The flow of cryogen.Evaporator utilizes liquid low temperature refrigerant evaporable feature under low pressure, and refrigerant is changed into steam, with
Absorb the heat in air.
Most of air-conditioning can realize both cooling and heating, can fast implement indoor refrigeration or heating.
But people are in air conditioner surroundings for a long time, be easy to appear dizziness, headache, loss of appetite, the infection of the upper respiratory tract,
The symptoms such as joint pain.
Utility model content
The utility model solves the problems, such as to be to provide a kind of indoor temperature control system, it is possible to provide the indoor environment of healthiness.
To solve the above problems, the utility model provides a kind of indoor temperature control system, comprising: air source host;Circulating pump,
The circulating pump is connected with the air source host;Water tank, the water tank and the circulating pump and the air source host phase
Connection;Water segregator, the water segregator are connected with the water tank;Coil pipe, the coil pipe have water inlet end and water outlet, it is described into
Water end (W.E.) is connected with the water segregator, and the coil pipe includes ground coiled pipe and top surface coil pipe, and the ground coiled pipe is installed in interior
Ground, the top surface coil pipe are installed in indoor top surface;Water collector, the water collector are connected with the water outlet, and the collection
Hydrophone is also connected with the water tank.
Optionally, the water segregator includes level-one water segregator and secondary water segregator, and the level-one water segregator is used for and water tank
Connection, the secondary water segregator is connect with the level-one water segregator, and the secondary water segregator is also connected with the water inlet end.
Optionally, the quantity of the secondary water segregator is multiple, the number of the quantity of the coil pipe and the secondary water segregator
Amount matches.
Optionally, the water collector includes level-one water collector and second level water collector, and the level-one water collector is used for and water tank
Connection, the second level water collector is connect with the level-one water collector, and the second level water collector is also connected with the water outlet.
Optionally, the quantity of the second level water collector is multiple, the number of the quantity of the coil pipe and the second level water collector
Amount matches.
Optionally, the indoor temperature control system further include: fresh air module, the fresh air module are connect with the water segregator,
And the fresh air module is also connect with the water collector.
Optionally, the fresh air module is connect with the level-one water segregator, and the fresh air module also with the level-one collection
Hydrophone connection.
Optionally, the indoor temperature control system further include: thermoelectric valve, the thermoelectric valve include the first thermoelectric valve and the second heat
Electric valve, first thermoelectric valve are set between the ground coiled pipe and the water collector, and second thermoelectric valve is set to the top
Between face pipe and the water collector.
Optionally, first thermoelectric valve is set between the ground coiled pipe and the level-one water collector.
Optionally, second thermoelectric valve is set between the top surface coil pipe and the level-one water collector
Compared with prior art, the technical solution of the utility model has the advantage that
In the technical solution of indoor temperature control system provided by the utility model, the indoor temperature control system includes air-source master
Machine, circulating pump, water tank, water segregator, coil pipe and water collector.The coil pipe includes ground coiled pipe and top surface coil pipe, described ground face
Pipe is installed in flooring, and the top surface coil pipe is installed in indoor top surface.When outdoor temperature is lower (such as in the cold winter
Season), it can be generated heat by ground coiled pipe conveying hot water using the ground coiled pipe to achieve the purpose that indoor heating, and
The temperature gradient that gradually successively decreases from flooring to indoor top surface is formed, so that giving foot warms up a cool comfort, is met
The fitness theory of doctor's " temperature foot top is cool ".It, can be by the top surface disk when outdoor temperature is higher (such as during the broiling summer)
Pipe conveys cold water, to achieve the purpose that indoor refrigeration, and forms the temperature gradient being gradually incremented by from indoor top surface to flooring,
Foot can equally be given and warm up a cool comfort.Therefore the indoor temperature control system is conducive to provide the indoor ring of healthiness
Border.
In optinal plan, the water segregator includes level-one water segregator and secondary water segregator, the level-one water segregator be used for and
Water tank connection, the secondary water segregator is connect with the level-one water segregator, and the secondary water segregator is also connected with the water inlet end.
Compared to the level-one water segregator, the secondary water segregator is closer with the coil pipe, be conducive to shorten hot water or cold water into
Enter the distance of the coil pipe.When circulating hot water in pipeline, the secondary water segregator can reduce hot water in transmission process
Thermal losses.When circulating water in pipeline, the secondary water segregator can reduce heating rate of the cold water in transmission process.
In optinal plan, the indoor temperature control system further include: fresh air module, the fresh air module and the water segregator connect
It connects, and the fresh air module is also connect with the water collector.The fresh air module utilizes the cold water or hot water conveyed in pipeline, with
Adjust the temperature for introducing indoor fresh air.The fresh air module is matched with the coil pipe, can temperature in quickly-conditioning indoor, and
And help to reduce the power consumption and operating cost of the indoor temperature control system.
In optinal plan, the indoor temperature control system further include: thermoelectric valve, the thermoelectric valve include the first thermoelectric valve and the
Two thermoelectric valves, first thermoelectric valve are set between the ground coiled pipe and the water collector, and second thermoelectric valve is set to institute
It states between top surface coil pipe and the water collector.First thermoelectric valve is for controlling the water-flow circuit for flowing through the ground coiled pipe
Connection or cut-off.Second thermoelectric valve is used to control the connection or cut-off for the water-flow circuit for flowing through the top surface coil pipe.
Water delivery situation in the top surface coil pipe and ground coiled pipe can be selected by the thermoelectric valve, help to economize on resources,
It avoids wasting.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the indoor temperature control system of utility model specific embodiment.
Specific embodiment
It is understandable to enable the above objects, features, and advantages of the utility model to become apparent, with reference to the accompanying drawing to this
The specific embodiment of utility model is described in detail.
With reference to Fig. 1, a kind of indoor temperature control system 100, comprising: air source host 110;Circulating pump 200, the circulating pump
200 are connected with the air source host 110;Water tank 300, the water tank 300 and the circulating pump 200 and the air-source master
Machine 110 is connected;Water segregator 400, the water segregator 400 are connected with the water tank 300;Coil pipe 500, the coil pipe 500 have
There are water inlet end and water outlet, the water inlet end is connected with the water segregator 400, and the coil pipe 500 includes 510 He of ground coiled pipe
Top surface coil pipe 520, the ground coiled pipe 510 are installed in flooring, and the top surface coil pipe 520 is installed in indoor top surface;It catchments
Device 600, the water collector 600 are connected with the water outlet, and the water collector 600 is also connected with the water tank 300;Newly
Wind module 800, the fresh air module 800 are connect with the water segregator 400, and the fresh air module 800 also with the water collector
600 connections.
The indoor temperature control system 100 is by being passed through the hot water or cold water circulated in the coil pipe 500, to reach
The purpose of indoor heating or refrigeration.
The air source host 110, the circulating pump 200, water tank 300, water segregator 400, coil pipe 500 and water collector 600
Between be connected by pipeline, constitute water circulation circuit.
The circulating pump 200 is for promoting the water in pipeline to circulate.
The water tank 300 is for storing the water for meeting certain temperature range.Such as the water within summer, the water tank 300
Temperature is 14 DEG C~19 DEG C, and the water tank 300 helps to improve room temperature lowering effect, to realize indoor fast-refrigerating.In the winter
In season, the temperature of water is 30 DEG C~35 DEG C in the water tank 300, and the water tank 300 is conducive to improve indoor temperature rise effect, to realize
Indoor quickly heating.
Water in the water tank 300 is delivered to the coil pipe 500 by the water segregator 400.
In the present embodiment, the water segregator 400 includes level-one water segregator 410 and secondary water segregator 420, the fraction water
Device 410 is used for and water tank 300 connects, and the secondary water segregator 420 is connect with the level-one water segregator 410, and two fraction
Hydrophone 420 is also connected with the water inlet end.
Compared to the level-one water segregator 410, the secondary water segregator 420 is closer with the coil pipe 500, is conducive to
Shorten the distance that hot water or cold water enters the coil pipe 500.When circulating hot water in pipeline, the secondary water segregator 420 can
Reduce thermal losses of the hot water in transmission process.When circulating water in pipeline, the secondary water segregator 420 can reduce cold
Heating rate of the water in transmission process.
In the present embodiment, the quantity of the level-one water segregator 410 is one.The quantity of the secondary water segregator 420 is more
A, the quantity of the coil pipe 500 and the quantity of the secondary water segregator 420 match.Each secondary water segregator 420 and one
The water inlet end of a coil pipe 500 connects.
In the present embodiment, there is branch line between the pipeline between the water tank 300 and the level-one water segregator 410, it is described
Branch line connects moisturizing connector 720, and the moisturizing connector 720 is used to fill into preference temperature into the water tank 300 from the external world
Water, prevent water-flow circuit from the phenomenon that water shortage occur.
The ground coiled pipe 510 is embedded under floor.When outdoor temperature is lower (such as in cold winter), it can pass through
Hot water is conveyed to the ground coiled pipe 510, to heat entire floor, by floor to indoor heat loss through radiation.Formed indoors from
The temperature gradient that flooring to indoor top surface gradually successively decreases meets Chinese medicine " temperature foot so that giving foot warms up a cool comfort
Push up cool " fitness theory.
In the present embodiment, the quantity of the ground coiled pipe 510 be it is multiple, be respectively arranged at flooring different zones.
The top surface coil pipe 520 is hidden in ceiling.When outdoor temperature is higher (such as during the broiling summer), it can lead to
It crosses to the top surface coil pipe 520 and conveys cold water, by ceiling to indoor radiation refrigeration.It is formed indoors from indoor top surface to room
The temperature gradient that interior ground is gradually incremented by can equally give foot and warm up a cool comfort.
In the present embodiment, the quantity of the top surface coil pipe 520 be it is multiple, be respectively arranged at indoor top surface different zones.
In the present embodiment, summation and the secondary water segregator of the top surface coil pipe 520 with 510 quantity of ground coiled pipe
420 quantity is equal.
Water in the coil pipe 500 is flow back into the water tank 300 by the water collector 600.
In the present embodiment, the water collector 600 includes level-one water collector 610 and second level water collector 620, and the level-one is catchmented
Device 610 is used for and water tank 300 connects, and the second level water collector 620 is connect with the level-one water collector 610, and the second level collection
Hydrophone 620 is also connected with the water outlet.
Compared to the level-one water collector 610, the second level water collector 620 is closer with the coil pipe 500, is conducive to
Shorten hot water or cold water by the transmission range after the coil pipe 500 outflow.When circulating hot water in pipeline, the second level water collector
620 can reduce thermal losses of the hot water in transmission process.When circulating water in pipeline, 620 energy of second level water collector
Enough reduce heating rate of the cold water in transmission process.
In the present embodiment, the quantity of the level-one water collector 610 is one.The quantity of the second level water collector 620 is more
A, the quantity of the coil pipe 500 and the quantity of the second level water collector 620 match.Each second level water collector 620 and one
The water outlet of a coil pipe 500 connects.
In the present embodiment, the quantity of the second level water collector 620 is equal with the quantity of the secondary water segregator 420.
In the present embodiment, the indoor temperature control system 100 further include: thermoelectric valve 710, the thermoelectric valve 710 include first
Thermoelectric valve and the second thermoelectric valve, first thermoelectric valve is set between the ground coiled pipe 510 and the water collector 600, described
Second thermoelectric valve is set between the top surface coil pipe 520 and the water collector 600.
First thermoelectric valve is used to control the connection or cut-off for the water-flow circuit for flowing through the ground coiled pipe 510.Institute
The second thermoelectric valve is stated for controlling the connection or cut-off of the water-flow circuit for flowing through the top surface coil pipe 520.By the thermoelectricity
Valve 710 can select water delivery situation in the top surface coil pipe 520 and ground coiled pipe 510, help to economize on resources, avoid
Waste.
When first thermoelectric valve is opened, and second thermoelectric valve is closed, water-flow circuit flows through the ground coiled pipe
510, and the water not circulated in the top surface coil pipe 520.When first thermoelectric valve is closed, second thermoelectric valve is beaten
When opening, water-flow circuit flows through the top surface coil pipe 520, and the water not circulated in the ground coiled pipe 510.
In the present embodiment, the quantity of first thermoelectric valve is multiple.First thermoelectric valve is set to the ground coiled pipe
Between 510 and the level-one water collector 610.
In the present embodiment, the quantity of second thermoelectric valve is multiple.Second thermoelectric valve is set to the top surface coil pipe
Between 520 and the level-one water collector 610.
It is connected between the fresh air module 800 and the water segregator 400 by pipeline, the water stored in the water tank 300
The fresh air module 800 can also be flowed into from the water segregator 400.Also lead between the fresh air module 800 and the water collector 600
Piping connection is crossed, the water flowed out out of described fresh air module 800 flows back into the water tank 300 through the water collector 600.
The fresh air module 800 is using the cold water or hot water conveyed in pipeline, to adjust the temperature for introducing indoor fresh air.
Such as the cold water within summer, the water tank 300 flows through the fresh air module 800, so that the fresh air module 800 is blown to interior
Enter cold wind.When in winter, the hot water in the water tank 300 flows through the fresh air module 800 so that the fresh air module 800 to
Interior is blown into warm wind.
The fresh air module 800 is suitable for being finely adjusted room temperature.Such as when outdoor temperature is higher (such as summer),
It relies primarily on to the top surface coil pipe 520 conveying cold water to achieve the purpose that room temperature lowering.When occupancy gradually increases, meeting
Room temperature is caused to have rising by a small margin.It can be blown into cold wind to interior by opening the fresh air module 800 at this time, to reduce
Room temperature.
The fresh air module 800 is matched with the coil pipe 500, can temperature in quickly-conditioning indoor, and help to drop
The power consumption and operating cost of the low indoor temperature control system 100.
In the present embodiment, the fresh air module 800 is connect with the level-one water segregator 410, and the fresh air module 800 is also
It is connect with the level-one water collector 610.
In the present embodiment, the thermoelectric valve 710 further includes third thermoelectric valve, and the third thermoelectric valve is set to the fresh air mould
Between block 800 and the level-one water collector 610.The third thermoelectric valve is used to control the water for flowing through the fresh air module 800 and follows
The connection or cut-off of loop back path.
In the present embodiment, the fresh air module 800 has air inlet 810 and air outlet 820, and the air inlet 810 is connected to
Outdoor, suitably incorporates outdoor fresh air, in 820 communication chamber of air outlet, suitable for outdoor fresh air is delivered to interior.
In the present embodiment, the quantity of the air outlet 820 be it is multiple, suitable for fresh air is delivered to indoor different zones.
In the present embodiment, the fresh air module 800 has air intake vent 830 and exhaust outlet 840, and the air intake vent 830 is connected to
Interior, outside 840 communication chamber of exhaust outlet, suitable for room air is expelled to outdoor.
The fresh air module 800 has outer circulation operational mode, and under the outer circulation operational mode, outdoor fresh air is from institute
Air inlet 810 is stated to be discharged into from the air outlet 820 to interior after the fresh air module 800 purification.Meanwhile room air is from institute
It states air intake vent 830 to be introduced in the fresh air module 800, and is discharged outside to from the exhaust outlet 840.
In the present embodiment, the fresh air module 800 also has return air inlet (not shown), the return air inlet communication chamber
It is interior.
The fresh air module 800 also have interior circular flow mode, under the interior circular flow mode, room air from
The return air inlet is introduced in the fresh air module 800, and is expelled to interior from the air outlet 820, to realize room air
Purification.
The fresh air module 800 also has the function of dehumidifying.It such as during the broiling summer, can will be in the water tank 300
Water temperature is adjusted to 7 DEG C, and opens the third thermoelectric valve, closes first thermoelectric valve and second thermoelectric valve, make merely through
The water-flow circuit of the fresh air module 800 is connected to.Since the water temperature for flowing through the fresh air module 800 is low, room air
In vapor be condensed into water droplet to the cold, condensed water is expelled to outdoor, that is, can reach the mesh of dehumidifying by the fresh air module 800
's.After completing indoor dehumidification, the water temperature in the water tank 300 can be adjusted to 14 DEG C~19 DEG C, and open first thermoelectricity
Valve makes cold water flow through the ground coiled pipe 510, to cool down to interior.
In the present embodiment, the fresh air module 800 further include: new trend controller 850, the new trend controller 850 connect
The fresh air module 800, suitable for controlling the operational mode of the fresh air module 800.
In other embodiments, the fresh air module can also be used cooperatively with air-conditioning, by the fresh air module and sky
Tune fits together, and the temperature adjusting and dehumidifying function of above-mentioned fresh air module is completed by air-conditioning, and the fresh air module is merely responsible for the interior of air
Circulation and outer circulation.
The indoor temperature control system 100 is only set of system, but the summer in winter can be used.In winter, by the ground
Coil pipe 510 conveys hot water, it can be achieved that flooring radiation heating;In summer, by conveying cold water to the top surface coil pipe 520,
Indoor top surface radiation refrigeration can be achieved.In addition, the fresh air module 800 can be with auxiliary adjustment indoor environment.It is transported in outer circulation
Under row mode or interior circular flow mode, the fresh air module 800 can be with tissue compartment air-flow, purification air.In winter, described
Fresh air module 800 can preheat air from the outside into the room, to assist indoor heating, be brought rapidly up to reach
Purpose;In summer, the fresh air module 800 can reduce air themperature from the outside into the room, to freeze in ancillary chamber,
To achieve the purpose that cool down rapidly.Under dehumidification mode, the adjustable indoor humidity of the fresh air module 800.
Although the utility model discloses as above, the utility model is not limited to this.Anyone skilled in the art,
It does not depart from the spirit and scope of the utility model, can make various changes or modifications, therefore the protection scope of the utility model
It should be defined by the scope defined by the claims..
Claims (10)
1. a kind of indoor temperature control system characterized by comprising
Air source host;
Circulating pump, the circulating pump are connected with the air source host;
Water tank, the water tank are connected with the circulating pump and the air source host;
Water segregator, the water segregator are connected with the water tank;
Coil pipe, the coil pipe have water inlet end and water outlet, and the water inlet end is connected with the water segregator, and the coil pipe includes
Ground coiled pipe and top surface coil pipe, the ground coiled pipe are installed in flooring, and the top surface coil pipe is installed in indoor top surface;
Water collector, the water collector are connected with the water outlet, and the water collector is also connected with the water tank.
2. indoor temperature control system as described in claim 1, which is characterized in that the water segregator includes level-one water segregator and second level
Water segregator, for connecting with water tank, the secondary water segregator is connect the level-one water segregator with the level-one water segregator, and described
Secondary water segregator is also connected with the water inlet end.
3. indoor temperature control system as claimed in claim 2, which is characterized in that the quantity of the secondary water segregator is multiple, institute
The quantity of the quantity and the secondary water segregator of stating coil pipe matches.
4. indoor temperature control system as claimed in claim 2, which is characterized in that the water collector includes level-one water collector and second level
Water collector, for connecting with water tank, the second level water collector is connect the level-one water collector with the level-one water collector, and described
Second level water collector is also connected with the water outlet.
5. indoor temperature control system as claimed in claim 4, which is characterized in that the quantity of the second level water collector is multiple, institute
The quantity of the quantity and the second level water collector of stating coil pipe matches.
6. indoor temperature control system as claimed in claim 4, which is characterized in that further include: fresh air module, the fresh air module with
The water segregator connection, and the fresh air module is also connect with the water collector.
7. indoor temperature control system as claimed in claim 6, which is characterized in that the fresh air module and the level-one water segregator connect
It connects, and the fresh air module is also connect with the level-one water collector.
8. indoor temperature control system as claimed in claim 4, which is characterized in that further include: thermoelectric valve, the thermoelectric valve include the
One thermoelectric valve and the second thermoelectric valve, first thermoelectric valve are set between the ground coiled pipe and the water collector, and described second
Thermoelectric valve is set between the top surface coil pipe and the water collector.
9. indoor temperature control system as claimed in claim 8, which is characterized in that first thermoelectric valve is set to the ground coiled pipe
Between the level-one water collector.
10. indoor temperature control system as claimed in claim 8, which is characterized in that second thermoelectric valve is set to the top surface disk
Between pipe and the level-one water collector.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821422609.8U CN208832636U (en) | 2018-08-31 | 2018-08-31 | Indoor temperature control system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821422609.8U CN208832636U (en) | 2018-08-31 | 2018-08-31 | Indoor temperature control system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208832636U true CN208832636U (en) | 2019-05-07 |
Family
ID=66311379
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821422609.8U Active CN208832636U (en) | 2018-08-31 | 2018-08-31 | Indoor temperature control system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208832636U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110873382A (en) * | 2018-08-31 | 2020-03-10 | 张引强 | Indoor temperature control system |
-
2018
- 2018-08-31 CN CN201821422609.8U patent/CN208832636U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110873382A (en) * | 2018-08-31 | 2020-03-10 | 张引强 | Indoor temperature control system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101490483B (en) | Ventilating and air conditioning apparatus | |
CN108679870A (en) | A kind of warm and humid sub-control air-conditioning system with Fresh air handing function | |
CN206973923U (en) | A kind of heating and refrigeration all-in-one | |
CN107504600A (en) | Monoblock type radiation air-conditioner unit | |
CN109210820A (en) | A kind of multifunctional heat pump and its switching method for implementing different function | |
CN107270447A (en) | A kind of capillary radiation special air conditioner heat pump fresh air group and its control method | |
CN204806546U (en) | Warm system of air source heat pump roof radiation direct expansion cooling | |
CN207132480U (en) | Monoblock type radiation air-conditioner unit | |
CN110748969A (en) | Air conditioning system and control method thereof | |
CN110748970A (en) | Air conditioning system and control method thereof | |
CN104487783A (en) | Multipurpose air energy water heater | |
CN109595705A (en) | A kind of energy conservation swimming pool heat pump dehumidifier and its working method | |
CN109595703A (en) | A kind of multistage cold source swimming pool heat pump dehumidifier and its working method | |
CN106705231A (en) | Air conditioner indoor machine assembly, refrigerant circulatory system as well as control method and control device of refrigerant circulatory system | |
CN207990882U (en) | A kind of solar energy PVT curtain wall fresh air system | |
CN208832636U (en) | Indoor temperature control system | |
CN210832608U (en) | Integrated supply device based on temperature and humidity control and hot water heating | |
CN108302687A (en) | A kind of solar energy PVT curtain wall fresh air system | |
CN110873382A (en) | Indoor temperature control system | |
CN208936579U (en) | A kind of fresh air conditioner system of independent temperature-humidity control | |
CN207945732U (en) | Fan coil and air-conditioner water system | |
CN203785141U (en) | Dual temperature radiation heat pump room air conditioner capable of disposing fresh air | |
CN205980438U (en) | Take cold and hot recovery heat pump of equalizer | |
CN108679869A (en) | A kind of complete straight swollen warm and humid sub-control air-conditioning system of type of list refrigerant circuit | |
CN110671835B (en) | Integrated supply system and method based on temperature and humidity control and hot water heating |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20191118 Address after: 201105 floor 5, No. 277, Huqingping Road, Minhang District, Shanghai Patentee after: Heshi (Shanghai) Construction Technology Co., Ltd Address before: 201101 B1-403 6000, Shen brick road, Dongjing Town, Songjiang District, Shanghai. Patentee before: Zhang Yinqiang |
|
TR01 | Transfer of patent right |