CN205637192U - Energy -saving building - Google Patents

Abstract

The utility model discloses an energy -saving building belongs to energy -saving building wall body field, including basic unit's wall body, mortar levelling layer, heat preservation, dampproof course, anti -cracking protection layer and finish coat, basic unit wall body one side fixed connection mortar levelling layer, the fixing bolt fixed connection heat preservation is passed through on the mortar levelling layer, the heat preservation inner chamber is equipped with tie coat, dampproof course and expanded polystyrene panel from a left side to the right side in proper order, heat preservation one side fixed connection dampproof course, dampproof course one side fixed connection anti -cracking protection layer, anti -cracking protection layer are equipped with anti -crack glue thick liquid layer, plastics expandable rock bolt ties and alkali -resisting glass fiber gridding cloth, anti -crack glue thick liquid level in the alkali -resisting glass fiber gridding cloth both sides, anti -cracking protection layer connects the finish coat in one side, through expanded polystyrene panel as insulation material to alkali -resisting glass fiber gridding cloth is the enhancement layer, can play keeping warm winter to the building, and dampproof course and anti anti -cracking layer were add simultaneously to thermal -insulated effect summer, and firm stability is energy -concerving and environment -protective, the practicality is strong.

Description

A kind of energy saving building

Technical field

This utility model relates to a kind of energy saving building, belongs to construction wall field.

Background technology

Along with the living standard of people is more and more higher, the comfort level of living environment is required more and more higher by everybody, wall The insulations of body etc. are the most increasingly paid attention to, but current technique is complicated or steadiness is inadequate The inadequate people of environment friendly need better method to meet multiple requesting in our daily life, Keep indoor stationary temperature just can feel more comfortable by let us, the heating in such as winter and the refrigeration in summer, all Could occur consuming fossil resource, use season at air-conditioning according to statistics, air-conditioning consumption is building power consumption 44%～51%, therefore indoor heat insulating is heat insulation just serves conclusive effect, and existing indoor heat insulating material is many With xoncrete structure, but its shortcoming be the most ageing-resistant, deformation coefficient big, poor stability, poor stability, inflammable Burn, eco-environmental prote is poor, difficulty of construction is big, engineering cost is higher, its resource-constrained and be difficult to recycle, Reinforced concrete wall is widely used with architectural engineering at present, and reinforced concrete is the material that heat transfer efficiency is higher Material, causes the heat in building to scatter and disappear quickly, and the heating energy consumption increasing building comes from the angle of environmental protection Say, cork high insulating effect, but cost be the highest, and existing warming plate and wall connecting is firm not, Use for a long time and easily come off, and body of wall has easily made moist, accordingly, it would be desirable to improve further.

Utility model content

The technical problems to be solved in the utility model overcomes existing defect, it is provided that a kind of energy saving building, by swollen Swollen styrofoam is as insulation material, with alkali resistant glass fibre open weave cloth as enhancement layer, building can be played Winter protection, The effect that summer is heat insulation, has additional damp-proof layer and anti-Anti-crack layer, more stable and stronger simultaneously, can effectively solve background Problem in technology.

In order to solve above-mentioned technical problem, this utility model provides following technical scheme:

A kind of energy saving building, including base course wall, mortar levelling layer, heat-insulation layer, damp-proof layer, anti-cracking protective layer With finish coat, described base course wall side is fixing connects mortar levelling layer, and described mortar levelling layer is by fixing spiral shell Bolt is fixing connects heat-insulation layer, and described heat-insulation layer inner chamber is sequentially provided with tack coat from left to right, damp-proof layer gathers with expansion Benzene plate, described heat-insulation layer side is fixing connects damp-proof layer, and described damp-proof layer side is fixing connects anti-cracking protective layer, Described anti-cracking protective layer is provided with cracking resistance mucilage layer, plastic expansion anchoring bolt and alkali resistant glass fibre open weave cloth, described cracking resistance glue Pulp layer is positioned at described alkali resistant glass fibre open weave cloth both sides, and described anti-cracking protective layer side connects finish coat.

Preferably, described heat-insulation layer is that homoiothermic is incubated layer of sand.

Preferably, the outer surface of described damp-proof layer is provided with sealing compound.

Preferably, described alkali resistant glass fibre open weave cloth is connected by plastic expansion anchoring bolt and cracking resistance mucilage layer are fixing.

Preferably, described finish coat is made up of with coating flexible waterproof putty.

This utility model beneficial effect: this utility model by expansion polyphenyl plate as insulation material, with alkaline-resisting glass Fine grid cloth is enhancement layer, and building can be played Winter protection, and the effect that summer is heat insulation has additional anti-simultaneously Tide layer and anti-Anti-crack layer, more stable and stronger, energy-conserving and environment-protective, practical.

Accompanying drawing explanation

Accompanying drawing is used for providing being further appreciated by of the present utility model, and constitutes a part for description, with this The embodiment of utility model is used for explaining this utility model together, is not intended that restriction of the present utility model.

Fig. 1 is this utility model one energy saving building overall structure figure.

Fig. 2 is this utility model one insulated wall heat insulation layer structure figure.

Fig. 3 is this utility model one insulated wall anti-cracking protective layer structure chart.

Wherein, 1-base course wall, 2-mortar levelling layer, 3-fixes bolt, 4-heat-insulation layer, and 5-bonds Layer, 6-expansion polyphenyl plate, 7-damp-proof layer, 8-anti-cracking protective layer, 9-cracking resistance mucilage layer, 10-plastics are swollen Expansion anchor bolt, 11-alkali resistant glass fibre open weave cloth, 12-finish coat.

Detailed description of the invention

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is illustrated, it will be appreciated that described herein Preferred embodiment be merely to illustrate and explain this utility model, be not used to limit this utility model.

Embodiment

As shown in Figure 1-Figure 3, a kind of energy saving building, including base course wall 1, mortar levelling layer 2, heat-insulation layer 4, damp-proof layer 7, anti-cracking protective layer 8 and finish coat 12, the fixing mortar that connects in described base course wall 1 side is looked for Flat bed 2, described mortar levelling layer 2 connects heat-insulation layer 4, in described heat-insulation layer 4 by fixing bolt 3 is fixing Chamber is sequentially provided with tack coat 5 and expansion polyphenyl plate 6 from left to right, and described heat-insulation layer 4 side is fixing connects protection against the tide Layer 7, described damp-proof layer 7 side is fixing connects anti-cracking protective layer 8, and described anti-cracking protective layer 8 is provided with cracking resistance glue Pulp layer 9, plastic expansion anchoring bolt 10 and alkali resistant glass fibre open weave cloth 11, described cracking resistance mucilage layer 9 is positioned at described resistance to Alkali glass fiber reticular cloth 11 both sides, described anti-cracking protective layer 8 side connects finish coat 12.

More specifically, described heat-insulation layer 4 is incubated layer of sand for automatic temperature-control, can carry out automatically according to ambient temperature Homoiothermic.

More specifically, the outer surface of described damp-proof layer 7 is provided with sealing compound, damp-proof layer can be carried out maintenance, Useful life is longer.

More specifically, described alkali resistant glass fibre open weave cloth 11 is by plastic expansion anchoring bolt 10 and cracking resistance mucilage layer 9 Fixing connection, effectively prevents body of wall from producing crack.

More specifically, described finish coat 12 is made up of with coating flexible waterproof putty, it is not easy to produce crack, Can also be moistureproof.

This utility model improves with: this utility model by expansion polyphenyl plate as insulation material, with alkali-resisting glass fiber Grid cloth is enhancement layer, and building can be played Winter protection, and the effect that summer is heat insulation has additional protection against the tide simultaneously Layer and anti-Anti-crack layer, more stable and stronger, energy-conserving and environment-protective, practical.

Being more than this utility model preferably embodiment, this utility model those skilled in the art can also Above-mentioned embodiment is changed and revised, and therefore, this utility model is not limited to above-mentioned being embodied as Mode, every those skilled in the art made on the basis of this utility model any conspicuously improved, Replace or modification belongs to protection domain of the present utility model.

Claims (5)

1. null1. an energy saving building，Including base course wall (1)、Mortar levelling layer (2)、Heat-insulation layer (4)、Damp-proof layer (7)、Anti-cracking protective layer (8) and finish coat (12)，It is characterized in that，Described base course wall (1) side is fixing connects mortar levelling layer (2)，Described mortar levelling layer (2) connects heat-insulation layer (4) by fixing bolt (3) is fixing，Described heat-insulation layer (4) inner chamber is sequentially provided with tack coat (5) and expansion polyphenyl plate (6) from left to right，Described heat-insulation layer (4) side is fixing connects damp-proof layer (7)，Described damp-proof layer (7) side is fixing connects anti-cracking protective layer (8)，Described anti-cracking protective layer (8) is provided with cracking resistance mucilage layer (9)、Plastic expansion anchoring bolt (10) and alkali resistant glass fibre open weave cloth (11)，Described cracking resistance mucilage layer (9) is positioned at described alkali resistant glass fibre open weave cloth (11) both sides，Described anti-cracking protective layer (8) side connects finish coat (12).
2. A kind of energy saving building the most according to claim 1, it is characterised in that: described heat-insulation layer (4) is that automatic temperature-control is incubated layer of sand.
3. A kind of energy saving building the most according to claim 1, it is characterised in that: the outer surface of described damp-proof layer (7) is provided with sealing compound.
4. A kind of energy saving building the most according to claim 1, it is characterised in that: described alkali resistant glass fibre open weave cloth (11) is connected by plastic expansion anchoring bolt (10) and cracking resistance mucilage layer (9) are fixing.
5. A kind of energy saving building the most according to claim 1, it is characterised in that: described finish coat (12) is made up of with coating flexible waterproof putty.