CN202007467U - Double-wall structure of building - Google Patents

Double-wall structure of building Download PDF

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Publication number
CN202007467U
CN202007467U CN2010206744328U CN201020674432U CN202007467U CN 202007467 U CN202007467 U CN 202007467U CN 2010206744328 U CN2010206744328 U CN 2010206744328U CN 201020674432 U CN201020674432 U CN 201020674432U CN 202007467 U CN202007467 U CN 202007467U
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China
Prior art keywords
wall
building
air
plug
sheet material
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Expired - Lifetime
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CN2010206744328U
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Chinese (zh)
Inventor
郑迪
蒋利学
潘京
范国刚
曹毅然
朱伟峰
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SHANGHAI JIANKE CONSTRUCTION DESIGN INSTITUTE Co Ltd
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SHANGHAI JIANKE CONSTRUCTION DESIGN INSTITUTE Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A30/00Adapting or protecting infrastructure or their operation
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/90Passive houses; Double facade technology

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Abstract

The utility model relates to a wall structure of a building, and the wall structure is capable of realizing thermal insulation and energy saving effects. The double-wall structure comprises an inner wall (5) and an outer cladding plate (7), and the gap distances of an air chamber (10) between the inner wall (5) and the outer cladding plate (7) from the top to the bottom of the building are different. A plurality of layers form a building unit, and each building unit has a bottom and a top opposite to each other. A variable cross-section air cavity is selected based on the pressure difference of air outlets and air inlets. Pressure difference involves height difference of the cavity, temperature outside and inside the cavity, and regional mediate wind volume. In actual situation, the application can be flexible depending on environment and technical purposes. The speed of air convection between inner wall (5) and the outer cladding plate (7) can be increased, so as to provide different structure for different objects, and to improve thermal insulation and energy saving effects.

Description

A kind of wall body structure of building double wall
Technical field
The utility model relates to the thermal insulation technology of building field, and a kind of wall body structure that specifically relates to building is to reach the effect of thermal-insulation energy-conservation.
Background technology
In order to improve the cold-resistant warming effect of heat insulation of building, in order to improve the energy-saving effect of building, carried out a kind of double wall structure technology at building field, promptly the plug-in sheet material of one deck is set again in the outside of former wall, one sheaf space is arranged between the two, or the title air layer, general double wall structure is by a built-in bearing course and outer a composition, and the outer protection load-carrying members that mainly play a part are avoided erosion and reflected solar radiation heat such as wind, rain, snow.Through decades development, double wall technological core content mainly is made up of three parts, outer plug-in sheet material protection, internal layer materials for wall itself, and the air cavity of formation between two-layer.
Theory and practice proves that the air cavity in the middle of the double wall can reach 10dB or more to the sound insulation factor of the sound wave of general frequency.Except that sound insulation function, the air cavity also can have heat insulation effect with Winter protection in summer, and, form the confined air air cavity by the ventilating blind of closing cavity top and bottom and effectively preserve the solar heat that radiation is come in, can reach heat preservation effect in the winter time; If the ventilating blind of open top part and bottom is mediated the solar heat that radiation is come in rapidly by the wind-drawing effect of air cavity inside in summer, can reach heat insulation effect in summer.
Summer is heat insulation, the effect of Winter protection, its basic principle is: summer is heat insulation: by the solar radiation of plug-in sheet material antireflection part, add the ventilating blind of open top part and bottom, wind-drawing effect by air cavity inside is mediated the solar heat that radiation is come in rapidly, thereby reaches heat insulation effect.Winter protection: form the air cavity that seals by the ventilating blind of closing top and bottom, effectively preserve the solar heat that radiation is come in, thereby reach heat insulation effect.
The double wall structure of prior art be the distance between exterior wall and the interior wall be consistent promptly from the bottom to the top, space length between exterior wall and the interior wall is uniform, essential structure is similar, though it is heat insulation that so structure has had as mentioned above summer, the advantage of the effect of Winter protection is further improved the leeway of improvement but also exist, the present double wall part that haves much room for improvement is: the first when depth of building is not high, the DeGrain that pulls out wind flow naturally of hollow cavity; Secondly, when air velocity is big in the air cavity, can produce that wind is made an uproar and to the influence of body of wall connecting elements; Moreover, in highrise building, prior art can only provide heat insulating effect single, even, unanimous between the higher and lower levels, and the user can't satisfy when specific (special) requirements is arranged, shortage does not form the better technical scheme that addresses the above problem so far as yet at the suitable variation of different objects.
Summary of the invention
The utility model discloses a kind of wall body structure of building double wall, reach the effect that can further increase cross-ventilation speed between plug-in sheet material and the body of wall, can provide the purpose of different heat insulating effect according to different objects, the purpose of this utility model is achieved through the following technical solutions:
A kind of wall body structure of building double wall comprises the inboard body of wall and the plug-in sheet material in the outside, it is characterized in that:
Between the plug-in sheet material in the body of wall of described inboard and the outside, open span from difference from building bottom to the air cavity at top.
Further, described whole building has bottom and top, and wherein every some aspects are a building unit, and each building unit has relative bottom and top.
Further again, per two aspects are a building unit.
Further, between described body of wall and the plug-in sheet material from bottom to top the air cavity open span from from large to small.
Further, between described body of wall and the plug-in sheet material from bottom to top the air cavity open span from by little to big.
Further, between described body of wall and the plug-in sheet material from bottom to top the air cavity open that span is big from part, part is little.
Further, between the plug-in sheet material in the body of wall of described inboard and the outside air cavity open span from difference, adopt plug-in sheet material outer wall position constant, inwall is to outer wall direction depression, the structure of plug-in sheet material attenuation.
Further, in the top and the bottom of described plug-in sheet material top portion ventilation blinds and bottom ventilating blind are set respectively.
Research and evidence by analysis, the cross section that homogenizes of the air cavity that has its source in that the defective of prior art double wall body structure produces.Owing to each cross section in the cross section cavity at the top that puts in place from the building bottom equates, so the atmospheric pressure difference equates that air velocity depends on that the wind speed of air intake and air outlet is poor in the cavity.When building height was not high, inlet and outlet wind speed difference was less, and air velocity is little in the cavity, and it is not strong to pull out the wind effect; In like manner, when inlet and outlet wind speed difference was big, air velocity also can be than comparatively fast in the cavity.
According to hydromechanical bernoulli principle, the pressure of fluid is relevant with its flow velocity, and flow velocity is big more, and pressure is more little; Vice versa.Based on this, can adopt variable cross-section air chamber body technique method, thereby address the above problem by changing the logical relation of uniform section air chamber body technique method.
In the utility model:
When adopting the air cavity to go up little technical scheme greatly down, also be little going up greatly under the cladding panel thickness, make the heat radiation of air cavity bottom greater than top, thereby strengthened the air themperature of air cavity bottom, strengthen wind-drawing effect, in addition, the air cavity is greatly upward little down itself has also increased the effect of wind-guiding.This class formation is suitable for highly lower building, itself pulls out the wind DeGrain, adopts the technical program obviously to improve.
When adopting a kind of section cavities structure, be that little both sides are big in the middle of the air cavity, cladding panel thickness both sides broad in the middle hour, then cladding panel thickness both sides broad in the middle are little, make the heat radiation of air cavity top and the bottom greater than the middle part, thereby strengthened the air themperature at air cavity bottom and top, thereby strengthen the bottom wind-drawing effect and the high-rise wind-drawing effect that weakens, in addition, the air cavity is broad in the middle, and upward little itself also have same wind effect.This class formation is suitable for middle-high building, and that strengthens low layer segment pulls out the wind effect, and the high layer segment that weakens pulls out the wind effect.
Another variable cross-section air chamber body structure, when adopting the air cavity to change at many levels, the operating principle of its section cavities is, changeable air cavity has been smashed too unobstructed air channel, thereby the effect that wind is pulled out in reduction, the suitable occasion of using is a highrise building, pulls out the excessive building of wind effect, improves thus.
The theory analysis of above phenomenon, variable cross-section air chamber body technique method mainly comprise forming to be gone up little air cavity down greatly and forms little down big air cavity.So-called " on " D score is " top " and " bottom " of building.
Big down when little air cavity when forming, down big in the little air cavity (as Fig. 5), the S1 section area at 1 place, position is greater than the S2 section area at 2 places, position, the principle that is inversely proportional to according to Bernoulli equation section area and flow velocity, the air velocity V1 at 1 place, position is less than the air velocity V2 at 2 places, position, and hence one can see that, and the interior air velocity of cavity is accelerated motion.
Little down when big air cavity when forming, down big in the little air cavity (as Fig. 6), the S3 section area at 3 places, position is less than the section area of position 4 S4 of place, the principle that is inversely proportional to according to Bernoulli equation section area and flow velocity, the air velocity V3 at 3 places, position is greater than the air velocity V4 at 4 places, position, and hence one can see that, and the interior air velocity of cavity is retarded motion.
Big down little and little down big air chamber body technique method belongs to variable cross-section air chamber body technique method, and different with the internal logical relationship of uniform section air chamber body technique method, its essential distinction has been to change the speed that air flows in the cavity.
The beneficial effects of the utility model:
Variable cross-section air chamber body technique method has certain advantage than uniform section air chamber body technique method, is embodied as the exchange heat and the interior wind of minimizing cavity that strengthen between cavity and the interior wall and makes an uproar, reduces air-flow to adverse effects such as member impacts.
Strengthen exchange heat between cavity and the interior wall
Down big in the little air cavity, air velocity wants big than the air velocity in the uniform section air cavity, therefore more in the unit interval by the air mass flow of cavity, can quicken the exchange heat between air cavity and the interior wall, take away the heat of inner wall surface more, thereby play the effect that reduces interior temperature better.
Reduce the interior wind of cavity and make an uproar, reduce air-flow adverse effects such as member impacts
In the big air cavity, air velocity is little than the air velocity in the uniform section air cavity down little, can reduce and rub etc. former between air and the body of wall thereby wind that the produce phenomenon of making an uproar.In addition, the air velocity that relaxes impacts less, therefore less for the influence of double wall stability of structure to the connecting elements between the double wall relatively.
Variable cross-section air chamber body technique method has formed the advantage of technical method self changing uniform section air chamber body technique method logical relation simultaneously, can remedy in the former technical method not enough.
Description of drawings
Fig. 1 is the wall body structure schematic diagram of prior art building double wall, shown air cavity space, structure that distance is identical up and down;
Fig. 2 is a kind of embodiment schematic diagram of the wall body structure of the utility model building double wall, has shown that the air cavity bottom is big, the structure that the top is little;
Fig. 3 is the another kind of embodiment schematic diagram of the wall body structure of the utility model building double wall, has shown that air cavity bottom and top are big, middle little structure;
Fig. 4 is another embodiment schematic diagram of the wall body structure of the utility model building double wall, and what shown between body of wall and the plug-in sheet material from bottom to top air cavity opens span from part is big, part is little structure;
Fig. 5 is a kind of embodiment theory analysis schematic diagram of the wall body structure of the utility model building double wall, has shown that the air cavity bottom is big, the state that the top is little;
Fig. 6 is a kind of embodiment theory analysis schematic diagram of the wall body structure of the utility model building double wall, has shown that the air cavity bottom is little, the state that the top is big;
Among the figure, the 1st, the roof, the 2nd, the top portion ventilation blinds, the 4th, keel, the 5th, body of wall, the 6th, indoor, the 7th, plug-in sheet material, the 8th, the bottom ventilating blind, the 9th, outdoor, the 10th, the air cavity.
The specific embodiment
Below in conjunction with accompanying drawing, the utility model is done more detailed introduction, narration.
A kind of wall body structure of building double wall, comprise the inboard body of wall 5 and the plug-in sheet material 7 in the outside, between the body of wall 5 of described inboard and the plug-in sheet material 7 in the outside, from building bottom to the air cavity 10 at top open span from difference, different modes can have multiple, comprise up big and down small, for a short time down greatly, big centre, two ends is little up and down, and is small in ends up and down broad in the middle or the like, need at different building, be provided with different air cavitys 10 open span from.
Described whole building has bottom and top, and wherein every some aspects are a building unit, and each building unit has relative bottom and top.For highrise building, some aspects can be divided into a building unit, each building unit adopts above-mentioned " the opening span from difference of air cavity 10 from bottom to top ", acts on more flexibly, and specific aim is stronger, better effects if.
Per two aspects are a building unit.Generally, desirable two aspects commonly used are convenient to embody advantage of the present utility model more as a building unit.
Between described body of wall 5 and the plug-in sheet material 7 from bottom to top air cavity 10 open span from from large to small, be suitable for highly lower building.
Between described body of wall 5 and the plug-in sheet material 7 from bottom to top air cavity 10 open span from by little to big, the suitable higher occasion of building height that is applied to.
Between described body of wall 5 and the plug-in sheet material 7 from bottom to top air cavity 10 open that span is big from part, part is little, can flexible Application in multiple special occasions.
Between the body of wall 5 of described inboard and the plug-in sheet material 7 in the outside air cavity 10 open span from difference, adopt plug-in sheet material 7 outer wall positions constant, inwall is to outer wall direction depression, the structure of plug-in sheet material 7 attenuation.For air cavity 10 is opened span from difference, can adopt the different structure of plug-in sheet material 7 varied in thickness, so mode had both kept uniformity, the aesthetics of plug-in sheet material 7 appearances, solar radiation is accepted in the plug-in sheet material of also favourable increasing 7 thin zones, and inner air cavity 10 is also realized opening span from difference.
Top and bottom at described plug-in sheet material 7 are provided with top portion ventilation blinds 2 and bottom ventilating blind 8 respectively, and in the additional basically present technique feature of main body invention, more favourable the utility model plays a role.
In a word, be different from the method for prior art uniform section air cavity, according to the principle and the advantage of variable cross-section air chamber body technique method, this technical method can be applied under cavity inlet and outlet pressure differential is too small and cavity inlet and outlet pressure differential the is excessive condition targetedly.
1) it is too small to be applied to cavity inlet and outlet pressure differential
In the reality; similar low, multistory building or be positioned at the less regional architecture of air quantity, its double wall air cavity inlet and outlet pressure differential usually can be smaller, can adopt down big little air chamber body technique method; quicken to flow by air in the cavity, solve the too small objective reality of pressure differential.
2) it is excessive to be applied to cavity inlet and outlet pressure differential
In general, when building height is higher, or when air quantity is big in the area, the inlet and outlet pressure differential can be bigger in the building double wall air cavity, can adopt down the little big air chamber body technique method that, slow down by air in the cavity and flow, solve the excessive objective reality of pressure differential.
Generally speaking, variable cross-section air chamber body technique method should be selected according to inlet and outlet pressure differential magnitude relationship.Pressure differential relates to the size of air quantity in inside and outside temperature difference of the difference in height, cavity of cavity itself and the area, needs in actual applications be applied flexibly according to concrete environment and technical purpose.

Claims (8)

1. the wall body structure of a building double wall comprises the inboard body of wall (5) and the plug-in sheet material (7) in the outside, it is characterized in that:
Between the plug-in sheet material (7) in the body of wall of described inboard (5) and the outside, open span from difference from building bottom to the air cavity (10) at top.
2. according to the wall body structure of the described building double wall of claim 1, it is characterized in that described whole building has bottom and top, wherein every some aspects are a building unit, and each building unit has relative bottom and top.
3. according to the wall body structure of the described building double wall of claim 2, it is characterized in that per two aspects are a building unit.
4. according to the wall body structure of claim 1 or 2 described building double walls, it is characterized in that between described body of wall (5) and the plug-in sheet material (7) from bottom to top air cavity (10) open span from from large to small.
5. according to the wall body structure of claim 1 or 2 described building double walls, it is characterized in that between described body of wall (5) and the plug-in sheet material (7) from bottom to top air cavity (10) open span from by little to big.
6. according to the wall body structure of claim 1 or 2 described building double walls, it is characterized in that between described body of wall (5) and the plug-in sheet material (7) from bottom to top air cavity (10) open that span is big from part, part is little.
7. according to the wall body structure of claim 1 or 2 described building double walls, what it is characterized in that air cavity (10) between the plug-in sheet material (7) in the body of wall (5) of described inboard and the outside opens span from difference, adopt plug-in sheet material (7) outer wall position constant, inwall is to outer wall direction depression, the structure of plug-in sheet material (7) attenuation.
8. according to the wall body structure of claim 1 or 2 described building double walls, it is characterized in that top portion ventilation blinds (2) and bottom ventilating blind (8) being set respectively in the top and the bottom of described plug-in sheet material (7).
CN2010206744328U 2010-12-22 2010-12-22 Double-wall structure of building Expired - Lifetime CN202007467U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102021951A (en) * 2010-12-22 2011-04-20 上海建科建筑设计院有限公司 Wall body structure of building double-layer wall
CN103114661A (en) * 2013-01-28 2013-05-22 南京航空航天大学 Anti-condensation outer insulative wall body structure
CN107646773A (en) * 2017-09-25 2018-02-02 北京特亮光电科技有限公司 The temperature control method of culturing jar and culturing jar

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102021951A (en) * 2010-12-22 2011-04-20 上海建科建筑设计院有限公司 Wall body structure of building double-layer wall
CN103114661A (en) * 2013-01-28 2013-05-22 南京航空航天大学 Anti-condensation outer insulative wall body structure
CN103114661B (en) * 2013-01-28 2014-12-17 南京航空航天大学 Anti-condensation outer insulative wall body structure
CN107646773A (en) * 2017-09-25 2018-02-02 北京特亮光电科技有限公司 The temperature control method of culturing jar and culturing jar
CN107646773B (en) * 2017-09-25 2020-06-23 北京特亮光电科技有限公司 Breeding tank and temperature control method thereof

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AV01 Patent right actively abandoned

Granted publication date: 20111012

Effective date of abandoning: 20120523