CN109296118A - A kind of regeneration concrete heat-preserving energy-saving wall and production method - Google Patents

Abstract

A kind of regeneration concrete heat-preserving energy-saving wall and production method, assembled by connector by several rectangle lattice columns, a lattice column cell cube includes two layers regeneration concrete layer, intermediate insulating layer, reserving hole；Dovetail groove.The centre of two layers of regeneration concrete layer is arranged in intermediate insulating layer, is formed by connecting between intermediate insulating layer and every piece of regeneration concrete layer by dovetail groove concave-convex clutch；The positive middle position of intermediate insulating layer and every piece of regeneration concrete layer is equipped with corresponding three reserving holes equidistantly arranged；Concave connector is respectively provided on the left of lattice column cell cube, right side is equipped with a convex connector, indent length and evagination equal length, and it is whole for being engaged assembled between lattice column by concavity and convexity.The solution have the advantages that heat preservation energy-saving is integrated, green economy environmental protection, pin-connected panel constructing operation is simple, and effect on environment is small.

Description

A kind of regeneration concrete heat-preserving energy-saving wall and production method

Technical field

The present invention relates to building energy saving field, in particular to a kind of lattice regeneration concrete heat-preserving energy-saving wall and production Method.

Background technique

Contain a large amount of sandstone aggregate in waste and old concrete, it is reasonable to recycle, it produces regeneration concrete and applies to On new building.On the one hand production raw material are saved, cost is reduced, obtain bigger economic benefit；On the other hand green ring It protects, alleviate aggregate disparities between supply and demand and reduces pollution of the discarded concrete to environment, meet China's strategy of sustainable development plan.

The energy conservation aspect of building structure, heat bridge effect is problem extremely important in building heat preservation all the time.Because protecting The adjacent non-insulation portion phase difference of the ratio of heat transfer coefficient at warm position is excessive, and there are heat bridge effects, by temperature, humidity, heat etc. The influence of many factors keeps heat insulation effect undesirable.Therefore the heat bridge effect for improving building, to the heat preservation energy-saving of building It is of great significance with green ecological environment.

In conclusion regeneration concrete prefabricated wall residential building component technology is intersected with building heat preservation heat-insulating technique In conjunction with, develop a kind of lattice regeneration concrete heat-preserving energy-saving wall, can expand regeneration concrete application field, promote Building thermal-insulation energy-saving technology and prefabricated dwelling house component technology.

Summary of the invention

It is an object of the invention to propose a kind of regeneration concrete heat-preserving energy-saving wall, changes the manufacturing process of wall, adopt It is formed with lattice column unit splicing, in non-insulating layer doping thermal insulation material to slow down heat bridge effect, improves the heat preservation of exterior wall Effect, and efficiently solve the problems, such as building energy conservation.This lattice regeneration concrete heat-preserving energy-saving wall more particularly to The requirement of severe cold area wall is adapted to, and reduces cost, improves the working efficiency of wall construction.

The present invention is achieved by the following technical solutions.

A kind of regeneration concrete heat-preserving energy-saving wall of the present invention is spelled by several rectangle lattice columns by connector It fills, a lattice column cell cube includes two layers regeneration concrete layer, intermediate insulating layer, reserving hole；Dovetail groove.Centre is protected The centre of two layers of regeneration concrete layer is arranged in warm layer, passes through dovetail geosynclinal concave between intermediate insulating layer and every piece of regeneration concrete layer It is convex to be connected；The positive middle position of intermediate insulating layer and every piece of regeneration concrete layer is equipped with corresponding three etc. Reserving hole away from arrangement；Concave connector is respectively provided on the left of lattice column cell cube, right side is equipped with a convex connector, indent Length and evagination equal length are engaged between lattice column assembled for integrally by concavity and convexity.

The thickness of the regeneration concrete layer is twice of intermediate insulating layer thickness.The intermediate insulating layer is polyphenyl Ethylene.

The indent length of the concave connector of the lattice column cell cube is 20 ~ 35mm, and the evagination of convex connector is long Degree and indent equal length.

Further, black solar energy film can also be coated with outside wall of the present invention.

Further, regeneration concrete layer of the present invention can also adulterate waste and old polystyrene plastics.

A kind of production method of lattice regeneration heat-preserving energy-saving wall of the present invention, includes the following steps.

Step (1): regeneration concrete slurry is stirred 2 minutes together with waste and old polystyrene plastics foam beads, is cast in In cavity, regeneration concrete layer is formed；Polystyrene plastics foam, which is filled in template middle cavity, becomes insulating layer；And Hole that 3 radiuses are 10mm is reserved then every 30mm in the intermediate position in the front of regeneration concrete and insulating layer.

Step (2): maintenance drying, drying time >=72 hour.

Step (3): distinguishing placing steel tubes in three reserving holes, and perfusion regeneration concrete slurry is sealed；One lattice The size of structure pole unit length is respectively 400mm, 120mm, 600mm.

Step (4): using black coating film brush in exterior wall, with a thickness of 0.5-1mm.

Step (5): maintenance.

Step (6): processing and inspection.

Step (7): the concave-convex clutch between lattice pole unit forms, then is sealed by perfusion regeneration concrete slurry.

Relative to conventional regeneration concrete wall, the invention has the following outstanding advantages:

(1) it is coated with black solar energy film outside wall, when thickness very little, the heat dissipation of wall can be greatly reduced, absorbed more Heat so that interior of building temperature increase, especially adaptation severe cold area.

(2) wall adulterates waste and old polystyrene plastics in regeneration concrete layer, and single thermal insulation material can be effectively relieved Heat bridge effect prevents heat excessive in scattering and disappearing for non-heat preservation position, so that wall thermal insulating efficiency increases in original basis.

(3) wall is formed by several lattice column unit splicings, can be according to the hobby and demand of user, flexible choice wall The specification size of body.

(4) service life for improving wall can be replaced part lattice column list when a certain position of wall goes wrong First rather than wall whole dismountings.

(5) template becomes a part of wall after regeneration concrete wall consolidation, without demoulding process, saves cost； And building solid waste material is made full use of, popularization and use of the regeneration concrete in prefabricated building structure are conducive to, expands regeneration Concrete is in prefabricated assembled application range；Meanwhile the environmental protection concept of green building is developed, project cost is reduced, raising is applied Work efficiency rate.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of lattice regeneration concrete heat-preserving energy-saving wall cell cube of the present invention.

Fig. 2 is lattice column cell cube main view.

Fig. 3 is the A-A sectional view of lattice column cell cube main view.

Fig. 4 is lattice column cell cube top view.

Fig. 5 is the lattice column cell cube of the leftmost side of wall.

Fig. 6 is the lattice column cell cube of the rightmost side of wall.

Fig. 7 is that lattice column completes the wall schematic diagram after assembly.

In figure: 1- lattice column cell cube；2- insulating layer；3- regeneration concrete layer；4-U type groove steel；5- reserving hole；6- swallow Stern notch.

Specific embodiment

Below in conjunction with attached drawing, the present invention is further described.

A kind of regeneration concrete heat-preserving energy-saving wall, it is assembled by connector by several rectangle lattice columns, one Lattice column cell cube includes two layers of regeneration concrete layer 1, intermediate insulating layer 2, reserving hole 3；Dovetail groove 4.Intermediate insulating layer 2 is set It sets between the centre of two layers of regeneration concrete layer 1, intermediate insulating layer 2 and every piece of regeneration concrete layer 1 through several dovetail grooves 4 Concave-convex clutch is formed by connecting；The positive middle position of intermediate insulating layer 2 and every piece of regeneration concrete layer 1 is equipped with corresponding three A reserving hole 3 equidistantly arranged；Concave connector is respectively provided on the left of lattice column cell cube, indent length is 30mm, and right side is set There is a convex connector, evagination length is 30mm, and it is whole for being engaged assembled between lattice column by concavity and convexity.

The thickness of the regeneration concrete layer 1 is twice of intermediate insulating layer thickness 2.The intermediate insulating layer 2 is Polystyrene.

Further, black solar energy film can also be coated with outside wall of the present invention.

Further, regeneration concrete layer of the present invention can also adulterate waste and old polystyrene plastics.

A kind of production method of lattice regeneration heat-preserving energy-saving wall of the present invention, includes the following steps.

Step (1): regeneration concrete slurry stirs 2 minutes together with waste and old polystyrene plastics foam beads, is cast in sky It is intracavitary to become regeneration concrete layer；Polystyrene plastics foam, which is filled in template middle cavity, becomes insulating layer；And again Hole that 3 radiuses are 10mm is reserved then every 30mm in the intermediate position in the front of growing concrete and insulating layer.

Step (2): maintenance drying, drying time >=72 hour.

Step (3): distinguishing placing steel tubes in three reserving holes, and perfusion regeneration concrete slurry is sealed；One lattice The size of structure pole unit length is respectively 400mm, 120mm, 600mm.

Step (4): using black coating film brush in exterior wall, with a thickness of 0.5-1mm.

Step (5): maintenance.

Step (6): processing and inspection.

Step (7): the concave-convex clutch between lattice pole unit forms, then is sealed by perfusion regeneration concrete slurry.

Claims (6)

1. a kind of regeneration concrete heat-preserving energy-saving wall, it is characterized in that passing through connector assembly by several rectangle lattice columns At a lattice column cell cube includes two layers regeneration concrete layer, intermediate insulating layer, reserving hole；Dovetail groove；Intermediate insulating layer The centre of two layers of regeneration concrete layer is set, is stung between intermediate insulating layer and every piece of regeneration concrete layer by dovetail groove bumps Conjunction is formed by connecting；The positive middle position of intermediate insulating layer and every piece of regeneration concrete layer is equipped with corresponding three equidistant rows The reserving hole of cloth；Concave connector is respectively provided on the left of lattice column cell cube, right side is equipped with a convex connector, indent length With evagination equal length, it is whole for being engaged assembled between lattice column by concavity and convexity.

2. regeneration concrete heat-preserving energy-saving wall according to claim 1, it is characterized in that the regeneration concrete layer Thickness is twice of intermediate insulating layer thickness；The intermediate insulating layer is polystyrene.

3. regeneration concrete heat-preserving energy-saving wall according to claim 1, it is characterized in that the lattice column cell cube The indent length of concave connector is 20 ~ 35mm, the evagination length and indent equal length of convex connector.

4. regeneration concrete heat-preserving energy-saving wall according to claim 1, it is characterized in that being coated with black outside the wall Solar energy film.

5. regeneration concrete heat-preserving energy-saving wall according to claim 1, it is characterized in that the regeneration concrete layer is mixed Miscellaneous waste and old polystyrene plastics.

6. the production method of a kind of lattice regeneration heat-preserving energy-saving wall described in claim 1, it is characterized in that including following step It is rapid:

Step (1): regeneration concrete slurry is stirred 2 minutes together with waste and old polystyrene plastics foam beads, is cast in cavity It is interior, form regeneration concrete layer；Polystyrene plastics foam, which is filled in template middle cavity, becomes insulating layer；And it is regenerating Hole that 3 radiuses are 10mm is reserved then every 30mm in the intermediate position in the front of concrete and insulating layer；

Step (2): maintenance drying, drying time >=72 hour；

Step (3): distinguishing placing steel tubes in three reserving holes, and perfusion regeneration concrete slurry is sealed；One lattice column The size of unit length is respectively 400mm, 120mm, 600mm；

Step (4): using black coating film brush in exterior wall, with a thickness of 0.5-1mm；

Step (5): maintenance；

Step (6): processing and inspection；

Step (7): the concave-convex clutch between lattice pole unit forms, then is sealed by perfusion regeneration concrete slurry.