CN2672183Y - External wall energy saving coating - Google Patents

Abstract

The utility model relates to an external wall energy saving coating. The external wall energy saving coating is characterized in that the external wall energy saving coating attaches on the outer surface of a wall body (1). The external wall energy saving coating comprises a heat insulation layer (2), a stress release layer (3), a gridding cloth (4), and a waterproof layer (5). The heat insulation layer (2), the stress release layer (3), the gridding cloth (4), and the waterproof layer (5) are orderly attached on the outer surface of the wall body (1). The utility model also comprises a reinforcing gridding cloth (4A) on the basis of the structure. The reinforcing gridding cloth (4A) is positioned on the inner side of the gridding cloth (4). The heat insulation layer (2) is held and fixed on the wall body (1) by a T-shaped bracket (7). The reinforcing gridding cloth (4A) is fixed on the wall body (1) by an anchoring element (6). The utility model has excellent heat insulation performance, non-easy falling off, good waterproof performance, and convenient construction.

Description

A kind of external wall energy-saving coating

Technical field

The utility model relates to a kind of construction wall, particularly a kind of external wall energy-saving coating.

Background technology

When building, except that it was sturdy and durable, energy-conservation also was an important index to the quality requirement of wall.If the thermal and insulating performance of body of wall is relatively poor, when people lived, the energy consumption of the heating in winter and the air-conditioning in summer will increase significantly.In short supply day by day along with world energy sources gets up to the requirement of the thermal and insulating performance of house wall also increasingly stringent.The thermal insulation of existing body of wall, except that adopting hollow brick etc. from the measure that this body structure of body of wall is taked, above the wall appearance, also take measures, generally be to adopt mortar to be coated on the wall face, this employing mortar is coated in way on the wall face, though can rise outside certain function of heat insulation, significant feature is still protected exterior wall, and it adheres to jail inadequately, easy to crack coming off; Heat waste is big; Need the brushing interfacial agents, improved construction costs.

Summary of the invention

The purpose of this utility model provides a kind of external wall energy-saving coating, and it can solve the aforesaid drawbacks, and has fabulous thermal and insulating performance, difficult drop-off, and water resistance is good, and easy construction.

The purpose of this utility model is to realize by following technical scheme.

The utility model external wall energy-saving coating, it is characterized in that: it is attached to the external surface of body of wall, described external wall energy-saving coating comprises heat insulation layer, stress release layer, grid cloth and waterproofing course, at described exterior surface of wall, be attached with described heat insulation layer, stress release layer, grid cloth and waterproofing course successively.

Another structure of the present utility model is: increased the reinforcement grid cloth on above-mentioned structure, described reinforcement grid cloth is positioned at the inboard of described grid cloth.With T type carriage described heat insulation layer holder is fixed on the described body of wall.With anchoring piece described reinforcement grid cloth is fixed on the described body of wall.

The utility model is a kind of novel external wall energy-saving system, is made by the composite bed that comprises heat insulation layer, stress release layer, grid cloth and waterproofing course, and it is simple in structure.Heat insulation layer pastes in the body of wall outside, in order to thermal insulation, and its disconnected good in thermal property.Stress release layer has the balance quality of hot strength and expansion and contraction, can eliminate the stress that is produced because of body of wall variations in temperature and deformation of wall, and is not easy to crack, thereby guaranteed the overall performance of thermal insulation system.Grid cloth is in order to strengthen the intensity of heat insulation layer, and waterproofing course is in order to protection against the tide.Heat insulation layer adopts the compound organic resin of EPS aggregate, inorganic binder, fiber, organosilicon moisture repellent and auxiliary agent to make by the premixed dry mixing.The stress release material adopts materials such as redispersible polymer rubber powder, composite inorganic cementing agent, inorganic filler and cracking resistance material to make.Flexible waterproof material adopts water-based to make by excellent high molecular polymer rubber powder, waterproofing materials, inorganic filler, hydrophobic substance and cracking resistance material.Above-mentioned material is commercially available, can be prefabricated, and its easy construction.Body of wall can be concrete, small-size concrete, hollow brick, non-clay brick, clinker brick etc.When making, wall face is handled clean.Do heat insulation layer earlier, the thermal insulation material for preparing is coated on the wall face, make heat insulation layer; Do stress release layer then, again grid cloth is pressed in the stress release layer; Do waterproofing course at last.When wall face is higher, adopt and strengthen way, below heat insulation layer, add nail T type carriage in order to support, strengthen grid cloth in heat insulation layer surface paving, fixed with fixed anchors; Do stress release layer then, again grid cloth is pressed in the stress release layer; Do waterproofing course 5 at last.

In sum, the utility model has the advantages that:

1, can protect agent structure, prolong the life-span of building.Both can reduce the variations in temperature stress of structure, and can shield to agent structure again, thereby effectively improve the durability of agent structure.

2, eliminate the influence of heat bridge substantially, avoided the heat bridge position to produce the phenomenon of dewfall, reduced its additional heat that causes loss, conserve energy.

3, increased substantially the water resistance of body of wall, significantly improved, avoided the energy conserving system performance decrease that causes owing to rain penetration than the traditional method water resistance.

4, helping room temperature keeps relative stability, because the bigger wall body structure layer of heat storage capacity is positioned at the inboard of heat insulating material, when room temperature changed, body of wall can absorb or release heat, be unlikely to produce discomfort, reduce the energy consumption of heating or air-conditioning because of room temperature changes the excessive people of making.

5, caking property is good, has added extremely strong organic resin of multiple caking property and inorganic adiabatic binding material in the material, can form extremely strong caking property with body of wall, need not the brushing interfacial agents, and labor and material saving is increased economic efficiency, and reduces construction costs.

6, whole system all adopts premixed dry mixing technology, and the scene adds water can use, and has easy construction, proportion speed, is convenient to transportation, stores characteristics such as not being subjected to temperature limitation, period of storage length.

Description of drawings

Fig. 1 is a structural representation of the present utility model,

Fig. 2 is another structural representation of the present utility model.

Code name explanation among the figure

1 body of wall, 2 heat insulation layers, 3 stress release layers, 4 grid cloth 4A strengthen grid cloth 5 waterproofing courses 6 anchoring piece 7T type carriages

The specific embodiment

As Fig. 1 is structural representation of the present utility model, show a kind of external wall energy-saving coating, it is attached to the external surface of body of wall 1, described external wall energy-saving coating comprises heat insulation layer 2, stress release layer 3, grid cloth 4 and waterproofing course 5, at described body of wall 1 external surface, be attached with described heat insulation layer 2, stress release layer 3, grid cloth 4 and waterproofing course 5 successively.This structure is used for the shorter external wall energy-saving coating of body of wall.

Fig. 2 is another structural representation of the present utility model, and this structure also comprises and strengthens grid cloth 4A, anchoring piece 6, T type carriage 7 except each layer shown in Fig. 1; Strengthen the inboard that grid cloth 4A is positioned at grid cloth 4.With T type carriage 7 heat insulation layer 2 holders are fixed on the body of wall 1.To strengthen grid cloth 4A with anchoring piece 6 is fixed on the exterior wall.This structure is used for the higher external wall energy-saving coating of body of wall.

When making, wall face is handled clean.Do heat insulation layer 2 earlier, the thermal insulation material for preparing is coated on the wall face drying; In the present embodiment, when wall face is low, adopt structure shown in Figure 1,, be attached with described heat insulation layer 2, stress release layer 3, grid cloth 4 and waterproofing course 5 successively at described body of wall 1 external surface.

When wall face is higher, adopt reinforcement way shown in Figure 2, paving reinforcing mat lattice cloth 4A on the surface of heat insulation layer 2, and below heat insulation layer 2, nail will be strengthened grid cloth 4A with anchoring piece 6 and fix with T type carriage 7.Do stress release layer 3 then, at first smear stress release layer, smeared the back and grid cloth 4 has been pressed into (for the aid of pictures clear, illustrated grid cloth 4 is left slightly with stress release layer 3) in the stress release layer 3 with trowel; At last, on stress release layer 3, do waterproofing course 5.

Claims (4)

1. external wall energy-saving coating, it is characterized in that: it is attached to the external surface of body of wall (1), described external wall energy-saving coating comprises heat insulation layer (2), stress release layer (3), grid cloth (4) and waterproofing course (5), at described body of wall (1) external surface, be attached with described heat insulation layer (2), stress release layer (3), grid cloth (4) and waterproofing course (5) successively.

2. external wall energy-saving coating according to claim 1 is characterized in that: also comprise and strengthen grid cloth (4A), described reinforcement grid cloth (4A) is positioned at the inboard of described grid cloth (4).

3. external wall energy-saving coating according to claim 1 is characterized in that: with T type carriage (7) described heat insulation layer (2) holder is fixed on the described body of wall (1).

4. external wall energy-saving coating according to claim 3 is characterized in that: with anchoring piece (6) described reinforcement grid cloth (4A) is fixed on the described body of wall (1).