CN207063345U - A kind of inorganic foamed complex heat-preservation Rotating fields of roofing laying - Google Patents

Abstract

It the utility model is related to a kind of inorganic foamed complex heat-preservation Rotating fields of roofing laying, including air bag layer, damp-proof layer and polyphenyl foam thermal insulation concrete layer, the air bag layer is uniform concave-convex hemisphere harden structure, there is humidity discharging layer between adjacent two hemispheres on the air bag layer, polyphenyl foam thermal insulation concrete layer is compounded in above the air bag layer, blast pipe one end is extended vertically into the air bag layer, and screed-coat is stretched out in the bent portion of the other end.The beneficial effects of the utility model are that, using the inorganic foamed compound insulation structure layer, vapour barrier, heat-insulation layer, screed-coat can realize once-paving；Solve caused by conventional method construction roofing is inflammable, cracking, hollowing, the problems such as coming off, and improve thermal and insulating performance, accelerate construction speed, reduce cost, ensure that the construction period.

Description

A kind of inorganic foamed complex heat-preservation Rotating fields of roofing laying

Technical field

Roofing heat insulating material technical field is the utility model is related to, more particularly to a kind of roofing is laid with inorganic foamed compound Heat insulation layer structure.

Background technology

During traditional roofing construction, the trapping of roofing, the insulation of roofing and the levelling process of roofing are required to individually Construction laying, even needs are repeatedly levelling sometimes, and vapour barrier, insulation material etc. are most of using combustible material, dangerous Property it is higher, construction is cumbersome, and construction speed is slow, roofing cracking, hollowing also easily occurs or even comes off problem, seriously reduces construction matter Amount.

The content of the invention

Technical problem to be solved in the utility model is to provide a kind of inorganic foamed composite heat-insulating layer knot of roofing laying Structure, vapour barrier, heat-insulation layer, screed-coat can realize once-paving, solve conventional method construction caused by roofing it is inflammable, cracking, Hollowing, the problems such as coming off, thermal and insulating performance is improved, accelerates construction speed, reduces cost, ensure that the construction period.

To achieve the above object, the utility model uses following technical proposals：

A kind of inorganic foamed complex heat-preservation Rotating fields of roofing laying, including air bag layer, damp-proof layer and polyphenyl foam insulation Concrete layer, the air bag layer are uniform concave-convex hemisphere harden structure, are also had between the adjacent two hemispheres on the air bag layer Humidity discharging layer, polyphenyl foam thermal insulation concrete layer are compounded in above the air bag layer, and blast pipe one end extends vertically into the gas In cystoblast, screed-coat is stretched out in the bent portion of the other end.

The technical solution of the utility model also includes, and the screed-coat is located on the polyphenyl foam thermal insulation concrete layer Side.

The technical solution of the utility model also includes, and the polyphenyl foam thermal insulation concrete thickness degree is 50mm.

The technical solution of the utility model also includes, and the air bag layer is layed on the structure sheaf of roofing.

The technical solution of the utility model also includes, and the hemispherical diameter of the air bag layer is 100mm, and adjacent two hemispheres it Between interval be 10mm.

The technical solution of the utility model also includes, and the air slit diameter is 50mm.

The technical solution of the utility model also includes, and the humidity discharging layer is hemisphere porous structure.

The structure is using polybenzene foamed concrete as sizing insulation material, using air bag layer hemisphere plate as trapping, reflection and modeling Section bar material, increase humidity discharging layer on air bag layer, inorganic foamed composite thermal insulation system is formed through pouring combination process.

The beneficial effects of the utility model are that air bag layer hemisphere plate is a kind of concavo-convex template, have light weight, hardness it is big, Impermeable, the excellent feature of soundproof effect, and using flexible, are easy to cut and splice, the molding material using it as vapour barrier, its On pour polybenzene foamed concrete, increase the humidity discharging layer of porous, the heat insulation layer structure material-paving that will be combined on air bag layer On the structure sheaf of roofing, blast pipe is installed in air bag layer, screed-coat is laid on polyphenyl foam thermal insulation concrete layer, so every Gas-bearing formation, heat-insulation layer, screed-coat can realize once-paving；Solve caused by conventional method construction roofing is inflammable, cracking, hollowing, The problems such as coming off, and thermal and insulating performance is improved, construction speed is accelerated, reduces cost, ensure that the construction period.

Brief description of the drawings

Fig. 1 is the utility model structure diagram.

Wherein, 1- structure sheafs；2- air bag layers；3- polyphenyl foam thermal insulation concrete layers；4- screed-coats；5- humidity discharging layers；6- is arranged Tracheae.

Embodiment

In order to clearly illustrate the technical characterstic of this programme, the utility model is made with reference to the accompanying drawings and examples Further instruction.

As illustrated, a kind of inorganic foamed complex heat-preservation Rotating fields of roofing laying, including air bag layer 2, damp-proof layer and gather Benzene foam thermal insulation concrete layer 3, the air bag layer 2 are uniform concave-convex hemisphere harden structure, adjacent two on the air bag layer 2 There is humidity discharging layer 5 between hemisphere, polyphenyl foam thermal insulation concrete layer 3 is compounded in the top of air bag layer 2, and the one end of blast pipe 6 is hung down Directly stretch into the air bag layer 2, screed-coat 4 is stretched out in the bent portion of the other end.

Particularly, the screed-coat 4 is positioned at the top of polyphenyl foam thermal insulation concrete layer 3.

Particularly, the thickness of polyphenyl foam thermal insulation concrete layer 3 is 50mm.

Particularly, the air bag layer 2 is layed on the structure sheaf 1 of roofing.

Particularly, the hemispherical diameter of the air bag layer 2 is 100mm, and the interval between adjacent two hemispheres is 10mm.

Particularly, 6 a diameter of 50mm of blast pipe.

Particularly, the humidity discharging layer 5 is hemisphere porous structure.

The structure is using polybenzene foamed concrete as sizing insulation material, using the hemisphere plate of air bag layer 2 as trapping, reflection and modeling Section bar material, increase humidity discharging layer 5 on air bag layer 2, inorganic foamed composite thermal insulation system is formed through pouring combination process.

The hemisphere plate of air bag layer 2 is a kind of concavo-convex template, has that light weight, hardness is big, impermeable, the excellent spy of soundproof effect Point, and using flexible, it is easy to cut and splices, the molding material using it as vapour barrier, pours polybenzene foamed concrete thereon, Increase the humidity discharging layer 5 of porous on air bag layer 2, by the heat insulation layer structure material-paving being combined on the structure sheaf 1 of roofing, Blast pipe 6 is installed in air bag layer 2, screed-coat 4 is laid on polyphenyl foam thermal insulation concrete layer 3, such vapour barrier, heat-insulation layer, looks for Flat bed 4 can realize once-paving

Technical characteristic of the utility model without description can be achieved by the prior art, and will not be repeated here.Certainly, on It is not to limitation of the present utility model to state bright, and the utility model is also not limited to the example above, the common skill of the art Art personnel change, remodeling, addition or replacing made in essential scope of the present utility model, should also belong to the utility model Protection domain.

Claims (7)

1. the inorganic foamed complex heat-preservation Rotating fields of a kind of roofing laying, it is characterised in that including air bag layer, damp-proof layer and polyphenyl Foam thermal insulation concrete layer, the air bag layer are uniform concave-convex hemisphere harden structure, the adjacent two hemispheres on the air bag layer Between also have humidity discharging layer, polyphenyl foam thermal insulation concrete layer is compounded in above the air bag layer, and blast pipe one end extends vertically into institute State in the air bag layer, screed-coat is stretched out in the bent portion of the other end.

2. the inorganic foamed complex heat-preservation Rotating fields of a kind of roofing laying as claimed in claim 1, it is characterised in that described to look for Flat bed is located above the polyphenyl foam thermal insulation concrete layer.

3. the inorganic foamed complex heat-preservation Rotating fields of a kind of roofing laying as claimed in claim 2, it is characterised in that described poly- Benzene foam thermal insulation concrete layer thickness is 50mm.

A kind of 4. inorganic foamed complex heat-preservation Rotating fields of roofing laying as claimed in claim 1, it is characterised in that the gas Cystoblast is layed on the structure sheaf of roofing.

A kind of 5. inorganic foamed complex heat-preservation Rotating fields of roofing laying as claimed in claim 4, it is characterised in that the gas The hemispherical diameter of cystoblast is 100mm, and the interval between adjacent two hemispheres is 10mm.

A kind of 6. inorganic foamed complex heat-preservation Rotating fields of roofing laying as claimed in claim 1, it is characterised in that the row Tracheal diameter is 50mm.

A kind of 7. inorganic foamed complex heat-preservation Rotating fields of roofing laying as claimed in claim 1, it is characterised in that the row Damp layer is hemisphere porous structure.