CN202081527U - Capillary tube net air-conditioning wall and air-conditioning system using same - Google Patents
Capillary tube net air-conditioning wall and air-conditioning system using same Download PDFInfo
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- CN202081527U CN202081527U CN2010206720111U CN201020672011U CN202081527U CN 202081527 U CN202081527 U CN 202081527U CN 2010206720111 U CN2010206720111 U CN 2010206720111U CN 201020672011 U CN201020672011 U CN 201020672011U CN 202081527 U CN202081527 U CN 202081527U
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Abstract
The utility model relates to a capillary tube net air-conditioning wall and an air-conditioning system using same. The air-conditioning wall comprises a load-bearing support wall and a capillary tube net fixed in the air-conditioning wall and is characterized in that the air-conditioning wall is further provided with a passive radiating surface; a distance respectively exists between the passive radiating surface and the capillary tube net and between the load-bearing support wall and the capillary tube net without contact; in the air-conditioning system, the air-conditioning wall is taken as an air-conditioning terminal heat exchanger. The air-conditioning system has the following advantages of high efficiency, energy conservation, high comfort level, space conservation, environmental protection, quicker temperature reduction and temperature rise and long service life.
Description
Technical field
The utility model relates to a kind of air-conditioning wall and air-conditioning system thereof, relates in particular to a kind of capillary network air-conditioning wall and adopts the air-conditioning system of this air-conditioning wall.
Background technology
Traditional room conditioning generally all possesses three big basic functions such as cooling, intensification, dehumidifying, but traditional family expenses split-type air conditioner can't be introduced new wind, in order to ensure IAQ (indoor air quality) health, must take a breath by opening the door, windowing, cold in the room can run off in a large number like this, influence room temperature, cause energy waste.At present, it all is to use central air conditioner system that most room air is regulated, outburst by SARS has caused the attention of people to the air cleaning system of central air-conditioning, this system is easy to generate bacterium, thereby cause " legionaires' disease " easily, and it is lower to be used for the air purity of air-conditioning circulation, and the temperature fluctuation ratio of general central air-conditioning is bigger, cause people's sense of discomfort easily, produce the air conditioner disease that is commonly called as.And though thereby the capillary network air-conditioning system that occurred has in recent years solved the constant temperature and humidity problem and has save pipeline by radiation refrigeration and can not produce bacterium, but because the restriction of service condition, it can not be used in the higher environment of humidity or in order to solve its metope condensation trouble, must increase independent new wind or dehumidification system, and then cause higher, the system complex of cost, be unfavorable for the comprehensive utilization of air conditioner cold-heat source.
Summary of the invention
The technical problem that the utility model solves provides a kind of air-conditioning wall and air-conditioning system thereof at the deficiencies in the prior art just, and this system has solved in the prior art that common capillary network lacks the forced circulation wind system and wayward dewfall, system complex and cost are crossed problems such as height.
In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is as follows, the air-conditioning system of a kind of capillary network air-conditioning wall and employing air-conditioning wall, described air-conditioning wall comprises the load-bearing knee wall and is fixed in air-conditioning capillary network within the walls, it is characterized in that: described air-conditioning wall also comprises passive radiating surface, between described passive radiating surface and the capillary network, all leave spacing between load-bearing knee wall and the capillary network and do not contact.
As further improvement of the present utility model, described air-conditioning system also comprises blower fan that is arranged on air-conditioning wall top and the VMC that purifies air.The two ends of described capillary network connect the water supply person in charge and the backwater that cross capillary network respectively and are responsible for, for guarantee between the pipeline sealing, prevent to leak, capillary network is responsible for confession, backwater by hot melting mode and is linked to each other, water circulates in capillary network, be responsible for the capillary network of flowing through by supplying water and enter again at last in the backwater person in charge, by the circulation realization refrigeration of water, the radiation that heats.
As further improvement of the present utility model, described capillary network is connected in parallel by two capillary unit at least and forms, the capillary network unit adopts the PP-R material, adopt being connected to form one of hot melt between capillary network unit and the capillary network unit, further guarantee the sealing of whole pipe network.
As further improvement of the present utility model, in order to regulate water level in the pipe network, backwater is responsible for and is connected water collector, and supplying water to be responsible for connects water knockout drum, is provided with the sealing valve to regulating water level on described water collector and the water knockout drum.
As further improvement of the present utility model, described air-conditioning wall top is provided with furred ceiling, the middle part is a decorative cover, decorative cover and furred ceiling distance are 20cm-30cm, the both sides up and down of furred ceiling are respectively arranged with return air inlet and air outlet, serve back formula under being arranged as in air port, utilize the mobile refrigeration or the interior air of heating chamber of hot and cold water in the capillary network, the hot pressing that temperature difference produces makes the air Automatic Cycle, the air-conditioning wall of type of respiration not only can well dehumidify by the bigger radiating area of capillary network, can also remove the pollution of indoor formaldehyde and airborne suspension.
As further improvement of the present utility model, described air-conditioning wall load-bearing knee wall inside is the cement pressure plare, described capillary network by cemented on the cement pressure plare.With air-conditioning within the walls portion adopt cement pressure plare and capillary network unit by cemented on pressure plare, be in order to increase the fastness of air-conditioning wall on the one hand, be the radiating area that increases whole capillary network on the other hand, realize the adjusting of temperature faster.
As further improvement of the present utility model, described blower fan is arranged on furred ceiling or place, air-conditioning wall top, and the air outlet of general blower fan is facing to return air inlet, and is still lower slightly than return air inlet, can quicken flowing of air like this, strengthens refrigerating capacity and shortens cooling time.
As further improvement of the present utility model, the ajutage of described VMC inserts 1/3rd places of air-conditioning wall apart from the top, because native system is to handle by the cold and hot exchange that air-conditioning produces within the walls, therefore having save independent VMC carries out pretreated problem, the VMC significant feature is to purify air, removed cooling work from, greatly reduced energy consumption, energy conservation.
As further improvement of the present utility model, described passive radiating surface is removable drop front, if problem has appearred in drop front, carries out for convenience detach separately.
As further improvement of the present utility model, the bottom of described capillary network is provided with the drip tray that is used for holding condensed water, described drip tray is to the millesimal gradient of delivery port inclined position, and the eliminating that helps a small amount of condensed water like this is outdoor, avoids producing and pollutes.
With respect to prior art, the utlity model has following advantage, 1) can utilize energy-efficient characteristics of capillary network radiation refrigeration and solve the problem of metope dewfall: capillary network has great cooling surface area, with the radiation mode heating refrigeration, winter, the hot water supply and return water temperature was 25-50 ℃, energy-efficient, than conventional central air conditioner energy saving more than 70%, thereby simultaneously because passive radiating surface does not directly contact with capillary network makes passive radiating surface temperature be higher than dewpoint temperature to prevent dewfall; 2) comfort level height: with the radiation mode heating and refrigeration, indoor temperature change generated in case speed is fast, changes evenly, and is soft quiet, do not have air to flow and noise of equipment; 3) save the space, do not increase building load: capillary network is installed general about 5 centimetres of thickness, and on can be laid in flexibly ground or the wall, it is very convenient to install.For example the mansion of the use conventional central air-conditioning of one 20 floor if use capillary network can save 2 sheaf spaces, produces huge economic benefit; 4) environmental protection, energy-conservation, the ajutage of VMC is directly inserted 1/3rd places apart from furred ceiling of air-conditioning wall, handle by the cold and hot exchange that air-conditioning produces within the walls, independent VMC can be save and problem of pretreatment will be carried out, cut down the consumption of energy; 5) cooling, intensification are comparatively fast, owing to adopted the setting of house ornamentation blower fan, the air outlet of blower fan is facing to return air inlet, more lower slightly than return air inlet, because air outlet is selected the side air-supply for use, after blower fan is opened, the people stands in the place, air port and does not also have the high wind sense, than common comfort of air conditioner height, because the heat exchange process of whole air-conditioning system has been quickened in the effect of blower fan, refrigeration, heating effect are remarkable, every square metre of former capillary tube net heat exchange 65W, improving the common exacerbate emitted radiation power circulation in back and be every square metre of 80W, is every square metre of 120-150W behind the unlatching blower fan; 6) life-span permanent, whole system adopts the low-temp low-pressure operation, the line rupture protection valve of avoiding HTHP to bring, inwall does not produce incrustation scale.System adopts anticorrosives such as PP-R fully, between the capillary network unit and be responsible between adopt hot melt to be connected, the sealing of assurance pipe network.After even service time is permanent, be responsible for or the damage of capillary net unit, only the position of damaging need be cut off with special-purpose pipe, weld the back sealing by hot melt or soldering appliance again and get final product, can not influence the normal use of other parts.
Description of drawings
Fig. 1 is the passive cold emission face figure of the utility model;
Fig. 2 is the utility model sectional view;
Fig. 3 is the utility model side elevational view;
Fig. 4 is the utility model overall structure schematic diagram;
Among the figure: 1, furred ceiling; 2, return air inlet; 3, decorative cover; 4, air outlet; 5, water supply is responsible for; 6, backwater is responsible for; 7, capillary network; 8, condensed water drip tray; 9, blower fan; 10, condensed water delivery port; 11, passive radiating surface; 12, load-bearing supporting surface; 13, new blower fan group; 14-1, blast pipe; The 14-2 discharge pipe; The 14-3 ajutage; 15, backwind tube; 17, water collector; 18 water knockout drums; 19, ball valve; 20, flap valve; 21, outlet valve.
The specific embodiment
Below in conjunction with accompanying drawing the utility model is described further, Fig. 1-Fig. 3 is the structural representation of each side of the utility model, and Fig. 4 is the utility model overall structure schematic diagram.
The utility model as shown in the figure, the air-conditioning system that relates to a kind of capillary network air-conditioning wall and employing air-conditioning wall, comprise the air-conditioning wall, and be fixed on inner capillary network 7, air-conditioning system also comprises blower fan 9 that is arranged on air-conditioning wall top and the new blower fan group 13 that purifies air.The thickness of air-conditioning wall is at 10-13cm, passive radiating surface 11 of distance and load-bearing supporting surface 12 all stay according to radiating surface and load-bearing supporting surface material and air circulation reasonable computation headspace, and present embodiment reservation space, the 2cm left and right sides is the air quantity circulation and prevents because metope and radiating surface surface temperature are lower than dewpoint temperature and dewfall; Dismounting for convenience in addition, passive radiating surface 11 is removable drop front; The installation face width of capillary network 7 is 5cm, the height of capillary network unit is advisable with 2.1 meters, the two ends of capillary network 7 connect the water supply person in charge 5 and the backwater that cross capillary network respectively and are responsible for 6, for guarantee between the pipeline sealing, prevent to leak, capillary network 7 is responsible for confession, backwater by hot melting mode and is linked to each other, water circulates in capillary network, is responsible for the capillary network of flowing through by supplying water and enters at last in the backwater person in charge again, and the circulation that does not stop by water realizes refrigeration, the radiation that heats.
Capillary network 7 is connected in parallel by two capillary unit at least and forms, the capillary network unit adopts the PP-R material, adopt being connected to form one of hot melt between capillary network unit and the capillary network unit, further guarantee the sealing of whole pipe network, in order to regulate water level in the pipe network, backwater is responsible for and is connected water collector 17, and supplying water to be responsible for connects water knockout drum 18, is provided with the sealing valve 20 to regulating water level on described water collector 17 and the water knockout drum 18.Air-conditioning wall top is provided with furred ceiling 1, the middle part is a decorative cover 3, decorative cover and furred ceiling distance are 20cm-30cm, the both sides up and down of furred ceiling are respectively arranged with return air inlet 2 and air outlet 4, serve back formula under being arranged as in air port, utilize the mobile refrigeration or the interior air of heating chamber of hot and cold water in the capillary network 7, the hot pressing that temperature difference produces makes the air Automatic Cycle, the air-conditioning wall of type of respiration not only can well dehumidify by the bigger radiating area of capillary network, can also remove the pollution of indoor formaldehyde and airborne suspension.Air-conditioning portion within the walls is cement pressure plare or other barrier material sheet material, capillary network by cemented on the cement pressure plare.With air-conditioning within the walls portion adopt cement pressure plare and capillary network unit by cemented on pressure plare, be in order to increase the fastness of air-conditioning wall on the one hand, be the radiating area that increases whole capillary network on the other hand, realize the adjusting of temperature faster.Blower fan 9 is arranged on furred ceiling 1 or place, air-conditioning wall top, and the air outlet of general blower fan is facing to return air inlet, and is still lower slightly than return air inlet, can quicken flowing of air like this, strengthens refrigerating capacity and shortens cooling time.
New blower fan group 13 has blast pipe 14-1, discharge pipe 14-2 and ajutage 14-3, wherein ajutage 14-3 inserts 1/3rd places of air-conditioning wall apart from furred ceiling 1, because native system is to handle by the cold and hot exchange that air-conditioning produces within the walls, therefore having save independent VMC carries out pretreated problem, the VMC significant feature is to purify air, removed cooling work from, greatly reduced energy consumption, energy conservation.The bottom of capillary network 7 is provided with the drip tray 8 that is used for holding condensed water, and drip tray 8 is provided with condensed water delivery port 10 to the millesimal gradient of delivery port inclined position and in low side, and the eliminating that helps a small amount of condensed water like this is outdoor, avoids producing and pollutes.
Above embodiment only schematically illustrates preferred embodiment of the present utility model; be not to be used for limiting protection domain of the present utility model; protection domain of the present utility model should be as the criterion with claims, every being equal to replacement and all should belonging to protection domain of the present utility model of carrying out on the basis of said structure.
Claims (19)
1. capillary network air-conditioning wall, comprise the load-bearing knee wall and be fixed in air-conditioning capillary network within the walls, it is characterized in that: described air-conditioning wall also comprises passive radiating surface, between described passive radiating surface and the capillary network, all leave spacing between load-bearing knee wall and the capillary network and do not contact.
2. capillary network air-conditioning wall according to claim 1 is characterized in that: described air-conditioning wall also comprises and is arranged on the air-conditioning blower fan of portion and the VMC that purifies air within the walls.
3. capillary network air-conditioning wall according to claim 1 is characterized in that: the two ends of described capillary network connect the water supply person in charge and the backwater that cross capillary network respectively and are responsible for.
4. capillary network air-conditioning wall according to claim 1 and 2 is characterized in that: described capillary network is connected in parallel by two capillary unit at least and forms.
5. capillary network air-conditioning wall according to claim 3 is characterized in that: backwater is responsible for and is connected water collector, and supplying water to be responsible for connects water knockout drum, is provided with the sealing valve to regulating water level on described water collector and the water knockout drum.
6. capillary network air-conditioning wall according to claim 1 and 2 is characterized in that: described air-conditioning wall top is provided with furred ceiling, and the middle part is a decorative cover, and decorative cover and furred ceiling distance are 20cm-30cm, and the both sides up and down of furred ceiling are respectively arranged with return air inlet and air outlet.
7. capillary network air-conditioning wall according to claim 1 and 2 is characterized in that: described air-conditioning portion within the walls is the cement pressure plare, described capillary network by cemented on the cement pressure plare.
8. capillary network air-conditioning wall according to claim 1 and 2 is characterized in that: described blower fan is arranged on furred ceiling or place, air-conditioning wall top.
9. capillary network air-conditioning wall according to claim 1 and 2 is characterized in that: described VMC ajutage insert 1/3rd places of air-conditioning wall apart from the top.
10. capillary network air-conditioning wall according to claim 1 and 2 is characterized in that: described passive radiating surface is removable drop front.
11. capillary network air-conditioning wall according to claim 1 and 2, it is characterized in that: the bottom of described capillary network is provided with the drip tray that is used for holding condensed water, and described drip tray is to the millesimal gradient of delivery port inclined position.
12. an air-conditioning system is characterized in that: use as claim 1-3,5 each described air-conditioning walls as the air conditioning terminal heat exchanger.
13. an air-conditioning system is characterized in that: use air-conditioning wall as claimed in claim 4 as the air conditioning terminal heat exchanger.
14. an air-conditioning system is characterized in that: use air-conditioning wall as claimed in claim 6 as the air conditioning terminal heat exchanger.
15. an air-conditioning system is characterized in that: use air-conditioning wall as claimed in claim 7 as the air conditioning terminal heat exchanger.
16. an air-conditioning system is characterized in that: use air-conditioning wall as claimed in claim 8 as the air conditioning terminal heat exchanger.
17. an air-conditioning system is characterized in that: use air-conditioning wall as claimed in claim 9 as the air conditioning terminal heat exchanger.
18. an air-conditioning system is characterized in that: use air-conditioning wall as claimed in claim 10 as the air conditioning terminal heat exchanger.
19. an air-conditioning system is characterized in that: use air-conditioning wall as claimed in claim 11 as the air conditioning terminal heat exchanger.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010206720111U CN202081527U (en) | 2010-12-21 | 2010-12-21 | Capillary tube net air-conditioning wall and air-conditioning system using same |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010206720111U CN202081527U (en) | 2010-12-21 | 2010-12-21 | Capillary tube net air-conditioning wall and air-conditioning system using same |
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| Publication Number | Publication Date |
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| CN202081527U true CN202081527U (en) | 2011-12-21 |
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| CN2010206720111U Expired - Fee Related CN202081527U (en) | 2010-12-21 | 2010-12-21 | Capillary tube net air-conditioning wall and air-conditioning system using same |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102589068A (en) * | 2012-03-03 | 2012-07-18 | 万建红 | Gravity circulation air conditioner terminal device |
| CN103423826A (en) * | 2013-08-27 | 2013-12-04 | 上海理工大学 | Air cooler applying capillary network |
| CN106288096A (en) * | 2016-10-09 | 2017-01-04 | 重庆大学 | A kind of office area partition-type radiation heat transfer air-conditioner tail end equipment and heat exchange processing method |
| CN108105988A (en) * | 2018-02-23 | 2018-06-01 | 郭绍华 | Silencer of bundling pipe |
| CN108826545A (en) * | 2018-07-05 | 2018-11-16 | 河南城建学院 | Ceiling-floor cavity type capillary network air conditioner refrigeration system |
-
2010
- 2010-12-21 CN CN2010206720111U patent/CN202081527U/en not_active Expired - Fee Related
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102589068A (en) * | 2012-03-03 | 2012-07-18 | 万建红 | Gravity circulation air conditioner terminal device |
| CN103423826A (en) * | 2013-08-27 | 2013-12-04 | 上海理工大学 | Air cooler applying capillary network |
| CN106288096A (en) * | 2016-10-09 | 2017-01-04 | 重庆大学 | A kind of office area partition-type radiation heat transfer air-conditioner tail end equipment and heat exchange processing method |
| CN108105988A (en) * | 2018-02-23 | 2018-06-01 | 郭绍华 | Silencer of bundling pipe |
| CN108826545A (en) * | 2018-07-05 | 2018-11-16 | 河南城建学院 | Ceiling-floor cavity type capillary network air conditioner refrigeration system |
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| Date | Code | Title | Description |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20111221 Termination date: 20131221 |