CN218846346U - Air conditioner curtain and air conditioner curtain system based on capillary radiation - Google Patents

Abstract

The utility model belongs to the technical field of intelligent air conditioner, a air conditioner (window) curtain and air conditioner (window) curtain system based on capillary radiation is related to, through the water supply branch pipe that the hose was made towards indoor side installation at the (window) curtain, the return water branch pipe that the capillary hose was made towards outdoor side installation at the (window) curtain, and the rethread water supply main, return water main communicates to air conditioner hot and cold water unit after the (window) curtain lower hem department communicates, make and use the time pipe in the time of heating season in winter and supply hot water, realize low temperature heating, when offsetting the load that is brought by transparent envelope, increase the heat radiation volume to indoor, improve indoor temperature, improve indoor personnel's thermal comfort, at night, also can play the heat preservation, prevent the effect that indoor heat outwards runs off; therefore, the utility model discloses reduce heating season, cooling season and transition season because the transparent envelope of building increases indoor cold/heat load, maintain indoor temperature at invariable scope, satisfy indoor personnel's comfort level demand.

Description

Air conditioner curtain and air conditioner curtain system based on capillary radiation

Technical Field

The utility model belongs to the technical field of intelligent air conditioner, a air conditioner (window) curtain and air conditioner (window) curtain system based on capillary radiation is related to.

Background

From the perspective of building energy consumption, besides the basic heat consumption formed by the internal and external building envelopes, the heat transfer and heat consumption of the doors and windows and the heat consumption of cold air permeating and invading through the gaps of the doors and windows still account for more than 10 percent of the total energy consumption of the building. For severe cold areas with low outdoor temperature and long heating time in winter, the main energy-saving way is to reduce the energy consumption of roofs, walls and doors and windows, but even if the heat transfer coefficient limit value specified in the energy-saving standard is reached, the heat transfer coefficient of the windows of residential buildings in the severe cold areas is still 4.0-5.5 times of the heat transfer coefficient of the walls, which means that the energy consumption of the doors and windows accounts for more than 15% of the total energy consumption of the buildings. Especially for office and commercial buildings with large occupied area of the partially transparent enclosure structure and civil residential buildings with large amount and area of windows opening towards the north, the heat loss through the windows and the doors is larger, and the phenomenon cannot be effectively solved only by adopting the conventional heat-preservation and heat-insulation curtain. Therefore, how to achieve the effects of heating and cooling the indoor space on the basis of reducing the energy consumption of the original building doors and windows becomes a technical problem to be solved urgently.

Therefore, there is a need for an air conditioning curtain that reduces the indoor cold/heat load due to the building transparent envelope in the heating season, the cooling season, and the transition season, maintains the indoor temperature in a constant range, and meets the thermal comfort requirements of indoor personnel.

Disclosure of Invention

The utility model provides a technical scheme that technical problem took is: an air conditioning curtain based on capillary radiation, comprising: the curtain, the water supply branch pipe, the backwater branch pipe, the water supply main pipe and the backwater main pipe;

the curtain is a longitudinal lifting curtain which can be contracted upwards and opened downwards, the water supply branch pipe and the water return branch pipe are both hoses, and the water return branch pipe is a capillary pipe;

the water supply branch pipe is positioned on one side of the curtain facing the indoor, the water return branch pipe is positioned on one side of the curtain facing the outdoor, the bottoms of the water supply branch pipe and the water return branch pipe are communicated at the lower hem of the curtain, the top of the water supply branch pipe is communicated with the water supply main pipe, the top of the water return branch pipe is communicated with the water return main pipe, the water supply main pipe and the water return main pipe are respectively communicated with the air conditioner cold and hot water unit, and the air conditioner cold and hot water of the air conditioner cold and hot water unit flows into the water supply branch pipe and the water return branch pipe from the water supply main pipe and finally flows back to the air conditioner cold and hot water unit from the water return main pipe and circulates in a reciprocating manner;

when the temperature is adjusted, cold and hot water of the air conditioner enters the indoor side of the curtain from the water supply branch pipe, cooling and heating are preferentially carried out in a room, then the cold and hot water of the air conditioner flows through the capillary pipe of the water return branch pipe on the outdoor side of the curtain from the communication position of the lower hem of the curtain, at the moment, the heat radiation quantity to the indoor space is increased while the load brought by the transparent enclosure structure is offset by the return water in the capillary pipe, and therefore the load of the transparent enclosure structure is effectively offset while the indoor temperature is adjusted.

Preferably, the upper part of the curtain is provided with a curtain housing which is a cuboid box-shaped horizontally placed, and the water supply main pipe and the water return main pipe are both positioned in an inner cavity of the curtain housing; the curtain housing is used for accommodating the rolled curtain and can play a role in fixing and accommodating the water supply main pipe and the water return main pipe.

Preferably, a lifting device is arranged in the curtain housing, the lifting device is provided with a pull rope, the pull rope is used for driving the lifting device to drive the curtain to rise upwards or fall downwards, and the lifting device and the pull rope are used for lifting the curtain to meet the requirements of lighting ventilation or temperature regulation.

Preferably, the water supply main pipe is communicated with a first thermometer, the water return main pipe is communicated with a second thermometer, and the thermometers are used for measuring the temperatures of inlet water and return water in real time so as to adjust the water flow and the temperature of the air conditioner in real time.

Preferably, a first water valve is connected in series on the water supply main pipe, and a second water valve is connected in series on the water return main pipe; the first water valve and the second water valve are used for adjusting the flow speed and the flow of the air conditioning water.

Preferably, the first water valve and the second water valve are electrically controlled valves, and the combination of the electrically controlled valve and the thermometer can realize real-time automatic regulation of water inlet flow and water return flow according to the water inlet temperature and the water return temperature of the curtain, so as to control the temperature regulation range of the curtain in a micro-control manner.

Preferably, the curtain is a curtain with two inner and outer sides, the two inner and outer sides of the curtain are double layers, the water return branch pipe is wrapped by the double layers on the outer side of the curtain, the water supply branch pipe is wrapped by the double layers on the inner side of the curtain, and the double layers on the two sides can provide good heat preservation and insulation effects and effectively avoid mutual interference of the water supply branch pipe and the water return branch pipe.

The application still discloses an air conditioner (window) curtain system based on capillary radiation, air conditioner (window) curtain system adopts foretell air conditioner (window) curtain to constitute, and air conditioner (window) curtain system includes: the curtain is connected with the top capillary mat and the wall capillary mat in series and then communicated to the air-conditioning cold and hot water unit; the curtain and the capillary mat laid on the indoor non-transparent enclosing structure are used together, and the indoor temperature is adjusted and controlled by utilizing the air-conditioning cold and hot water unit.

Preferably, the air-conditioning curtain system further comprises a heat exchanger, a water outlet at the slave end of the heat exchanger is communicated to a water outlet of the air-conditioning cold and hot water unit, a water inlet at the slave end of the heat exchanger is communicated to a water inlet of the air-conditioning cold and hot water unit, and the master end of the heat exchanger is communicated to the centralized cooling and heating system; the curtain is communicated with the heat exchanger, the heat exchanger is communicated with the centralized cooling and heating system, the cooling and heating system is preferentially adopted to adjust the temperature in the heating and cooling season, and the air conditioner cold and hot water unit is used for supplementing when the temperature is not enough, so that the temperature adjusting efficiency is improved, and the energy consumption is saved.

Preferably, a third water valve is arranged at a water inlet of the heat exchanger from the end, a fourth water valve is arranged at a water outlet of the heat exchanger from the end, a fifth water valve is arranged at a water inlet of the air-conditioning cold and hot water unit, a sixth water valve is arranged at a water outlet of the air-conditioning cold and hot water unit, and each water valve is used for adjusting the on-off and the size of the water flow for cooling and heating at the side of the centralized cooling and heating system and/or the side of the air-conditioning cold and hot water unit according to needs, so that the implementation of the optimal cooling and heating scheme with low consumption and high efficiency is ensured.

The beneficial effects of the utility model are that:

1. the utility model discloses a water supply branch pipe that the hose was made is installed towards indoor side at the (window) curtain, the return water branch pipe that the capillary hose was made is installed towards outdoor side at the (window) curtain, and communicate through water supply main, return water main intercommunication to air conditioner hot and cold water unit after the (window) curtain lower hem department communicates, make in the time of using during winter heating season hot water supply in the pipe, realize low temperature heating, when offsetting the load that is brought by transparent envelope, increase the heat radiation volume to indoor, improve indoor temperature, improve indoor personnel's thermal comfort, at night, also can play the heat preservation, prevent the outside effect that runs off of indoor heat; supply cold water in the pipe during use during the cooling season in summer, eliminate outdoor a large amount of solar short wave radiation on the one hand, prevent short wave radiation to the conversion of long wave, on the other hand to indoor radiation cold volume, reduce indoor air temperature to reach the effect of cooling, consequently, the utility model discloses reduce heating season, cooling season and transition season because the indoor cold/heat load that the transparent envelope of building increased, maintain indoor temperature at invariable scope, satisfy indoor personnel's comfort level demand.

2. The utility model discloses a communicate the (window) curtain to heat exchanger's slave end to with heat exchanger's main aspects and concentrated cooling heating system intercommunication, it has top capillary mat, wall capillary mat to establish ties at the air conditioner (window) curtain simultaneously, carries out temperature regulation at heating cooling season preferred adoption cooling heating system, reuses air conditioner hot and cold water unit when not enough and supplements, has consequently improved temperature regulation efficiency, has practiced thrift the energy consumption.

Drawings

FIG. 1 is a front view of an air conditioning curtain based on capillary radiation;

FIG. 2 is a side view of an air conditioning curtain;

fig. 3 is a schematic view of an air conditioning curtain system.

In the figure: 1. (ii) a curtain; 2. a water supply branch pipe; 3. a return water branch pipe; 4. a water main; 5. a water return main pipe; 6. an air-conditioning cold and hot water unit; 7. a curtain housing; 8. a lifting device; 9. pulling a rope; 10. a first thermometer; 11. a second thermometer; 12. a first water valve; 13. a second water valve; 14. a top capillary mat; 15. a wall capillary mat; 16. a heat exchanger; 17. a third water valve; 18. a fourth water valve; 19. a fifth water valve; 20. and a sixth water valve.

Detailed Description

The related art in the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is to be understood that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1 to 3, an air-conditioning curtain based on capillary radiation includes: the device comprises a curtain 1, a water supply branch pipe 2, a water return branch pipe 3, a water supply main pipe 4 and a water return main pipe 5;

the curtain 1 is a longitudinal lifting curtain which can be contracted upwards and opened downwards, the water supply branch pipe 2 and the water return branch pipe 3 are both hoses, and the water return branch pipe 3 is a capillary pipe;

the water supply branch pipe 2 is positioned on one side of the curtain 1 facing the indoor, the water return branch pipe 3 is positioned on one side of the curtain 1 facing the outdoor, the bottoms of the water supply branch pipe 2 and the water return branch pipe 3 are communicated at the lower hem of the curtain 1, the top of the water supply branch pipe 2 is communicated with the water supply main pipe 4, the top of the water return branch pipe 3 is communicated with the water return main pipe 5, the water supply main pipe 4 and the water return main pipe 5 are respectively communicated with the air conditioner cold and hot water unit 6, and air conditioner cold and hot water of the air conditioner cold and hot water unit 6 flows into the water supply branch pipe 2 and the water return branch pipe 3 from the water supply main pipe 4 and finally flows back to the air conditioner cold and hot water unit 6 from the water return main pipe 5 and circulates in a reciprocating manner;

when the temperature is adjusted, cold and hot water of the air conditioner enters the indoor side of the curtain 1 from the water supply branch pipe 2, the cold and hot water of the air conditioner preferentially supplies cold and heat to the indoor, then the cold and hot water of the air conditioner flows through the capillary pipe of the water return branch pipe 3 on the outdoor side of the curtain 1 from the communication position of the lower hem of the curtain 1, and the heat radiation quantity to the indoor is increased while the load brought by the transparent enclosure structure is offset by the return water in the capillary pipe, so that the load of the transparent enclosure structure is effectively offset while the indoor temperature is adjusted.

Further, a curtain housing 7 is arranged at the upper part of the curtain 1, the curtain housing 7 is in a cuboid box shape which is horizontally placed, and the water supply main pipe 4 and the water return main pipe 5 are both positioned in an inner cavity of the curtain housing 7; the curtain housing 7 is used for accommodating the rolled-up curtain 1 and can also fix and accommodate the water supply main pipe 4 and the water return main pipe 5.

Furthermore, a lifting device 8 is arranged in the curtain housing 7, the lifting device 8 is provided with a pull rope 9, the pull rope 9 is used for driving the lifting device 8 to further drive the curtain 1 to upwards rise or downwards fall, and the lifting device 8 and the pull rope 9 are used for lifting the curtain to meet the requirements of lighting ventilation or temperature regulation.

Furthermore, a first thermometer 10 is communicated with the water supply main pipe 4, a second thermometer 11 is communicated with the water return main pipe 5, and the thermometers are used for measuring the temperatures of inlet water and return water in real time so as to adjust the water flow and the temperature of the air conditioner in real time.

Further, a first water valve 12 is connected in series on the water supply main pipe 4, and a second water valve 13 is connected in series on the water return main pipe 5; the first water valve 12 and the second water valve 13 are used for adjusting the flow rate and the flow of the air conditioning water.

Furthermore, the first water valve 12 and the second water valve 13 are electrically controlled valves, and the combination of the electrically controlled valve and the thermometer can realize real-time automatic adjustment of the inflow and the return water flow according to the temperature of the water supply and the temperature of the water return of the curtain 1, so as to control the temperature adjustment range of the curtain 1 in a micro manner.

Further, curtain 1 is inside and outside two side curtains, and the inside and outside both sides of curtain 1 are the bilayer, and including the outside bilayer of curtain 1 wraps up return water branch pipe 3, including the inboard bilayer of curtain 1 wraps up water supply branch pipe 2, effectively avoids water supply branch pipe 2, return water branch pipe 3 to interfere with each other when two side double-deck curtains 1 can provide good thermal-insulated effect of heat preservation.

The application still discloses an air conditioner (window) curtain system based on capillary radiation, air conditioner (window) curtain system adopts foretell air conditioner (window) curtain to constitute, and air conditioner (window) curtain system includes: the curtain 1 is connected with the top capillary mat 14 and the wall capillary mat 15 in series and then communicated to the air-conditioning cold and hot water unit 6; the curtain 1 is used together with a capillary mat laid on an indoor non-transparent enclosing structure, and the indoor temperature is adjusted and controlled by an air-conditioning cold and hot water unit 6.

Further, the air-conditioning curtain system further comprises a heat exchanger 16, a water outlet at the slave end of the heat exchanger 16 is communicated to a water outlet of the air-conditioning cold and hot water unit 6, a water inlet at the slave end of the heat exchanger 16 is communicated to a water inlet of the air-conditioning cold and hot water unit 6, and a main end of the heat exchanger 16 is communicated to a centralized cooling and heating system; by communicating the curtain 1 with the heat exchanger 16 and communicating the heat exchanger with the centralized cooling and heating system, the cooling and heating system is preferentially adopted to carry out temperature regulation in the heating and cooling season, and an air-conditioning cold and hot water unit is used for supplementing when the temperature regulation is insufficient, so that the temperature regulation efficiency is improved, and the energy consumption is saved.

Furthermore, a third water valve 17 is arranged at a water inlet of the heat exchanger 16 from the end, a fourth water valve 18 is arranged at a water outlet of the heat exchanger 16 from the end, a fifth water valve 19 is arranged at a water inlet of the air-conditioning cold and hot water unit 6, a sixth water valve 20 is arranged at a water outlet of the air-conditioning cold and hot water unit 6, and each water valve is used for adjusting the on-off and the size of the water flow for cooling and heating at the side of the centralized cooling and heating system and/or the side of the air-conditioning cold and hot water unit 6 according to the requirement, so that the implementation of the optimal cooling and heating scheme with low consumption and high efficiency is ensured.

Examples

The embodiment is an air-conditioning curtain and an air-conditioning curtain system based on a capillary radiation technology, and the air-conditioning curtain system comprise a main water supply main pipe 4 and a main water return main pipe 5, wherein each water supply branch pipe 2 and each water return branch pipe 3 (capillary) are uniformly and parallelly arranged inside a curtain 1, as shown in figures 1 and 2, and are connected with the main pipe in a hot melting mode, the main water supply main pipe 4 and the main water return main pipe 5 are fixed on a wall through buckles, are used as a transverse support of a capillary mat whole and are hidden in a curtain housing 7, and because the capillary mat has the characteristic of flexibility and contractibility, a curtain lifting device 8 is arranged at the lower end of the main pipe and is connected with a curtain 1 body through a pull rope 9 so as to realize the function of vertical contraction of the curtain 1, when lighting needs exist, the curtain 1 body can be lifted and contracted by pulling the pull rope 9, and the curtain housing 7 is fixed in a groove by punching holes on the wall, inserting expansion bolts and fixing. Because 1 body material of (window) curtain commonly used is the cloth system, this embodiment sets up a plurality of tunnels (quantity is decided along with the branch pipe figure) and sets up branch pipe location pipe strap in the tunnel through 1 inside (window) curtain to it conveniently dismantles or the fault replacement to the capillary network of (window) curtain 1 inside simultaneously to each supply return water branch pipe 3 positions to fix, can carry out periodic cleaning to (window) curtain 1 body.

A first thermometer 10, a second thermometer 11, a first water valve 12 and a second water valve 13 are respectively arranged on a main water supply and return pipe of the curtain 1, the first water valve 12 and the second water valve 13 both adopt electric control valves to monitor the temperature of the water supply and return in real time and are closed when no use demand is needed or the curtain is folded, and thermoplastic plastics such as PP-R, PE-RT and the like can be selected as raw materials for manufacturing a capillary tube radiant tube network.

In the embodiment, the characteristic that the capillary mat can be curled is utilized, the capillary mat is combined with the building component which has no rigidity and has strength requirement, the whole structure of the curtain 1 is a double-layer structure with the inner side and the outer side capable of being curled and folded, the side far away from the transparent enclosure structure is a water supply pipeline side (inner side), the side near to the transparent enclosure structure is a water return pipeline side (outer side), the inner side transmits cold/heat to a room through radiation action, and meanwhile, when the room temperature is higher/lower, the capillary mat can also be used as a heat storage/cold storage component to absorb residual heat in the room to maintain the room temperature in a constant value range. The outer side (water return end) is used for blocking the cold/heat radiation of the outside to reduce the influence on the indoor environment due to outdoor temperature fluctuation. The main effect is reflected in two seasons of winter/summer (namely heating/cooling seasons).

In summer, when the outdoor temperature is high, the solar radiation respectively increases the indoor cold load in the form of short-wave radiation (for example, sunlight irradiates the surfaces of the indoor enclosures and objects through the transparent enclosures) and long-wave radiation (long-wave radiation between the surfaces of the indoor enclosures, equipment, personnel and lamps and the floor surface). The curtain 1 is based on the capillary network technology, blocks the heat radiation of the sun penetrating through the transparent enclosure structure, the outer side of the curtain 1 serves as a water return end, the intensity of short wave radiation is reduced, the conversion of the short wave radiation to long wave radiation is prevented, the indoor waste heat is reduced, meanwhile, the temperature distribution in the area of the transparent enclosure structure is improved, the cold supply effect of the inner side low-temperature end of the curtain 1 is improved, the heat comfort of indoor personnel is enhanced, meanwhile, the double-layer structure of the curtain 1 is beneficial to improving the temperature difference of water supply and return, the COP value of a cold water supply unit is further improved, and the operation efficiency of the unit is improved.

In winter, the solar radiation intensity is low, when the outdoor temperature is low, the surface temperature of the transparent enclosure structure is reduced by outdoor air mainly in a convection heat transfer mode, at the moment, the capillary network in the curtain 1 is at the water supply and return temperature of 30/20 ℃, the outside water return end heats the transparent enclosure structure, the transparent enclosure structure reacts with the outdoor air, the temperature of the transparent enclosure structure is maintained within a certain range, and the air close to the transparent enclosure structure is prevented from being too low in temperature; the inner side is used as a water supply end to heat indoor air, so that the effect of low-temperature heat supply is achieved, and the fluctuation influence of outdoor low temperature on indoor temperature in winter is reduced. At night, the curtain 1 is used as a heat-insulating component to prevent indoor heat from being largely lost through the transparent enclosure structure.

The air-conditioning curtain system based on capillary radiation in the embodiment is a heating/refrigerating solution scheme combining a curtain 1 and a capillary radiation system, and an evaporative cold and hot water unit is adopted by an air-conditioning cold and hot water unit 6;

the curtain 1 is used together with a top capillary mat 14 and a wall capillary mat 15 laid on an indoor non-transparent enclosure structure, and cold/heat sources are supplied by an air-conditioning cold and hot water unit 6 consisting of an evaporative water cooling unit, a heat exchanger 16 and other equipment. The temperature of the water supply and return of the low-temperature hot water in winter is ensured to be 30/20 ℃, and the temperature of the water supply and return of the high-temperature cold water in summer is ensured to be 20/25 ℃. The whole system completes the switching of the working conditions of the heating season, the cooling season and the transition season by opening/closing valves on the branch pipes, as shown in figure 3.

In the heating season, the third water valve 17 and the fourth water valve 18 of the valves are opened, the fifth water valve 19 and the sixth water valve 20 of the valves are closed, the heating tail end is connected with the heat exchanger 16, low-temperature hot water at 20 ℃ is heated to 30 ℃ through heat exchange with hot water of centralized heat supply, and the heat requirement of a user is met through a low-temperature radiation mode; when the low-temperature water supply device is used in the winter heating season, low-temperature hot water with the allowable temperature range of 28-30 ℃ is supplied to the capillary network, the temperature difference of supplied and returned water is guaranteed to be 10 ℃, and low-temperature heating can be realized. The load brought by the transparent enclosing structure is offset, meanwhile, the heat radiation quantity to the indoor is increased, the indoor temperature is improved, and the thermal comfort of indoor personnel is improved. At night, the heat-insulating and heat-preserving device can also play a role in preserving heat and preventing indoor heat from being lost outwards.

In cold supply seasons, the third water valve 17 and the fourth water valve 18 of the valve are opened, the fifth water valve 19 and the sixth water valve 20 of the valve are closed, the cold supply tail end is connected with the heat exchanger 16, heat exchange is carried out on cold water subjected to concentrated cold supply, normal-temperature water is cooled to low-temperature water, and the cold supply requirements of users are met in a low-temperature radiation mode.

In non-cooling and heating seasons, the fifth water valve 19 and the sixth water valve 20 of the valve are opened, the third water valve 17 and the fourth water valve 18 of the valve are closed, the heating tail end is only connected with the air-conditioning cold and hot water unit 6, and the air-conditioning cold and hot water unit 6 is used for cooling the high-temperature cold water at 25 ℃ to 20 ℃ and supplying the high-temperature cold water to the radiation tail end to achieve the refrigeration effect; when the water heater is used in the non-cooling season in summer, the high-temperature cold water with the allowable temperature range of 20-25 ℃ is supplied to the capillary network, and the temperature difference of the supplied water and the returned water is ensured to be 5 ℃. On one hand, a large amount of outdoor solar short-wave radiation is eliminated in the daytime, and the conversion of the short-wave radiation to long-wave radiation is prevented; on the other hand, the cold energy is radiated indoors to reduce the indoor air temperature, thereby achieving the effect of high-temperature cold supply.

The curtain 1 can be used together with indoor radiation tail ends of a radiation plate, a radiator or a geothermal coil pipe and the like, the heating/cooling effect is improved, meanwhile, the cascade utilization of energy is achieved, the hydraulic loss is reduced, and the operation efficiency of a unit is improved.

To sum up, the utility model provides an air conditioner (window) curtain and air conditioner (window) curtain system based on capillary radiation, through the water supply branch pipe that the hose was made is installed towards the indoor side at the (window) curtain, the return water branch pipe that the capillary hose was made is installed towards the outdoor side at the (window) curtain, and communicate back through water supply trunk, return water trunk and communicate to air conditioner hot and cold water unit at the (window) curtain lower hem department, make and use the time pipe in the time of heating season in winter and supply hot water, realize low temperature heating, when offsetting the load that is brought by transparent envelope, increase the heat radiation volume to indoor, improve indoor temperature, improve indoor personnel's thermal comfort, at night, also can play the effect that keeps warm, prevent that indoor heat from outwards losing; cold water is supplied to the time tube during the cooling season in summer, so that on one hand, a large amount of outdoor solar short-wave radiation is eliminated, and the conversion of the short-wave radiation to long-wave radiation is prevented; on the other hand, the cold energy is radiated indoors, so that the indoor air temperature is reduced, and the cold supply effect is achieved; the utility model discloses reduce heating season, cooling season and transition season because the indoor cold/heat load that the transparent envelope of building increases maintains indoor temperature at invariable scope, satisfies indoor personnel's comfort level demand, consequently the utility model discloses possess extensive application prospect.

It is to be emphasized that: the above embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any form, and any simple modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. An air conditioning curtain based on capillary radiation, comprising: the device comprises a curtain (1), a water supply branch pipe (2), a water return branch pipe (3), a water supply main pipe (4) and a water return main pipe (5);

the curtain (1) is a longitudinal lifting curtain capable of being contracted upwards and opened downwards, the water supply branch pipe (2) and the water return branch pipe (3) are hoses, and the water return branch pipe (3) is a capillary pipe;

the curtain is characterized in that the water supply branch pipe (2) is located on one side, facing the indoor, of the curtain (1), the water return branch pipe (3) is located on one side, facing the outdoor, of the curtain (1), the bottoms of the water supply branch pipe (2) and the water return branch pipe (3) are communicated with the lower hem of the curtain (1), the top of the water supply branch pipe (2) is communicated with the water supply main pipe (4), the top of the water return branch pipe (3) is communicated with the water return main pipe (5), the water supply main pipe (4) and the water return main pipe (5) are communicated with the air conditioner cold and hot water unit (6) respectively, and the air conditioner cold and hot water of the air conditioner cold and hot water unit (6) flows into the water supply branch pipe (2) and the water return branch pipe (3) from the water supply main pipe (4) and finally flows back to the air conditioner cold and hot water unit (6) from the water main pipe (5) and circulates in a reciprocating mode.

2. The air-conditioning curtain based on capillary radiation as claimed in claim 1, wherein a curtain cover (7) is arranged at the upper part of the curtain (1), the curtain cover (7) is a cuboid box-shaped horizontally placed, and the water supply main pipe (4) and the water return main pipe (5) are both positioned in an inner cavity of the curtain cover (7).

3. The air-conditioning curtain based on capillary radiation as claimed in claim 2, wherein a lifting device (8) is arranged in the curtain housing (7), the lifting device (8) is provided with a pull rope (9), and the pull rope (9) is used for driving the lifting device (8) to drive the curtain (1) to ascend upwards or descend downwards.

4. The air-conditioning curtain based on capillary radiation as claimed in claim 1, wherein a first thermometer (10) is communicated with the water supply main pipe (4), and a second thermometer (11) is communicated with the water return main pipe (5).

5. The air-conditioning curtain based on the capillary radiation is characterized in that a first water valve (12) is connected to the water supply main pipe (4) in series, and a second water valve (13) is connected to the water return main pipe (5) in series.

6. The air-conditioning curtain based on capillary radiation as claimed in claim 5, wherein the first water valve (12) and the second water valve (13) are electrically controlled valves.

7. The air-conditioning curtain based on capillary radiation as claimed in claim 1, wherein the curtain (1) is a curtain with two inner and outer sides, the inner and outer sides of the curtain (1) are double layers, the outer double layer of the curtain (1) wraps the return water branch pipe (3), and the inner double layer of the curtain (1) wraps the water supply branch pipe (2).

8. An air conditioning curtain system based on capillary radiation, characterized in that the air conditioning curtain system is formed by the air conditioning curtain of any one of claims 1 to 7, and the air conditioning curtain system comprises: the curtain is characterized by comprising a top capillary mat (14) and a wall capillary mat (15), wherein the curtain (1) is connected with the top capillary mat (14) and the wall capillary mat (15) in series and then is communicated with an air-conditioning cold and hot water unit (6).

9. The air-conditioning curtain system based on the capillary radiation is characterized in that the air-conditioning curtain system further comprises a heat exchanger (16), a slave water outlet of the heat exchanger (16) is communicated to a water outlet of the air-conditioning hot and cold water unit (6), a slave water inlet of the heat exchanger (16) is communicated to a water inlet of the air-conditioning hot and cold water unit (6), and a master end of the heat exchanger (16) is communicated to a centralized cooling and heating system.

10. The air-conditioning curtain system based on capillary radiation as claimed in claim 9, wherein a third water valve (17) is arranged at a water inlet from the end of the heat exchanger (16), a fourth water valve (18) is arranged at a water outlet from the end of the heat exchanger (16), a fifth water valve (19) is arranged at a water inlet of the air-conditioning cold and hot water unit (6), and a sixth water valve (20) is arranged at a water outlet of the air-conditioning cold and hot water unit (6).

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