CN204491851U - Be applied to the high energy efficiency space enclosing structure that the thermal transmittance of golf calorific value building is variable - Google Patents
Be applied to the high energy efficiency space enclosing structure that the thermal transmittance of golf calorific value building is variable Download PDFInfo
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- CN204491851U CN204491851U CN201520125250.8U CN201520125250U CN204491851U CN 204491851 U CN204491851 U CN 204491851U CN 201520125250 U CN201520125250 U CN 201520125250U CN 204491851 U CN204491851 U CN 204491851U
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Abstract
Be applied to the high energy efficiency space enclosing structure that the thermal transmittance of golf calorific value building is variable, comprise outer wall structure of building, high heat transfer coefficient space enclosing structure, low heat transfer coefficient space enclosing structure, low heat transfer coefficient structure jack and control system; Described high heat transfer coefficient space enclosing structure and described low heat transfer coefficient space enclosing structure are independent separately, described low heat transfer coefficient space enclosing structure is connected with described low heat transfer coefficient structure jack, and described control system is run and controlled the combination between the two of described low heat transfer coefficient space enclosing structure and described high heat transfer coefficient space enclosing structure by connecting described low heat transfer coefficient structure jack and controlling it or be separated.The utility model proposes a kind of variable high energy efficiency space enclosing structure of thermal transmittance being applied to golf calorific value building, energy-conserving and environment-protective, the air conditioning energy consumption of effective reduction golf calorific value building, reduce equipment the expending for electric energy such as water pump, indoor and outdoor blower fan, and require lower, applied widely to indoor/outdoor temperature-difference.
Description
Technical field
The utility model relates to building system heat control technology field, particularly relates to the variable high energy efficiency space enclosing structure of thermal transmittance being applied to golf calorific value building.
Background technology
Current social there is the building of a large amount of golf calorific value, such as, store the places such as the data center of the filesystem server of golf calorific value, or the industrial premises etc. that pottery etc. needs high temperature kiln to burn till, this kind of building interior has amount of heat to produce throughout the year.In order to ensure the normal work and use of internal unit, need these heats to distribute, so often need to adopt air-conditioning system to carry out cooling.
But along with the strengthening of entire society's awareness of saving energy, the air conditioning energy consumption reducing this type of building is the emphasis of current energy conservation.And adopt the free low-temperature receiver in outdoor in winter to be first-selected power-saving technology direction.The main technological route in this direction comprises: the technology that outdoor new wind is directly introduced; Adopt air-conditioning system, but direct cooling tower is prepared chilled water and is not needed out compressor; With heat pipe air conditioner or ventilation heat exchange equipment, indoor heat is discharged to outdoor etc.
But new wind directly introducing can cause indoor accelerated test to increase; The mode of cooling tower is adopted still to have the energy consumptions such as blower fan of cooling tower, cooling water pump, indoor fan; Heat pipe air conditioner or ventilation heat exchange equipment is adopted still to need consume indoor and outdoor fan energy consumption and require that indoor/outdoor temperature-difference is larger.
Lack a kind of air conditioning energy consumption that effectively can reduce golf calorific value building in prior art, reduce equipment the expending for electric energy such as water pump, indoor and outdoor blower fan, and lower power-saving technology is required to indoor/outdoor temperature-difference.
Utility model content
The purpose of this utility model is to propose a kind of variable high energy efficiency space enclosing structure of thermal transmittance being applied to golf calorific value building, energy-conserving and environment-protective, the air conditioning energy consumption of effective reduction golf calorific value building, reduce equipment the expending for electric energy such as water pump, indoor and outdoor blower fan, and require lower to indoor/outdoor temperature-difference.
For reaching this object, the utility model by the following technical solutions:
The utility model can be market and provides a kind of variable energy-saving enclosure structure system being applied to golf calorific value building.In the lower situation of outside temperature, enclosure structure heat transfer coefficient is higher, a large amount of indoor heat can be passed to outdoor.In the higher situation of outside temperature, enclosure structure heat transfer coefficient is lower, stops outdoor heat to pass to indoor.In the utility model, golf calorific value building is that a kind of thermal source externally constantly dispels the heat at building interior, every square metre of annual calorific value is higher than the building of 500 kilowatt hours, such as communication base station, store the place such as data center of the filesystem server of golf calorific value, or the industrial premises etc. that pottery etc. needs high temperature kiln to burn till.
Variable energy-saving enclosure structure system involved by the utility model comprises following 4 structures: high heat transfer coefficient space enclosing structure, low heat transfer coefficient space enclosing structure, low heat transfer coefficient space enclosing structure jack, control system.
Described high heat transfer coefficient space enclosing structure and described low heat transfer coefficient space enclosing structure are independent separately, described low heat transfer coefficient space enclosing structure is connected with described low heat transfer coefficient structure jack, and described control system is run and controlled the combination between the two of described low heat transfer coefficient space enclosing structure and described high heat transfer coefficient space enclosing structure by connecting described low heat transfer coefficient structure jack and controlling it or be separated.
When described high heat transfer coefficient space enclosing structure is separately as space enclosing structure, the overall thermal transmittance of architectural exterior-protecting construction is higher; When described low heat transfer coefficient space enclosing structure is open mode, jointly form the lower space enclosing structure of overall thermal transmittance with described high heat transfer coefficient space enclosing structure.
More excellent, described low heat transfer coefficient space enclosing structure is provided with multiple, can according to outdoor, indoor variations in temperature, pack up or open low heat transfer coefficient space enclosing structure by control system by controlling low heat transfer coefficient space enclosing structure jack, thus change the enclosure structure heat transfer coefficient of building, and then the temperature range in control room is in machine room normal temperature range.
In the utility model, golf calorific value building external space enclosing structure is alternatively non-transparent structure, and space enclosing structure outside adopts the heat insulating material of organic or inorganic.
Technological core of the present utility model is: when outside temperature is lower than interior temperature, and architectural exterior-protecting construction is based on high heat transfer coefficient space enclosing structure, and low heat transfer coefficient space enclosing structure is collapsed state; When outside temperature is equal to or higher than interior temperature, low heat transfer coefficient space enclosing structure is open mode, and jointly forms the lower space enclosing structure of overall thermal transmittance with high heat transfer coefficient space enclosing structure; Low heat transfer coefficient space enclosing structure, at the switching motion packed up and between open mode, is performed by low heat transfer coefficient space enclosing structure jack; The execution of low heat transfer coefficient space enclosing structure jack is controlled according to control logic by control system.
High energy efficiency space enclosing structure of the present utility model is used automatically to adapt to and to adjust interior temperature, structure is simple, ensure indoor equipment energy normal work and use, the life-span of extension device, the air conditioning energy consumption of effective reduction golf calorific value building, reduce equipment the expending for electric energy such as water pump, indoor and outdoor blower fan, energy-conserving and environment-protective, and require lower to indoor/outdoor temperature-difference.
Accompanying drawing explanation
Fig. 1 be an embodiment of the present utility model in outside temperature higher than schematic diagram when 24.0 DEG C;
Fig. 2 is the schematic diagram of an embodiment of the present utility model when outside temperature is between 22.8 ~ 24.0 DEG C;
Fig. 3 is the schematic diagram of an embodiment of the present utility model when outside temperature is between 20.6 ~ 22.8 DEG C;
Fig. 4 is the schematic diagram of an embodiment of the present utility model when outside temperature is between 14.8 ~ 20.6 DEG C;
Fig. 5 is the schematic diagram of an embodiment of the present utility model when outside temperature is between-31.5 ~ 14.8 DEG C.
Wherein, high heat transfer coefficient space enclosing structure 1, low heat transfer coefficient space enclosing structure 2, low heat transfer coefficient space enclosing structure jack 3, control system 4, outdoor 5, indoor 6.
detailed description of the invention:
According to all or part of factor in the structures such as the calorific value of on-site weather, indoor equipment, the build of building, building orientation, the sunshine series of parameters such as relation, after computational analysis, low heat transfer coefficient space enclosing structure 2 is packed up or opened to control system 4 by controlling low heat transfer coefficient space enclosing structure jack 3, thus change the enclosure structure heat transfer coefficient of building, and then the temperature range in control room is in machine room normal temperature range.Such as, in this example, building the single building that the 3m of the 6m × 6m for being positioned at Shanghai is high, being oriented due south, sunshine is unobstructed.There is the endogenous pyrogen that calorific value is 3kW in building interior, roof thermal transmittance is 1W/ (m
2k), high heat transfer coefficient space enclosing structure 4 thermal transmittance is 10 W/ (m
2k), when low heat transfer coefficient space enclosing structure 2 opened by low heat transfer coefficient space enclosing structure jack 3, building enclosure structure heat transfer coefficient is 0.2 W/ (m
2k), indoor environment temperature control range is set to 28 DEG C ± 5 DEG C.When outside temperature is higher than 24.0 DEG C, controls low heat transfer coefficient space enclosing structure jack 3 by control system 4 and the low heat transfer coefficient space enclosing structure 2 of packing up all is opened.Now, low heat transfer coefficient space enclosing structure 2 and high heat transfer coefficient space enclosing structure 1 together form the lower space enclosing structure of thermal transmittance, i.e. Fig. 1 state.
When outside temperature is between 22.8 ~ 24.0 DEG C, controls low heat transfer coefficient space enclosing structure jack 3 by control system 4 and low heat transfer coefficient space enclosing structure 2 is all packed up.The now high heat transfer coefficient space enclosing structure 1 main space enclosing structure of building for golf calorific value, heat falls apart to outdoor by high heat transfer coefficient space enclosing structure 1 indoor, i.e. Fig. 2 state.
Described low heat transfer coefficient space enclosing structure 2 is provided with multiple, and what can control low heat transfer coefficient space enclosing structure 2 according to outdoor, indoor variations in temperature by control system 4 opens quantity,
When outside temperature progressively reduces, when outside temperature is between 20.6 ~ 22.8 DEG C, controls low heat transfer coefficient space enclosing structure jack 3 by control system 4 and the low heat transfer coefficient space enclosing structure 2 of packing up is opened 1.Now the thermal transmittance of architectural exterior-protecting construction slightly reduces, but high heat transfer coefficient space enclosing structure 1 is still the main space enclosing structure of golf calorific value building, and heat falls apart to outdoor by high heat transfer coefficient space enclosing structure 1 indoor, i.e. Fig. 3 state.
When outside temperature is between 14.8 ~ 20.6 DEG C, controls low heat transfer coefficient space enclosing structure jack 3 by control system 4 and the low heat transfer coefficient space enclosing structure 2 of packing up is opened 2.Now the thermal transmittance of architectural exterior-protecting construction reduces further, but the main space enclosing structure that high heat transfer coefficient space enclosing structure 1 is built for golf calorific value, heat falls apart to outdoor by high heat transfer coefficient space enclosing structure 1 indoor, i.e. Fig. 4 state.
When outside temperature is between-31.5 ~ 14.8 DEG C, controls low heat transfer coefficient space enclosing structure jack 3 by control system 4 and the low heat transfer coefficient space enclosing structure 2 of packing up is opened 3.Now the thermal transmittance of architectural exterior-protecting construction reduces more, i.e. Fig. 5 state.
Main application implementation mode of the present utility model is in this utility model technical foundation, researches and develops some products for building actual condition, is applied to golf calorific value building, applied widely.
Below know-why of the present utility model is described in conjunction with specific embodiments.These describe just in order to explain principle of the present utility model, and can not be interpreted as the restriction to the utility model protection domain by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other detailed description of the invention of the present utility model, and these modes all will fall within protection domain of the present utility model.
Claims (7)
1. be applied to the high energy efficiency space enclosing structure that the thermal transmittance of golf calorific value building is variable, it is characterized in that: comprise outer wall structure of building, high heat transfer coefficient space enclosing structure, low heat transfer coefficient space enclosing structure, low heat transfer coefficient structure jack and control system;
Described high heat transfer coefficient space enclosing structure and described low heat transfer coefficient space enclosing structure are independent separately, described low heat transfer coefficient space enclosing structure is connected with described low heat transfer coefficient structure jack, and described control system is run and controlled the combination between the two of described low heat transfer coefficient space enclosing structure and described high heat transfer coefficient space enclosing structure by connecting described low heat transfer coefficient structure jack and controlling it or be separated.
2. the variable high energy efficiency space enclosing structure of thermal transmittance being applied to golf calorific value building according to claim 1, is characterized in that: described low heat transfer coefficient space enclosing structure is provided with multiple.
3. the variable high energy efficiency space enclosing structure of thermal transmittance being applied to golf calorific value building according to claim 1, is characterized in that: when described high heat transfer coefficient space enclosing structure is separately as space enclosing structure, and the overall thermal transmittance of architectural exterior-protecting construction is higher; When described low heat transfer coefficient space enclosing structure is open mode, jointly form the lower space enclosing structure of overall thermal transmittance with described high heat transfer coefficient space enclosing structure.
4. the variable high energy efficiency space enclosing structure of thermal transmittance being applied to golf calorific value building according to claim 1, it is characterized in that: described low heat transfer coefficient space enclosing structure, at the switching motion packed up and between open mode, is performed by described low heat transfer coefficient space enclosing structure jack; The execution of described low heat transfer coefficient space enclosing structure jack is controlled according to control logic by described control system.
5. the variable high energy efficiency space enclosing structure of thermal transmittance being applied to golf calorific value building according to claim 1, is characterized in that: described high heat transfer coefficient space enclosing structure is alternatively non-transparent structure.
6. the variable high energy efficiency space enclosing structure of thermal transmittance being applied to golf calorific value building according to claim 1, is characterized in that: described low heat transfer coefficient space enclosing structure is alternatively non-transparent structure.
7. the variable high energy efficiency space enclosing structure of thermal transmittance being applied to golf calorific value building according to claim 1, is characterized in that: the outside of described high heat transfer coefficient space enclosing structure or described low heat transfer coefficient space enclosing structure adopts the heat insulating material of organic or inorganic.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104695564A (en) * | 2015-03-04 | 2015-06-10 | 上海市建筑科学研究院 | Enclosure structure provided with variable heat transfer coefficient and high energy efficiency and used for high-calorific-value buildings |
CN107606979A (en) * | 2017-10-16 | 2018-01-19 | 上海建科建筑节能技术股份有限公司 | A kind of adjustable wall apparatus of heat transfer coefficient of equal value and its installation method |
-
2015
- 2015-03-04 CN CN201520125250.8U patent/CN204491851U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104695564A (en) * | 2015-03-04 | 2015-06-10 | 上海市建筑科学研究院 | Enclosure structure provided with variable heat transfer coefficient and high energy efficiency and used for high-calorific-value buildings |
CN107606979A (en) * | 2017-10-16 | 2018-01-19 | 上海建科建筑节能技术股份有限公司 | A kind of adjustable wall apparatus of heat transfer coefficient of equal value and its installation method |
CN107606979B (en) * | 2017-10-16 | 2023-12-05 | 上海建科建筑节能技术股份有限公司 | Wall body device with adjustable equivalent heat transfer coefficient and installation method thereof |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150722 Termination date: 20160304 |