CN205742604U - Intelligent temperature control material energy-saving wall - Google Patents

Intelligent temperature control material energy-saving wall Download PDF

Info

Publication number
CN205742604U
CN205742604U CN201620596661.XU CN201620596661U CN205742604U CN 205742604 U CN205742604 U CN 205742604U CN 201620596661 U CN201620596661 U CN 201620596661U CN 205742604 U CN205742604 U CN 205742604U
Authority
CN
China
Prior art keywords
temperature control
energy
layer
saving
plate
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
Application number
CN201620596661.XU
Other languages
Chinese (zh)
Inventor
赵汝和
孙姣姣
陈嫣
曹敬华
Original Assignee
孙姣姣
陈嫣
曹敬华
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by 孙姣姣, 陈嫣, 曹敬华 filed Critical 孙姣姣
Priority to CN201620596661.XU priority Critical patent/CN205742604U/en
Application granted granted Critical
Publication of CN205742604U publication Critical patent/CN205742604U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The utility model discloses a kind of intelligent temperature control material energy-saving wall; it includes body of wall matrix; the outside of body of wall matrix is sequentially provided with temperature control material TCM pipe, low emissivity surface material layer, protection material layer, decorative material layer; it is provided with vent passages between described temperature control material TCM pipe and low emissivity surface material layer; described temperature control material TCM pipe and protection material surface are separately installed with temperature sensor, intelligent controller control the start or stop ventilated according to temperature sensor signal.This utility model can effectively air lock outflow indoor heat and storage room internal heat generation source produce heat, again intelligentized control method with little energy store heat discharge chamber outside, hence in so that the power consumption of indoor air-conditioning system is greatly reduced, saves air conditioning system power consumption and reach 80%.This utility model is a self-contained unit, and simple in construction is easy to install, is not take up the interior space, does not affect air humidity and the pressure needing air-conditioned room.

Description

Intelligent temperature control material energy-saving wall
Technical field
This utility model relates to energy-conservation energy technology field, specifically a kind of intelligent temperature control material energy-saving wall.
Background technology
It is known that the exterior wall heat-insulation and heat-preservation of building is a good energy saving way.Exterior wall heat-insulation and heat-preservation is more Good, heat transfer coefficient is the least, the fewest by the heat output of body of wall.When outdoor temperature height (such as summer), the external world can be reduced The heat of environment enters indoor by exterior wall, thus reduces the energy consumption of air conditioning system;When outdoor temperature is low (such as winter), Indoor heat can be reduced distributed to outdoor by exterior wall, and then reduce heating energy consumption.But, the condition of thermal source is had in indoor Under, situation will be different.Such as, Internet data center (Internet Dada Centres, IDC) machine room, telecommunications base Standing machine room, grid equipment room etc., indoor have heat-producing device, exterior wall heat-insulation and heat-preservation can reduce outdoor heat to enter indoor, but Also the heat intercepting indoor equipment generation distributes to outdoor, so exterior wall heat-insulation and heat-preservation can not reach maximum energy-saving effect. These have the machine room of endogenous pyrogen, need outside the indoor heat discharge chamber of air conditioning system handle, the indoor suitably operating temperature of guarantee.
The air-conditioning watt level of IDC and base station machine room configuration is mainly according to the capacity of equipment and IDC and base station machine room wall Body heat transferring situation determines.IDC and base station machine room power consumption mainly include two aspects: one be equipment electricity consumption (include information technoloy equipment and Electric power system), two is building environment air conditioning electricity.Equipment runs without interruption for 24 hours, the biggest a part of conversion of electric energy of consumption For heat energy, when adding outdoor temperature height, pass through the heat of the incoming machine room of body of wall from outdoor so that computer room temperature raises, so needing Wanting air conditioning system that heat is expelled to outdoor, holding machine room is at suitable temperature, to ensure the properly functioning of equipment.It is said that in general, The plant capacity of about 85% distributes in the way of heat.Exterior wall heat output (outdoor incoming indoor) by the actual body of wall gross area, Exterior wall thermal resistance and indoor, the outdoor temperature difference are estimated.IDC and base station machine room are closed system, compact conformation, and equipment gives out Heat can not circulate release very well, so air conditioning system is in running status the most throughout the year, simply with season and outdoor temperature Change, start/stop time is variant.According to incompletely statistics, the power consumption of whole nation IDC and base station machine room 1 year (2015 annual data) reaches 1, 00000000000 Kwh.Wherein air conditioning system power consumption accounts for the 50% of base station power consumption total amount.So, IDC and base station room air conditioner power consumption one Year reaches 50,000,000,000 Kwh, is equivalent to 6,500,000 tons of coals (TCE), the row producing 2,7,000,000 tons of carbon dioxide and other greenhouse gases in a year Put.
Computer-room air conditioning system energy-conservation, the more than ten years in past do a lot of work.Machine room is reached in the way of control circuit Air conditioner energy saving, if Chinese Patent Application No. is 2006201205141, utility model is entitled, and " machine room air-conditioning energy-saving and phase sequence are protected Protection unit ", Chinese Patent Application No. be 2008201586208, entitled " a kind of outdoor generator rooms air conditioner energy saving system of utility model System ", Chinese Patent Application No. be 2009100598673, invention entitled " machine room air-conditioning energy-saving operation control system " etc..This Power-economizing method and the device of a little air conditioner in machine room reach a certain degree of energy-conservation.
Also have utilize the mode of peak-trough electricity heat-storage and cold-storage realize air conditioning system the most energy-conservation and save the electricity charge, such as China Number of patent application is 201521139910.4, utility model entitled " a kind of air conditioner system energy saving device ", and it passes through temperature control material Material TCM pipe stores heat and cold, in the paddy electricity period, by air conditioner, heat is discharged, and stores cold;In the peak electricity period, control The cold supply that adiabator TCM stores needs the room of air-conditioning, to save air conditioning system power consumption expense more than 50%.And for example China Number of patent application is 201620211748.0, entitled " a kind of base station air conditioner system temperature control material peak load shifting joint of utility model Energy device ", it discloses a kind of base station air conditioner system temperature control material peak load shifting energy saver, is specifically designed to IDC and base station machine Room air conditioning system energy-conservation, can save base station air conditioner system power consumption expense more than 50%.The power-economizing method of these air conditioning systems, energy Enough reach energy-saving effect largely.But, it is achieved these methods need to configure a house depositing temperature control material TCM, Usually it is located at the outside of IDC and base station machine room.But not having the occasion in vacant place outside machine room, the most more difficulty realizes.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of intelligent temperature control material energy-saving wall, overcomes above-mentioned The problem that air conditioner system energy saving method exists, and reach bigger efficiency saving IDC and the energy consumption effect of base station room air conditioner system.
This utility model is with the following technical scheme above-mentioned technical problem of solution:
This utility model intellectuality temperature control material energy-saving wall, it includes that body of wall matrix, the outside of body of wall matrix set successively Having temperature control material TCM pipe, low radiation coefficient table cover material layer, protection material layer, decorative material layer, described temperature control material TCM manages And it is provided with vent passages, described temperature control material TCM pipe and protection material surface between low radiation coefficient table cover material layer respectively Temperature sensor is installed.
Described vent passages is provided with ventilation installation, ventilation installation by intelligent controller according to temperature sensor signal control The start or stop of ventilation installation.
Described ventilation installation is arranged on outside decorative material layer and is connected with the top of vent passages, the end of vent passages Portion is provided with the air inlet being connected with outside air.
Described air inlet is provided with wet curtain.
One layer of low radiation coefficient table cover material layer is installed between described body of wall outer surface of matrix and temperature control material TCM pipe.
Described body of wall matrix be metal board wall body, color steel coloured silk aluminium sheet wall body, cement wall body, concrete walls body, fragment of brick wall body, Natural or synthetic marble wall body, wood siding wall body, inorganic material board wall body, plastics board wall body or composite material wall plate wall body.
Described temperature control material TCM pipe has higher thermal enthalpy, phase transition temperature at 18 DEG C~26 DEG C, employing glass fibre mesh bag, Plastics mesh bag or plastic bag load and hang on the outer surface of body of wall matrix.
Described low radiation coefficient table cover material layer is aluminum film, metal film or metallic plate.
Described protection material layer is color steel coloured silk aluminium sheet, metallic plate, hawk, inorganic material plate, plastic plate, natural or the biggest Gypsum Fibrosum plate, plank, clamping plate or composite panel.
Described decorative material layer is skin of paint, dope layer, light oil reservoir, color steel coloured silk aluminium sheet, plastic plate, plank, clamping plate, is combined Plate of material, plastic foil, inorganic material plate, natural or synthetic marble plate, cement sand bed or metallic plate.
Described ventilation installation is axial flow blower, centrifugal blower, turbofan, fan or compression fan.
Described temperature sensor is to be produced voltage signal or the sensor of current signal by temperature.
Described intelligent controller is temperature difference comparison controller, can compare temperature difference control ventilation according to temperature sensor signal and set Standby start or stop.
This utility model intellectuality temperature control material energy-saving wall has the advantages that
1, this utility model intellectuality temperature control material energy-saving wall, can as IDC and the exterior wall of base station machine room or other There is the exterior wall in the room of pyrotoxin indoor.
2, this utility model carrys out storage room internal heat generation source product by hanging on the temperature control material TCM pipe on body of wall matrix wall Raw heat and the heat incoming from outdoor, so reduce the unlatching of room conditioning.
3, intelligentized control method of the present utility model, can reduce the heat flow from outdoor incoming indoor, and increase from indoor biography To outdoor heat flow, so reduce the unlatching of room conditioning.
4, this utility model can be saved air conditioning system power consumption and reaches 80%.
5, this utility model simple in construction, is not take up the interior space, easy to install.
Accompanying drawing explanation
Fig. 1 is the structural representation of this utility model embodiment 1.
Fig. 2 is the structural representation of this utility model embodiment 2.
Fig. 3 is the structural representation of this utility model embodiment 3.
Fig. 4 is the structural representation of this utility model embodiment 4.
In figure: 1, body of wall matrix;2, glass fibre mesh bag or plastics mesh bag or plastic bag;3, temperature control material TCM pipe;4, logical Wind passage;5, air inlet;6, low emissivity surface layer;7, protection material layer;8, decorative material layer;9, #1 temperature sensor; 10, #2 temperature sensor;11, ventilation installation;12, intelligent controller;13, low emissivity surface layer;14, wet curtain;15, rainwater Collection device;16, water pipe.
Detailed description of the invention
The utility model is described in further detail below in conjunction with the accompanying drawings.
Embodiment 1, as it is shown in figure 1, this utility model intellectuality temperature control material energy-saving wall, including body of wall matrix 1, body of wall The outside of matrix 1 is sequentially provided with temperature control material TCM pipe 3, low radiation coefficient table cover material layer 6, protection material layer 7 and ornament materials Layer 8, is provided with vent passages 4 between temperature control material TCM pipe 3 and low radiation coefficient table cover material layer 6, the bottom of vent passages 4 sets Having the air inlet 5 being connected with outside air, the top of vent passages 4 is provided with ventilation installation 11, and ventilation installation 11 is positioned at dress It is connected outside the decoration materials bed of material 8 and with vent passages 4.The surface of protection material layer 7 is provided with #1 temperature sensor 9, temperature control material The surface of material TCM pipe 3 is provided with #2 temperature sensor 10, and intelligent controller 12 can pass according to #1 temperature sensor 9 and #2 temperature The signal of sensor 10 controls the start or stop of ventilation installation 11.
Described temperature control material TCM pipe 3 is by temperature control material TCM (Temperature Control Materials) forever It is packaged in for a long time in aluminum composite diaphragm (ABL) pipe and makes.Temperature control material TCM pipe have higher thermal enthalpy, phase transition temperature at 18 DEG C~ 26℃.Temperature control material TCM pipe 3 can use manufacturer Tri-Y Environmental from buying on the market Research Institute, product type are NATURAL TCM ENERGYCommodity, or product type is TCM ENERGYCommodity.Certainly, the temperature control material of other manufacturers is equally applicable, has enough heat enthalpy values, suitable The phase-change material of phase transition temperature is equally applicable.
Described temperature control material TCM pipe 3 is to use glass fibre mesh bag, plastics mesh bag or plastic bag 2 to load to hang on body of wall On the outer surface of matrix 1.
The glass fibre mesh bag that this example uses is the company that fiberglass gridding cloth is seamed into by the size of temperature control material TCM pipe Continuous mesh bag;The plastics mesh bag used is the continuous mesh bag being seamed into by the size of temperature control material TCM pipe with plastic grid cloth;Use The bag on roll that plastic bag plastic foil is made by the size of temperature control material TCM pipe.
The low radiation coefficient table cover material layer that this example uses is aluminum film, metal film or metallic plate.
The protection material layer that this example uses is color steel coloured silk aluminium sheet, metallic plate, hawk, inorganic material plate, plastic plate, wood Plate, clamping plate, natural or synthetic marble plate, or composite panel.
The decorative material layer that this example uses be skin of paint, dope layer, light oil reservoir, color steel coloured silk aluminium sheet, plastic plate, plank, Clamping plate, composite panel, plastic foil, inorganic material plate, natural or synthetic marble plate, cement sand bed or metallic plate.
The ventilation installation that this example uses is axial flow blower, centrifugal blower, turbofan, fan or compression fan.
The temperature sensor that this example uses is to be produced voltage signal or the sensor of current signal by temperature.
The intelligent controller that this example uses is temperature difference comparison controller, can be according to #1 temperature sensor and #2 temperature sensing The signal of device compares the temperature difference and controls the start or stop of ventilation installation.
The operation principle of the intelligent temperature control material energy-saving wall of this example is as follows:
The heat that indoor pyrotoxin produces is stored in temperature control material TCM pipe 3 through body of wall matrix 1.Less thermal resistance body of wall Matrix 1 can make indoor heat faster reach temperature control material TCM pipe 3.
The signal of #1 temperature sensor 9 and #2 temperature sensor 10 is delivered to intelligent controller 12 and is carried out Temperature Difference Ratio relatively, works as #1 During the temperature that the temperature of temperature sensor 9 sensing senses higher than #2 temperature sensor 10, intelligent controller 12 controls ventilation installation 11 are closed, and the thermal resistance of the most whole body of wall is very big (heat transfer coefficient is the least), and the hot-fluid outside air lock passes through body of wall stream Enter indoor.
When the temperature that the temperature of #1 temperature sensor 9 sensing senses less than #2 temperature sensor 10, intelligent controller 12 Controlling to open ventilation installation 11, now ventilation installation 11 is convulsion state, and outdoor air enters vent passages 4 from air inlet 5, from Ventilation installation 11 discharges, and takes away the heat being stored in temperature control material TCM pipe 3.Increase due to now vent passages 4 convection current again, whole The thermal resistance of individual body of wall is the least (heat transfer coefficient is the biggest), is stored in the heat of temperature control material TCM pipe 3 through protection material layer 7 and dress The decoration materials bed of material 8 spreads out of outdoor.
The heat flowed into outside the intelligent temperature control material effective air lock of energy-saving wall physical ability of this example storage room internal heat generation Source produce heat, again intelligentized control method with little energy store heat discharge chamber outside.Therefore, the consumption of indoor air-conditioning system Electricity is greatly reduced.
Embodiment 2, as in figure 2 it is shown, its structure is substantially the same manner as Example 1, simply ventilation installation 11 is installed on to ventilate and leads to In road 4, it is not provided with air inlet 5 simultaneously.
The work process of this example air conditioner system energy saving device is essentially identical with example 1.The heat that indoor pyrotoxin produces It is stored in temperature control material TCM pipe 3 through body of wall matrix 1.Body of wall matrix 1 has less thermal resistance that indoor heat can be made faster to reach control Adiabator TCM pipe 3.
The signal of #1 temperature sensor 9 and #2 temperature sensor 10 is delivered to intelligent controller 12 and is carried out Temperature Difference Ratio relatively, works as #1 During the temperature that the temperature of temperature sensor 9 sensing senses higher than #2 temperature sensor 10, intelligent controller 12 controls ventilation installation 11 are closed, and now, the thermal resistance of whole body of wall is very big (heat transfer coefficient is the least), and the hot-fluid outside air lock passes through body of wall stream Enter indoor.
When the temperature that the temperature of #1 temperature sensor 9 sensing senses less than #2 temperature sensor 10, intelligent controller 12 Controlling to open ventilation installation 11, now ventilation installation 11 is circulating ventilation state, increases the convection current of vent passages 4, whole body of wall Thermal resistance the least (heat transfer coefficient is the biggest), be stored in the heat of temperature control material TCM pipe 3 through protection material layer 7 and ornament materials Layer 8 spreads out of outdoor.
Embodiment 3, as it is shown on figure 3, its structure is substantially the same manner as Example 1, simply body of wall matrix 1 surface and temperature control material One layer of low radiation coefficient table cover material layer 13 it is mounted with between TCM pipe 3.
The work process of this example air conditioner system energy saving device is essentially identical with example 1.
Embodiment 4, as shown in Figure 4, its structure is substantially the same manner as Example 1, is simply provided with wet curtain at air inlet 5 14, wet curtain 14 is connected with the rain collector 15 being provided with on roof by water pipe 16, the water that rain collector 15 stores Wet curtain 14 is supplied, it would however also be possible to employ the tank supply wet curtain 14 of tap water or alternate manner uses water by water pipe 16.
The work process of this example air conditioner system energy saving device is essentially identical with example 1.
The heat that indoor pyrotoxin produces is stored in temperature control material TCM pipe 3 through body of wall matrix 1.Body of wall matrix 1 has less Thermal resistance indoor heat can be made faster to reach temperature control material TCM pipe 3.
The signal of #1 temperature sensor 9 and #2 temperature sensor 10 is delivered to intelligent controller 12 and is carried out Temperature Difference Ratio relatively, works as #1 During the temperature that the temperature of temperature sensor 9 sensing senses higher than #2 temperature sensor 10, intelligent controller 12 controls ventilation installation 11 are closed, and the thermal resistance of the most whole body of wall is very big (heat transfer coefficient is the least), and the hot-fluid outside air lock passes through body of wall stream Enter indoor.
When the temperature that the temperature of #1 temperature sensor 9 sensing senses less than #2 temperature sensor 10, intelligent controller 12 Controlling to open ventilation installation 11, now ventilation installation 11 is convulsion state, and outdoor air enters logical from air inlet 5 by wet curtain 14 Wind passage 4, wet curtain 14 makes air themperature reduce (general reduction by 4~7 DEG C), discharges from ventilation installation 11, take away more being stored in The heat of temperature control material TCM pipe 3, improves efficiency.Simultaneously because vent passages 4 convection current increases, the thermal resistance of whole body of wall is the least (to be passed Hot coefficient is the biggest), the heat being stored in temperature control material TCM pipe 3 spreads out of outdoor through protection material layer 7 and decorative material layer 8.
The heat flowed into outside the intelligent temperature control material effective air lock of energy-saving wall physical ability of this example storage room internal heat generation The heat of source generation, again intelligentized control method are with little energy outside the heat discharge chamber stored, and the wet curtain 14 of air inlet 5 enters logical Wind passage 4, wet curtain 14 makes air themperature reduce, and takes away more heat, improves efficiency.Therefore, the power consumption of indoor air-conditioning system is big Big minimizing, even up to without air-conditioning.
This utility model intellectuality temperature control material energy-saving wall physical ability overcomes IDC machine room, base station machine room, electrical equipment room and has The shortcoming of the existing power-economizing method of air conditioning system in the room of pyrotoxin, has the advantage that
1, this utility model intellectuality temperature control material energy-saving wall, can as IDC and the exterior wall of base station machine room or other There is the exterior wall in the room of pyrotoxin indoor.
2, this utility model carrys out storage room internal heat generation source product by hanging on the temperature control material TCM pipe on body of wall matrix wall Raw heat and the heat incoming from outdoor, so reduce the unlatching of room conditioning.
3, the temperature control material TCM pipe that this utility model uses, has big heat content at 18 DEG C~26 DEG C of temperature ranges, prolonged resistance to With;May be used without higher thermal enthalpy, phase transition temperature phase-change material between 18 DEG C~26 DEG C.
4, this utility model passes through intelligentized control method, can reduce the heat flow from outdoor incoming indoor, and increase from indoor Reach the heat flow of outdoor, thus reduce the unlatching of room conditioning.
5, this utility model can be saved air conditioning system power consumption and reaches 80%.
6, this utility model can be used for the energy-conservation of any air conditioning system it can also be used to be fitted without air conditioning system and need sky The room adjusted.
7, this utility model simple in construction, is not take up the interior space, easy to install.
8, this utility model is a self-contained unit, does not affect air humidity and the pressure in the room needing air-conditioning.
Although content of the present utility model and detailed description of the invention are in this more detailed description, but, this utility model Can be realized by the embodiment of other essence without departing from its spirit or essential feature.So, this reality disclosed above By novel content and detailed description of the invention, it is not only.All in the range of this utility model or to be equal to this practicality new Change in the range of type, change, improve, replacement etc., should all be included by this utility model.

Claims (11)

1. intelligent temperature control material energy-saving wall, including body of wall matrix, it is characterised in that the outside of body of wall matrix is sequentially provided with control Adiabator TCM pipe, low radiation coefficient table cover material layer, protection material layer, decorative material layer, described temperature control material TCM manages and low Width is penetrated and is provided with vent passages between coefficient table cover material layer, and described temperature control material TCM pipe and protection material surface are respectively mounted There is temperature sensor.
The most intelligent temperature control material energy-saving wall, it is characterised in that described vent passages is provided with logical Wind devices, ventilation installation is controlled the start or stop of ventilation installation by intelligent controller according to temperature sensor signal.
The most intelligent temperature control material energy-saving wall, it is characterised in that described ventilation installation is arranged on dress Being connected outside the decoration materials bed of material and with the top of vent passages, the bottom of vent passages is provided with the air intake being connected with outside air Mouthful.
The most intelligent temperature control material energy-saving wall, it is characterised in that described air inlet is provided with wet Curtain.
The most intelligent temperature control material energy-saving wall, it is characterised in that described body of wall outer surface of matrix with One layer of low radiation coefficient table cover material layer is installed between temperature control material TCM pipe.
The most intelligent temperature control material energy-saving wall, it is characterised in that described body of wall matrix is metallic plate Wall body, color steel coloured silk aluminium sheet wall body, cement wall body, concrete walls body, fragment of brick wall body, natural or synthetic marble wall body, wood siding wall Body, inorganic material board wall body, plastics board wall body or composite material wall plate wall body.
The most intelligent temperature control material energy-saving wall, it is characterised in that described temperature control material TCM pipe has Higher thermal enthalpy, phase transition temperature, at 18 DEG C~26 DEG C, use glass fibre mesh bag, plastics mesh bag or plastic bag to load and hang on wall On the outer surface of body matrix.
8. according to temperature control material energy-saving wall intelligent described in claim 1 or 5, it is characterised in that described low radiation coefficient table Cover material layer is aluminum film, metal film or metallic plate.
The most intelligent temperature control material energy-saving wall, it is characterised in that described protection material layer is color steel Color aluminium sheet, metallic plate, hawk, inorganic material plate, plastic plate, natural or synthetic marble plate, plank, clamping plate or composite Plate.
The most intelligent temperature control material energy-saving wall, it is characterised in that described decorative material layer is oil Enamelled coating, dope layer, light oil reservoir, color steel coloured silk aluminium sheet, plastic plate, plank, clamping plate, composite panel, plastic foil, inorganic material plate, Natural or synthetic marble plate, cement sand bed or metallic plate.
11. intelligent temperature control material energy-saving walls according to claim 1, it is characterised in that described ventilation installation is axial flow Blower fan, centrifugal blower, turbofan, fan or compression fan.
CN201620596661.XU 2016-06-17 2016-06-17 Intelligent temperature control material energy-saving wall Active CN205742604U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201620596661.XU CN205742604U (en) 2016-06-17 2016-06-17 Intelligent temperature control material energy-saving wall

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201620596661.XU CN205742604U (en) 2016-06-17 2016-06-17 Intelligent temperature control material energy-saving wall

Publications (1)

Publication Number Publication Date
CN205742604U true CN205742604U (en) 2016-11-30

Family

ID=57386871

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201620596661.XU Active CN205742604U (en) 2016-06-17 2016-06-17 Intelligent temperature control material energy-saving wall

Country Status (1)

Country Link
CN (1) CN205742604U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106836522A (en) * 2017-03-01 2017-06-13 华中科技大学 One kind self-regulation phase transformation Te Langbei walls
CN109826366A (en) * 2019-02-27 2019-05-31 徐成 Building cooling wallboard

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106836522A (en) * 2017-03-01 2017-06-13 华中科技大学 One kind self-regulation phase transformation Te Langbei walls
CN106836522B (en) * 2017-03-01 2019-08-30 华中科技大学 A kind of self-regulation phase transformation Te Langbei wall
CN109826366A (en) * 2019-02-27 2019-05-31 徐成 Building cooling wallboard

Similar Documents

Publication Publication Date Title
CN101324352B (en) Solar energy storage ventilated heating system
Zhai et al. Experiences on solar heating and cooling in China
CN107313520B (en) A kind of double-deck phase-change accumulation energy air-conditioning system based on Ventilating wall
CN103925635B (en) A kind of all-weather solar energy supplying system
CN102776959B (en) Energy-saving solar energy combined modular split phase-changing house energy-saving system
CN203810533U (en) All-weather solar energy supply device
CN102589078A (en) Ventilation system and operation method thereof
CN105737397A (en) Wall system comprehensively utilizing solar energy and geothermal energy
CN102338415A (en) Self-controlled hot-air solar floor heat storage system
CN205742604U (en) Intelligent temperature control material energy-saving wall
CN208458079U (en) A kind of new type solar collecting Heat Storing Wall heating and ventilation system
CN110160196A (en) A kind of passive type heating ventilation system of solar chimney integrated separation formula heat pipe
CN101705751B (en) Solar energy integration buildinghouse
CN102561726A (en) Multi-storey and high-rise building system configured by power-assembling section plates
CN204826233U (en) Passive form sunshine room system with indoor temperature regulatory function
CN202658915U (en) Self-heating solar energy single building
CN206245530U (en) Ground source heat solar-energy ecological type is built
CN101672115A (en) Heat collecting and accumulating wall type passive solar house
CN205557817U (en) Building energy conservation photovoltaic system
CN202281302U (en) Self-control hot-wind type solar floor heat accumulation system
CN201567806U (en) Solar energy integration house
CN1237247C (en) Full-elevation daylighting window and intelligent all-weather solar energy building
CN109138146A (en) A kind of low energy consumption assembled architecture
CN204854024U (en) Dull and stereotyped air heating device of solar drive vortex
CN101382325A (en) Construction integration solar synthesis heat utilization system

Legal Events

Date Code Title Description
GR01 Patent grant
C14 Grant of patent or utility model