CN203080956U - Building outer wall anti-seismic safety and cold-hot bridge energy saving remolding integrated processing structure - Google Patents

Abstract

The utility model discloses a building outer wall structure anti-seismic safety and energy saving remolding reinforcing integrated structure which comprises a structural material layer, a structural reinforcing layer and an energy-saving heat preservation layer. The building outer wall structure anti-seismic safety and energy saving remolding reinforcing integrated structure is characterized in that the energy-saving heat preservation layer is a super heat insulation coating. The energy-saving heat preservation layer covers the cold-hot bridge portions of a building, wherein the cold-hot bridge portions can be of cold-hot bridge structures of an original structure layer and can also be of cold-hot bridge structures newly formed during anti-seismic reinforcing. According to the building outer wall structure anti-seismic safety and energy saving remolding reinforcing integrated structure, structural anti-seismic reinforcing of the building and energy-saving heat preservation remolding of the building are integrated. Cold-hot bridges are prevented from being formed on a building heat preservation system, and therefore the aim that the building is anti-seismic, safe, energy-saving and heat insulated in structure is effectively achieved. The self weight of the building is not increased, the service life of a main structure is prolonged, and convenience is brought to installation, maintenance and construction.

Description

A kind of external wall quake-resistant safety and the integrated processing structure of cold and hot bridge reducing energy consumption

Technical field

The utility model relates to the insulation of building structure aseismatic external wall energy-saving and transforms integrated processing technology field, relates in particular to a kind of building structure aseismatic and reinforces the integrated processing structure of external wall energy-saving insulation transformation.

Technical background

Along with the continuous development of national economic development, and urgent day by day for the requirement of building low-carbon (LC).The seismic hardening of building structure and reducing energy consumption are more and more paid close attention to by country and industry.At present, the anti-seismic performance of the existing building of China and energy-efficient performance all can not satisfy the requirement of existing relevant criterion standard.After carrying out seismic hardening, guarantee the follow-up again safe handling several years of building, the building energy consumption during this is then more considerable.Therefore, when carrying out seismic hardening, also need building is carried out reducing energy consumption.When building is carried out seismic hardening, failed to consider the requirement that takes into account reducing energy consumption simultaneously in the past, thereby a lot of problems occurred.

Building enclosure and load-carrying members are energy-conservation important component parts.Comprise positions such as metal, steel concrete or concrete beam, post, rib in the space enclosing structure, under the indoor/outdoor temperature-difference effect, these positions form the bridge passage that conducts heat, so claim heat bridge or cold bridge.The cold and hot bridge of the higher easy formation of the coefficient of thermal conductivity of concrete structure.And in the steel building, steel are again the positions of the cold and hot bridge of the easiest formation.Usually mining method is specially cold and hot bridge not to be incubated processing at present, and cold and hot bridge still is the weak part of building heat preservation, still becomes heat transfer path.Even handling also is poor effect.With the brick wall equivalent process.

Outside cold and hot bridge position, paste heat insulating material.Find by use in recent years, outer paste quality accidents such as warming plate ftractures easily, seeps water, comes off, perk, also easily oxidation distortion etc., insulation layer not with the same life-span of building, influence energy-saving effect even may cause potential safety hazard, and, outer insulation also exists cost higher, the complicated cycle of construction is long particularly high-rise, increases the deadweight of building, and maintain and replace shortcoming such as difficulty relatively.Insulation layer damages after the earthquake, and air moisture enters inner chamber, also has influence for durability.Therefore, press for new not only antidetonation but also to the special reducing energy consumption treatment technology of the cold and hot bridge of exterior wall, to overcome the defective of traditional heat-insulation system.

The utility model content

At the problems referred to above, the utility model purpose is to provide the integrated processing structure of a kind of building outer wall structural seismic safety with the insulation transformation.

For achieving the above object the technical solution adopted in the utility model: a kind of external wall quake-resistant safety and the integrated processing structure of cold and hot bridge reducing energy consumption ,Comprise energy-saving wall, structural seismic reinforcement material layer and energy-saving heat preserving transformation layer, described structural seismic reinforcement material layer is covered in the original wall body surface, it is characterized in that, it is the adiabatic coating layer that described energy-saving heat preserving is transformed layer.

As a kind of improvement of the present utility model, described energy-saving heat preserving transformation layer is covered in the new cold and hot bridge position that produces of original or seismic hardening of building and this position is covered.

[0008]Advantage of the present utility model has been to overcome cold and hot bridge position effectively being handled and defectives such as building insulating layer lost efficacy, cost is higher, the complexity of constructing of traditional exterior wall insulated structure, and the utility model is quake-resistant safety but also can eliminate cold and hot bridge fully not only.Energy-conservation and heat insulation integrated, avoid forming cold and hot bridge on the heat insulation system, thereby efficient realize not only safety but also energy-conservation target, and it to be very easy construct, cold and hot bridge energy-saving heat preserving layer does not increase building deadweight, prolongation agent structure life-span substantially.Damage the back and only need carry out modular repair, very convenient.

Description of drawings

Fig. 1 is the utility model mounting structure sketch;

Wherein, 1 original wall body, 2 cold and hot bridges, 3 materials for wall layers, 4 energy-saving heat preserving layers.

The specific embodiment

In order to deepen that understanding and cognition of the present utility model is described in further detail the utility model below in conjunction with the drawings and specific embodiments.

Embodiment 1:Architectural exterior-protecting construction as shown in Figure 1, the materials for wall layer 3 of insulation can be installed in original wall body 1 position; It is super adiabatic coating layer that brushing energy-saving heat preserving layer 4 can be adopted in cold and hot bridge 2 positions of reinforced concrete structure or steel work, exterior wall integral heat insulation effect of heat insulation position balanced or that handle better and does not substantially have other operations, can directly carry out the construction of large-area external wall outer insulation and facing again.It is very convenient to construct, and heat-insulation system is very easy.Its long service life can accomplish and the same life-span of building that the fire safety performance is fabulous.In addition, the easy aggregate measures overall economic efficiency of saving is considerable.

Embodiment 2:Mounting method of the present utility model is: base treatment is carried out at cold and hot bridge position, and brushing super insulating material layer carries out various architectural exterior insulations and facing afterwards again and handles then.The performance indications requirement of concrete coating and thickness etc. calculate by design according to the thermal technology determines that the coefficient of thermal conductivity of super adiabatic coating is extremely low, and is behind the external coating of cold and hot bridge position, good to the heat insulation and preservation effect of cold and hot bridge.In addition, super insulating material can be very convenient by brushing or spraying application.

Need to prove the foregoing description, only is preferred embodiment of the present utility model, is not to be used for limiting protection domain of the present utility model, and the equivalents of having done based on the above method all belongs to protection domain of the present utility model.

Claims (2)

1. an external wall quake-resistant safety and the integrated processing structure of cold and hot bridge reducing energy consumption ,Comprise energy-saving wall, structural seismic reinforcement material layer and energy-saving heat preserving transformation layer, described structural seismic reinforcement material layer is covered in the original wall body surface, it is characterized in that, it is the adiabatic coating layer that described energy-saving heat preserving is transformed layer.

2.. integrated processing structure according to claim 1 is characterized in that, described energy-saving heat preserving transformation layer is covered in the new cold and hot bridge position that produces of original or seismic hardening of building and this position is covered.

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