CN201762986U - Permanent cast-in-situ concrete composite heat-insulating formwork with heat-insulating transition layer - Google Patents

Abstract

The utility model relates to a permanent cast-in-situ concrete composite thermal insulation template with a thermal insulation transition layer, which belongs to the technical field of building structure system devices. At present, wall insulation methods such as pasting polystyrene boards, polystyrene boards built in large molds and steel wire grid polystyrene boards are commonly used. Although the problem of wall insulation is solved, there are complex construction techniques and great fire safety hazards. The thermal insulation structure and the building cannot have the same lifespan and other issues. Its technical scheme is as follows: the inner side of the polystyrene board (2) is provided with an inner bonding reinforcement layer (1), the outer side of the polystyrene board (2) is grooved to provide a reinforcing rib (3), and the outer side of the reinforcing rib (3) is provided with a bonding reinforcement layer (4), the thermal insulation transition layer (5) is arranged outside the bonding reinforcement layer (4), and the outer bonding reinforcement layer (6) is arranged outside the thermal insulation transition layer (5); pieces (7). The utility model is characterized in that: the high-strength composite thermal insulation template has the advantages of light weight, high strength, good thermal insulation effect and fireproof performance.

Description

A permanent cast-in-place concrete composite thermal insulation formwork with thermal insulation transition layer

Technical field: The utility model relates to the technical field of building structure system devices, more specifically, it is a permanent cast-in-place concrete composite thermal insulation template with a thermal insulation transition layer. the

Background technology: In recent years, my country's energy-saving building and wall insulation technology have also been developed rapidly. The method of pasting polystyrene boards on the outer walls of buildings is generally used for heat preservation, and some polystyrene boards or steel wire grids are also used to gather heat. The practice of placing benzene boards on the inside of the outer formwork for cast-in-place concrete, referred to as large-scale built-in cast-in-place concrete insulation walls, these insulation walls have complex construction and quality and safety problems such as easy cracking, water seepage, and falling off of the insulation layer, which is difficult to achieve The purpose of thermal insulation and building structure with the same life. Therefore, at present, a permanent cast-in-place concrete composite thermal insulation formwork has been designed and invented, which is light in weight, good in thermal insulation effect, convenient in construction, good in fire resistance, free of potential safety hazards, and has the same service life as the building. There is no heat storage function, and the heat accumulated on the outside of the solar radiation in summer is blocked by the middle insulation board, and the plaster layer is easily damaged by thermal expansion, which affects the quality and life of the building. the

Summary of the invention: In order to overcome the above shortcomings, the purpose of this utility model is to design a permanent cast-in-situ concrete composite thermal insulation formwork with thermal insulation transition layer. Its technical scheme is as follows: set the inner bonding reinforcement layer on the inside of the polystyrene board, set the reinforcing ribs on the outside of the polystyrene board, set the bonding strengthening layer outside the reinforcing ribs, set the thermal insulation transition layer outside the bonding reinforcing layer, and the thermal insulation transition layer An outer bonding reinforcement layer is arranged on the outside; a plurality of croissor anchor bolt connectors are arranged on the insulation board composed of the above. The inner bonding reinforcement layer and the outer bonding reinforcement layer are made of cement-based mortar and reinforcing material; the reinforcing material is non-woven fabric with holes, glass fiber mesh cloth or steel wire mesh; the thermal insulation transition layer is made of light aggregate mortar or hair Made of cement. The advantages of this utility model are: the formwork design is reasonable, the concept is ingenious and novel, and it is composed of polystyrene boards, reinforced protective layers on both sides of the inner and outer sides, ribs, thermal insulation transition layers and outer surface bonding reinforcement layers, and the reinforcement materials can be porous non-woven Cloth, fiberglass mesh or steel mesh, etc. The reinforcing ribs are made of plastic, bamboo strips, steel wires, etc., and the thermal insulation transition layer is made of light aggregate mortar such as vitrified microbeads or microfoam cement. The composite thermal insulation formwork is light in weight, high in strength, good in thermal insulation effect and fireproof performance, simple to manufacture, easy to install, and can be used as a permanent external formwork, reducing the amount of formwork and support difficulty of cast-in-place concrete. Therefore, it has the advantages of convenient construction, low cost, good thermal performance, and no safety hazards. The over-insulation layer buffers the thermal expansion force caused by the external high temperature, ensures the quality of the building, and can realize the integration of structural insulation and the purpose of the same life as the building. the

Description of the drawings: the accompanying drawing is a schematic structural diagram of the utility model. In the drawings: 1. Inner bonding reinforcement layer, 2. Polystyrene board, 3. Reinforcing ribs, 4. Bonding reinforcement layer, 5. Thermal insulation transition layer, 6. Outer bonding reinforcement layer, 7. Horn anchor connection pieces. the

Specific implementation method: the inside of the polystyrene board 2 is provided with an inner bonding strengthening layer 1, the outside of the polystyrene board 2 is grooved to provide a reinforcing rib 3, the reinforcing rib 3 is provided with a bonding reinforcing layer 4, and the bonding reinforcing layer 4 is provided with a thermal insulation transition Layer 5, an outer bonding reinforcement layer 6 is arranged outside the thermal insulation transition layer 5; the thermal insulation board composed of the above is provided with a number of claw anchor bolt connectors 7 to connect with the cast-in-place concrete wall. After the pouring of the cast-in-place concrete wall is completed, a mortar plastering layer is made on the outside of the outer bonding reinforcement layer 6, which can realize the integration of structural insulation and achieve the purpose of the same life as the building, and can be widely used in industrial and civil buildings. The part is used instead of the outer template. the

Claims (2)

1. One kind with the insulation transition zone permanent Cast-in-place concrete compound heat preservation die plate, it is characterized in that: inboard bonding enhancement Layer (1) is set by polyphenyl plate (2) inboard, polyphenyl plate (2) outside tick slot is provided with reinforcing rib (3), the outer bonding enhancement Layer (4) that is provided with of reinforcing rib (3), the outer insulation transition zone (5) that is provided with of bonding enhancement Layer (4), the outer outside bonding enhancement Layer (6) that is provided with of insulation transition zone (5); By the above warming plate that constitutes some goat's horn crab-bolt connectors (7) are set.
2. 2. a kind of permanent Cast-in-place concrete compound heat preservation die plate with the insulation transition zone according to claim 1 is characterized in that: inboard bonding enhancement Layer (1) and outside bonding enhancement Layer (6) are made by cement-based mortar material and reinforcing material; Reinforcing material is nonwoven, glass fiber reticular cloth or a gauze wire cloth with holes; Insulation transition zone (5) is made by lightweight aggregate mortar or foam cement.

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