CN205840015U - Block the structure by the heat transfer of curtain buildings hot cold bridge - Google Patents

Block the structure by the heat transfer of curtain buildings hot cold bridge Download PDF

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CN205840015U
CN205840015U CN201620796092.3U CN201620796092U CN205840015U CN 205840015 U CN205840015 U CN 205840015U CN 201620796092 U CN201620796092 U CN 201620796092U CN 205840015 U CN205840015 U CN 205840015U
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heat
draconis
indoor
curtain
curtain wall
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余卫平
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Abstract

The utility model discloses the structure that a kind of blocking-up is conducted heat by the hot cold bridge of curtain buildings, including curtain wall, indoor metal Os Draconis, Indoor decorative plate, described curtain wall is fixed on outside described indoor metal Os Draconis, described Indoor decorative plate is fixed on the indoor exposed parts of described indoor metal Os Draconis, grips the heat insulating strip covering described exposed parts, being made up of aerogel heat-proof blanket between exposed parts and the described Indoor decorative plate of described indoor metal Os Draconis.This utility model blocks the structure by the heat transfer of curtain buildings hot cold bridge, and simple in construction, construction technology are convenient, structural strength is high, fire protecting performance is good, low cost, and the energy-saving effect of curtain buildings can be greatly improved.It is particularly well-suited to the curtain buildings of heat-proof quality built, that be currently in use difference is improved or transformed.

Description

Block the structure by the heat transfer of curtain buildings hot cold bridge
Technical field
This utility model relates to a kind of blocking the structure of heat transfer in building, in particulars relate to a kind of blocking-up and passes through curtain wall The structure of Building Heat cold bridge heat transfer.
Background technology
Generally, the processing method of the hot cold bridge of curtain buildings is to set between outdoor metal component and indoor metal component Put the heat conductivity disconnected hot cold bridge material in 0.25W/ (m K) left and right, and this hot cold bridge material that breaks often is disposed in the interior metal The outside of component or the inner side of outdoor metal component, this is to be kept in line by heat insulation isothermal line as far as possible, and by relatively low Temperature line be maintained at the outside of indoor metal component, thus obtain best disconnected hot cold bridge effect., in Practical Project by In various reasons, some curtain buildings could not arrange disconnected hot cold bridge material between indoor metal component and outdoor metal component, Even if or arrange resolve hot cold bridge material, but could not reach gratifying effect of heat insulation, if will be to these curtain buildingses Being thermally shielded improvement or the transformation of performance, whole curtain wall certainly will carry out local, the most comprehensively remove, difficulty is big, economical Cost is the highest.
One Super High curtain wall project being positioned at Beijing CBD area, after Practical Completion in 2007, constantly occur due to Curtain wall aluminum frame cold-heat bridge causes indoor condensation and the situation of icing, simultaneously because heat is run off by curtain wall cold-heat bridge in a large number, makes Air conditioner load has been become to increase and the situation of the waste electricity charge.Since completion of works in 2007 Party A to the indoor condensation of this mansion and The uninsulated situation of curtain wall is sorely distressed, and also attempts to remedy, and uses thermal imaging system to determine curtain wall including by third party Cold-heat bridge position, but seek all the time less than any method effectively solving cold-heat bridge on existing curtain wall.
From engineering design angle, it is contemplated that use the insulation materials such as mineral wool that cold-heat bridge position is coated with, or select more The glass of high configuration is to meet the requirement of building energy conservation, but in place of the equal Shortcomings of both technical schemes:
The insulation material such as mineral wool is used to carry out the technical scheme of similar cladding:
1) in order to reach the energy-saving design target of curtain wall and prevent curtain wall from condensing, the thickness of the insulation materials such as mineral wool is used extremely Being 2.5cm less, the indoor metal Os Draconis after being covered to complete are covered to complete face thickness increase at least more than 5cm, have a strong impact on attractive in appearance With indoor lighting area, also indoor space and usable floor area will be reduced and it needs to increase more Indoor decorative plate material;
2) compressive property of the insulation material such as mineral wool is undesirable, and the indoor metal Os Draconis surface after being covered to complete is difficult to keep Smooth;
3) processability of the insulation material such as mineral wool is poor, and accurately scale cuts relatively difficult, and the most difficult to do L-shaped grade multiple Miscellaneous moulding;
4) fixed form of mineral wool insulation material usually plants the modes such as nail, more difficult enforcement on indoor metal Os Draconis.
Select the deficiency of the technical scheme of higher configuration glass:
1) glass of so-called higher configuration, the heat transfer coefficient being exactly in fact glass is lower.The most commonly used in engineering at present Single silver-colored or double silver low-e double glazings, improve the following approach that is configured with of glass: improve the performance of low-e film (such as three silver medal low- E), increase thickness or the quantity (double glazing as double in three glass) of hollow layer, use vacuum glass etc..In these schemes, although glass The heat transfer coefficient of glass decreases, but in curtain wall mean heat transfer coefficient, the heat transfer coefficient ratio of glass is often below 50%, because of This efficiency is the most very good.
2) either existing curtain wall is built, or newly-built curtain buildings, selects the glass of higher configuration will make whole curtain wall Cost be substantially increased, especially for existing curtain wall build, change glass configuration be intended to remove existing glass, and The glass more renewed, this will be technical sophistication and the high engineering of cost.
The most patented power of the applicant, Chinese utility model patent 2015209456306, " blocked and built by curtain wall Build the structure of node hot cold bridge heat transfer ", its technical scheme is at indoor metal Os Draconis and curtain wall or outdoor metal Os Draconis or metal Fix the heat insulating strip being made up of aerogel heat-proof blanket that an overall close outside is arranged between component, do not change existing curtain On the premise of keel section design used by wall, curtain wall heat-proof quality is greatly improved, it is ensured that curtain wall indoor do not produce condensation trouble, but Conduct heat in a large number due to indoor metal Os Draconis in substantial amounts of curtain buildings that built up, that be currently in use, cause curtain buildings Indoor winter condenses, freezes, and the problem that summer is sultry does not provide any feasible skill not changing existing structure in this patent Art scheme.
Utility model content
The purpose of this utility model is to provide the structure that a kind of blocking-up is conducted heat by the hot cold bridge of curtain buildings, its structure letter Singly, construction technology is convenient, structural strength is high, fire protecting performance is good, low cost, and the energy-conservation effect of curtain buildings can be greatly improved Really.
To achieve these goals, technical solution of the present utility model is:
A kind of structure blocked by the heat transfer of curtain buildings hot cold bridge, including curtain wall, indoor metal Os Draconis, interior decoration Plate, described curtain wall is fixed on outside described indoor metal Os Draconis, the exposed parts of described indoor metal Os Draconis and described indoor dress The heat insulating strip covering described indoor exposed parts, being made up of aerogel heat-proof blanket is gripped between plaque.
This utility model blocks the structure by the heat transfer of curtain buildings hot cold bridge, and wherein, described heat insulating strip is an entirety, institute State heat insulating strip to be respectively separated symmetrically in the both ends of the surface of described curtain wall and have at least two otch, in each described otch respectively Being provided with a hard heat-insulating cushion block, each described hard heat-insulating cushion block just fills up its corresponding otch, described indoor metal dragon Connected by a machanical fastener respectively between bone, Indoor decorative plate and described each hard heat-insulating cushion block.
This utility model blocks the structure by the heat transfer of curtain buildings hot cold bridge, wherein, described heat insulating strip and described indoor Interfixed by bonding agent between metal joist.
This utility model blocks the structure by the heat transfer of curtain buildings hot cold bridge, and wherein, described heat insulating strip is that two L-shaped are heat insulation Bar, the end face of the close described curtain wall of described two L-shaped heat insulating strips is spaced with being respectively symmetrically and has at least two otch, and described two Leave spacing between the end face being mutually butted of L-shaped heat insulating strip, in each described otch and described spacing, be respectively arranged with a hard Heat-insulating cushion block, otch or spacing that each described hard heat-insulating cushion block is corresponding with it match, described indoor metal Os Draconis, indoor Connected by a machanical fastener respectively between decorative panel and described each hard heat-insulating cushion block.
This utility model blocks the structure by the heat transfer of curtain buildings hot cold bridge, and wherein, described two L-shaped heat insulating strips are with described All interfixed by bonding agent between indoor metal Os Draconis, filled out by fluid sealant between described two L-shaped heat insulating strip docking end faces Fill.
This utility model blocks the structure by the heat transfer of curtain buildings hot cold bridge, wherein, described indoor metal Os Draconis, heat insulation Filled by fluid sealant between bar, Indoor decorative plate and described curtain wall.
This utility model block by curtain buildings hot cold bridge heat transfer structure, wherein, described each hard heat-insulating cushion block and Interfixed by bonding agent between described indoor metal Os Draconis.
After using such scheme, compared with prior art conducted heat by the hot cold bridge of curtain buildings owing to this utility model blocks Structure grip between the exposed parts and Indoor decorative plate of indoor metal Os Draconis and to be made up of aerogel heat-proof blanket Heat insulating strip, the heat conductivity of heat insulating strip is not higher than 0.021W/ (m K), and its heat-proof quality is compared traditional disconnected hot cold bridge material and carried High more than 10 times, on the premise of not changing existing curtain wall construction, neither affect its structure, watertight, airtight and malformation Performance, is greatly improved again the heat-proof quality of curtain wall, it is ensured that curtain wall indoor do not produce condensation trouble, also simplify disconnected heat cold simultaneously The version of bridge, decreases the integrated cost of curtain wall;Further, since heat insulating strip is easily installed, indoor can be well adapted for The cross sectional shape of metal joist, all covers the exposed parts of indoor metal Os Draconis, forms identical material, continuous, overall breaking Hot cold bridge;Owing to aerogel heat-proof blanket is the material of combustibility A level, curtain wall fire prevention and fire resistance can be better assured that.
Being interfixed by bonding agent between heat insulating strip and indoor metal Os Draconis, bonding strength is more reliable, can eliminate structure Property potential safety hazard;
Further, owing to having otch on heat insulating strip, in each otch, it is respectively provided with a hard heat-insulating cushion block, indoor metal dragon Connected by a machanical fastener respectively between bone, Indoor decorative plate and each hard heat-insulating cushion block, not only make bonding strength more may be used Lean on, eliminate structural potential safety hazard, hard heat-insulating cushion block is set and can also keep the planarization of the Indoor decorative plate after nailing, keep away Exempt from heat insulating strip that aerogel heat-proof blanket makes when being fixed by securing member compressive deformation and affect the outward appearance of Indoor decorative plate and put down Whole degree.
According to statistics, the curtain wall area for curtain buildings that China's different year is produced is as follows: 1985-1990, year Producing curtain wall 150,000 square meter, 1991-2000, produce curtain wall 1,050,000 square meter year, 2000, year produced curtain wall 10,000,000 square meter, 2001-2011 produces curtain wall 50,000,000 square meter, and so far, curtain wall has been widely used in skyscraper;And the total energy built In consumption, heating and the energy consumption of air-conditioning that peripheral structure causes account for the 50% of total energy consumption, peripheral protective main in curtain buildings Structure is glass curtain wall.Curtain buildings there is more than half be positioned at harsh climate band or hot summer and warm winter area band, at curtain buildings In more than 40% energy loss by outer curtain wall scatter and disappear, the heat-proof quality therefore improving curtain wall can directly reduce curtain The energy consumption of wall building.By the enforcement of technical solutions of the utility model, the heat transfer coefficient of curtain wall can reduce by more than 20%, thus Play the most energy-conservation effect.The technical solution of the utility model can be used for existing curtain wall building energy-saving renovation very easily, Do not destroy existing curtain wall construction, it is also possible to for the newly-built curtain wall engineering of annual 50000000 square meters, to improve the energy saving of curtain wall Energy.With curtain wall transparent part heat transfer coefficient from 2.5W/m2K is reduced to 2.0W/m2K, non-transparent part heat transfer coefficient is from 1.0W/m2K It is reduced to 0.8W/m2As a example by K, the enforcement of technical solutions of the utility model can save heating and the air-conditioning heating of curtain buildings every year Power consumption be about: hot-summer and cold-winter area 1.5KWh/ (m2A), severe cold area 2.5KWh/ (m2A), the price of electricity is by often degree electricity 1 yuan RMB, the area of newly-built curtain buildings and transformation curtain buildings is by 50,000,000 square metres of calculating, and the whole nation every year can power saving 100,000,000 Degree, annual 200000000 yuans of economical value, if the use time of transformation building is 30 years, then above annual transformed It is 6,000,000,000 yuans that the most full building life that curtain wall project can be brought is worth, and can save curtain wall engineering joint in a large number simultaneously Transformable expense, and greatly shorten the time of engineering construction.
Owing to the technical solution of the utility model can be widely used in the U.S., Canada, Korea S, Japan, Australia simultaneously And the Curtain Wall Design node in Europe, the existing curtain wall transformation of above countries and regions and newly-built curtain wall amount are the most existing with China Suitable with newly-built curtain wall quantity, but it requires curtain-wall energy-saving design and curtain buildings Indoor Environmental Design requires higher, phase Artificial and the curtain-wall energy-saving improvement cost closed is higher, and therefore the enforcement of technical solutions of the utility model is by the curtain for above each department Wall building brings the amount of electricity saving per year over 100000000 degree, is roughly equal to save dollar 3 every year, 1,000,000 yuan, if with the use time of building Being to calculate for 30 years, it is 9.3 hundred million dollars that the most full building life that the most annual transformed curtain wall project can be brought is worth, and with Time save substantial amounts of curtain wall engineering construction and improvement expenses.
Accompanying drawing explanation
Fig. 1 is the structure that this utility model blocks the cross section of the constructive embodiment one by the heat transfer of curtain buildings hot cold bridge Figure;
Fig. 2 is that this utility model blocks the solid of heat insulating strip in the constructive embodiment one by the heat transfer of curtain buildings hot cold bridge Figure;
Fig. 7 is the structure that this utility model blocks the cross section of the constructive embodiment two by the heat transfer of curtain buildings hot cold bridge Figure;
Fig. 8 is that this utility model blocks a L-shaped heat insulating strip in the constructive embodiment two by the heat transfer of curtain buildings hot cold bridge Axonometric chart;
Fig. 3 to Fig. 6 is the construction method embodiment that this utility model blocks the structure by the heat transfer of curtain buildings hot cold bridge The process schematic of one;
Fig. 9 to Figure 12 is the construction method embodiment that this utility model blocks the structure by the heat transfer of curtain buildings hot cold bridge The process schematic of two;
Figure 13 to Figure 16 is the construction method enforcement that this utility model blocks the structure by the heat transfer of curtain buildings hot cold bridge The process schematic of example three;
Figure 17 to Figure 20 is the construction method enforcement that this utility model blocks the structure by the heat transfer of curtain buildings hot cold bridge The process schematic of example three.
Detailed description of the invention
As it is shown in figure 1, this utility model blocks the constructive embodiment one by the heat transfer of curtain buildings hot cold bridge, including curtain wall 11, indoor metal Os Draconis 12, Indoor decorative plate 13, outdoor Os Draconis 18, curtain wall 11 is glass curtain wall, and curtain wall 11 is by adhesive tape and machine Tool securing member is fixed between indoor metal Os Draconis 12 and outdoor Os Draconis 18, depends on outside the indoor exposed parts of indoor metal Os Draconis 12 Secondary being provided with the heat insulating strip 14 and Indoor decorative plate 13 being made up of aerogel heat-proof blanket, the heat conductivity of heat insulating strip 14 is not higher than 0.021W/ (m K), is interfixed by a plurality of bonding agent between heat insulating strip 14 and indoor metal Os Draconis 12, and a plurality of bonding agent exists On the section of indoor metal Os Draconis 12, interval is arranged, and each bar bonding agent extends and long along the length direction of indoor metal Os Draconis 12 Spending identical with the length of indoor metal Os Draconis 12, indoor metal Os Draconis 12 and Indoor decorative plate 13 clamp by aerogel heat-proof blanket The heat insulating strip 14 made, as in figure 2 it is shown, heat insulating strip 14 is an entirety, heat insulating strip 14 section configuration is " п " type of Russion letter, Matching with the section configuration of indoor Os Draconis, heat insulating strip 14 is respectively separated symmetrically in the both ends of the surface of curtain wall 11 and has at least Two otch 141, position corresponding with each otch 141 on indoor metal Os Draconis 12 is bonded with a hard heat-insulating cushion block respectively 15, hard heat-insulating cushion block 15 is made up of PVC, nylon, neoprene or EPDM, and each hard heat-insulating cushion block 15 just fills up it Corresponding otch 141, respectively by a machine between indoor metal Os Draconis 12, Indoor decorative plate 13 and each hard heat-insulating cushion block 15 Tool securing member 16 connects, and is fixed on indoor metal Os Draconis 12 by Indoor decorative plate 13, and in the present embodiment, machanical fastener 16 selects With screw, filled up by fluid sealant between indoor metal Os Draconis 12, heat insulating strip 14, Indoor decorative plate 13 and curtain wall 11;
This utility model blocks the constructive embodiment two by the heat transfer of curtain buildings hot cold bridge as shown in Figure 7,8, including curtain Wall 11 ', indoor metal Os Draconis 12 ', Indoor decorative plate 13 ', curtain wall 11 ' is glass curtain wall, and curtain wall 11 ' is tight by adhesive tape and machinery Firmware is fixed on indoor metal Os Draconis 12 ', is disposed with by aerogel heat-proof outside the exposed parts of indoor metal Os Draconis 12 ' Heat insulating strip 14 ' that blanket is made and Indoor decorative plate 13 ', heat insulating strip 14 ' includes the two L-shaped heat insulating strips being oppositely arranged, and two L-shaped are heat insulation Filled up by fluid sealant, all by a plurality of bonding agent between two L-shaped heat insulating strips and indoor metal Os Draconis 12 ' between bar docking end face Interfixing, bonding agent is spaced setting on the section of L-shaped heat insulating strip, and each bar bonding agent is along the length of indoor metal Os Draconis 12 ' Direction extends and length is identical with the length of indoor metal Os Draconis 12 ', indoor metal Os Draconis 12 ' and Indoor decorative plate 13 ' points Do not clamp a L-shaped heat insulating strip, the end face of the close curtain wall 11 ' of two L-shaped heat insulating strips is respectively separated symmetrically have two or Multiple otch 141 ', leave spacing, indoor metal Os Draconis 12 ' and each otch between the end face being mutually butted of two L-shaped heat insulating strips 141 ' and the corresponding position of spacing be adhesively fixed with a hard heat-insulating cushion block 15 ' respectively, hard heat-insulating cushion block 15 ' by PVC, Nylon, neoprene or EPDM are made, each hard heat-insulating cushion block 15 ' just fill up its corresponding otch 141 ' and Away from, respectively by a machanical fastener between indoor metal Os Draconis 12 ', Indoor decorative plate 13 ' and each hard heat-insulating cushion block 15 ' Indoor decorative plate 13 ' is fixed on indoor metal Os Draconis 12 ' by 16 ' connections, and in the present embodiment, machanical fastener 16 ' selects spiral shell Nail, indoor metal Os Draconis 12 ', two L-shaped heat insulating strip, is filled up by fluid sealant between Indoor decorative plate 13 ' and curtain wall 11 '.
This utility model blocks the construction method embodiment one of the structure by the heat transfer of curtain buildings hot cold bridge, such as Fig. 3 extremely Shown in Fig. 6, the method comprises the steps:
One, see Fig. 3, Fig. 4, smear a plurality of bonding agent at indoor metal Os Draconis 12 exposed parts, will be by aerogel heat-proof The heat insulating strip 14 that blanket is made is bonded and fixed on indoor metal Os Draconis 12, and a plurality of bonding agent is on the section of indoor metal Os Draconis 12 Interval is arranged, and each bar bonding agent extends and length and the length of indoor metal Os Draconis 12 along the length direction of indoor metal Os Draconis 12 Spend identical;
Two, see Fig. 5, Fig. 6, Indoor decorative plate 13 is enclosed within heat insulating strip 14, and by Indoor decorative plate 13 with indoor Metal joist 12 interfixes: heat insulating strip 14 is respectively separated in the both ends of the surface of curtain wall 11 and has at least two otch symmetrically 141, position the most corresponding with each otch 141 on an indoor metal Os Draconis 12 bonding hard heat-insulating cushion block 15 respectively, respectively Hard heat-insulating cushion block 15 can be made up of PVC, nylon, neoprene or EPDM, makes each hard heat-insulating cushion block 15 just fill up The otch at its place, then by indoor metal Os Draconis 12, pass through respectively between each hard heat-insulating cushion block 15 and Indoor decorative plate 13 One machanical fastener 16 interfixes, and machanical fastener 16 selects screw;
Three, between indoor metal Os Draconis 12, heat insulating strip 14, Indoor decorative plate 13 and curtain wall 11, fluid sealant is filled up.
This utility model blocks the construction method embodiment two of the structure by the heat transfer of curtain buildings hot cold bridge, such as Fig. 9 extremely Shown in Figure 12, being with embodiment one difference, heat insulating strip 14 ' includes two L-shaped heat insulating strips, passes through between two L-shaped heat insulating strips Fluid sealant fills up, and is all interfixed by a plurality of bonding agent between two L-shaped heat insulating strips and indoor metal Os Draconis 12 ', and bonding agent is at L On the transverse section of shape heat insulating strip, interval is arranged, and each bar bonding agent extends and length along the length direction of indoor metal Os Draconis 12 ' Identical with the length of indoor metal Os Draconis 12 ', the end face of the close curtain wall 11 ' of two L-shaped heat insulating strips is respectively separated out symmetrically There is at least two otch 141 ', between the end face being mutually butted of two L-shaped heat insulating strips, leave spacing, in step 2, first in room The upper position the most corresponding with each otch 141 ' and spacing of interior metal joist 12 ' is adhesively fixed a hard heat-insulating cushion block 15 ' respectively, Each hard heat-insulating cushion block 15 ' just fills up otch or the spacing at its place, then by indoor metal Os Draconis 12 ', each hard heat-insulating Being interfixed by a machanical fastener 16 ' respectively between cushion block 15 ' and Indoor decorative plate 13 ', machanical fastener 16 ' selects spiral shell Nail.
This utility model blocks the construction method embodiment three of structure by the heat transfer of curtain buildings hot cold bridge, as Figure 13- Shown in 16, being with embodiment one difference, smearing bonding agent in Indoor decorative plate 13 inboard, bonding agent is at Indoor decorative plate On the section of 13, interval is arranged, and each bar bonding agent extends and length and Indoor decorative plate along the length direction of Indoor decorative plate 13 The length of 13 is identical, and the heat insulating strip 14 being made up of aerogel heat-proof blanket is bonded and fixed on Indoor decorative plate 13, each hard heat-insulating Cushion block 15 is bonded and fixed on Indoor decorative plate 13.
This utility model blocks the construction method embodiment four of structure by the heat transfer of curtain buildings hot cold bridge, as Figure 17- Shown in 20, being with embodiment two difference, smearing bonding agent in Indoor decorative plate 13 ' inboard, bonding agent is at interior decoration On the section of plate 13 ', interval is arranged, and each bar bonding agent extends along the length direction of Indoor decorative plate 13 ' and length and indoor dress The length of plaque 13 ' is identical, and the heat insulating strip 14 ' being made up of aerogel heat-proof blanket is bonded and fixed on Indoor decorative plate 13 ', each firmly Matter heat-insulating cushion block 15 ' is bonded and fixed on Indoor decorative plate 13 '.
Embodiment described above is only to be described preferred implementation of the present utility model, not new to this practicality The scope of type is defined, on the premise of without departing from this utility model design spirit, and this area ordinary skill technical staff couple Various deformation that the technical solution of the utility model is made and improvement, all should fall into what claims of the present utility model determined In protection domain.

Claims (7)

1. block by curtain buildings hot cold bridge heat transfer a structure, including curtain wall (11,11 '), indoor metal Os Draconis (12, 12 '), Indoor decorative plate (13,13 '), described curtain wall (11,11 ') be fixed on described indoor metal Os Draconis (12) outside, its feature It is: gripped between exposed parts and the described Indoor decorative plate (13,13 ') of described indoor metal Os Draconis (12,12 ') The heat insulating strip (14,14 ') cover described indoor exposed parts, being made up of aerogel heat-proof blanket.
The structure that blocking-up the most according to claim 1 is conducted heat by the hot cold bridge of curtain buildings, it is characterised in that: described heat insulation Bar (14) is an entirety, and described heat insulating strip (14) is respectively separated symmetrically in the both ends of the surface of described curtain wall (11) and has at least Two otch (141), are respectively arranged with a hard heat-insulating cushion block (15), each described hard heat-insulating pad in each described otch (141) Block (15) just fills up its corresponding otch (141), described indoor metal Os Draconis (12), Indoor decorative plate (13) and described respectively Connected by a machanical fastener (16) respectively between hard heat-insulating cushion block (15).
The structure that blocking-up the most according to claim 2 is conducted heat by the hot cold bridge of curtain buildings, it is characterised in that: described heat insulation Interfixed by bonding agent between bar (14) and described indoor metal Os Draconis (12).
The structure that blocking-up the most according to claim 1 is conducted heat by the hot cold bridge of curtain buildings, it is characterised in that: described heat insulation Bar (14 ') is two L-shaped heat insulating strips, and the end face of the close described curtain wall (11 ') of described two L-shaped heat insulating strips is spaced with being respectively symmetrically Have at least two otch (141 '), between the end face being mutually butted of described two L-shaped heat insulating strips, leave spacing, each described otch Hard heat-insulating cushion block (15 '), each described hard heat-insulating cushion block (15 ') and its institute it is respectively arranged with in (141 ') and described spacing Corresponding otch (141 ') or spacing match, described indoor metal Os Draconis (12 '), Indoor decorative plate (13 ') and described each firmly Connected by a machanical fastener (16 ') respectively between matter heat-insulating cushion block (15 ').
The structure that blocking-up the most according to claim 4 is conducted heat by the hot cold bridge of curtain buildings, it is characterised in that: described two L All interfixed by bonding agent between shape heat insulating strip and described indoor metal Os Draconis (12 '), described two L-shaped heat insulating strip butt ends Filled by fluid sealant between face.
6. the structure conducted heat by the hot cold bridge of curtain buildings according to the blocking-up described in claim 3 or 5, it is characterised in that: described Between indoor metal Os Draconis (12,12 '), heat insulating strip (14,14 '), Indoor decorative plate (13,13 ') and described curtain wall (11,11 ') Filled by fluid sealant.
The structure that blocking-up the most according to claim 6 is conducted heat by the hot cold bridge of curtain buildings, it is characterised in that: described each firmly Interfixed by bonding agent between matter heat-insulating cushion block (15,15 ') and described indoor metal Os Draconis (12,12 ').
CN201620796092.3U 2016-07-26 2016-07-26 Block the structure by the heat transfer of curtain buildings hot cold bridge Active CN205840015U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107044180A (en) * 2017-03-27 2017-08-15 华东建筑设计研究院有限公司 Glass curtain wall low-cost energy-saving remodeling method and structure
CN107620557A (en) * 2017-10-20 2018-01-23 余卫平 Energy Saving Windows and wherein made of aerogel heat-proof blanket heat insulating strip construction method
CN107980074A (en) * 2016-07-26 2018-05-01 余卫平 Block the structure and its construction method conducted heat by the hot cold bridge of curtain buildings

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107980074A (en) * 2016-07-26 2018-05-01 余卫平 Block the structure and its construction method conducted heat by the hot cold bridge of curtain buildings
CN107044180A (en) * 2017-03-27 2017-08-15 华东建筑设计研究院有限公司 Glass curtain wall low-cost energy-saving remodeling method and structure
CN107620557A (en) * 2017-10-20 2018-01-23 余卫平 Energy Saving Windows and wherein made of aerogel heat-proof blanket heat insulating strip construction method
CN107620557B (en) * 2017-10-20 2023-06-20 余卫平 Energy-saving window and construction method of heat insulation strip made of aerogel heat insulation blanket

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