CN2793181Y - Semi-formative thermal-insulative board - Google Patents

Abstract

The utility model provides a semi-formative thermal insulating board, the structure of which comprises a nonmetal base board which is used for setting thickness, bonding mucilage, and mesh cloth, wherein the bottom surface of the nonmetal base board is a flat surface, the upper surface of the nonmetal base board is composed of a flat surface, and inclined surfaces which surround the edge of the flat surface; the bonding mucilage and the mesh cloth are orderly arranged on the nonmetal base board; the mesh cloth is bonded at the flat surface of the nonmetal base board and the upper part of two adjacent inclined surfaces, and the mesh cloth at the other two inclined surfaces is in the state of no bond. The utility model has the advantages of simple technology, rapid construction, short construction period, convenient operation, low cost, material saving, good quality, and no influence of climatic and environment when manufacture, and moreover, a thermal insulating board is beforehand made into a semi-formative product by the utility model, only two processes of bond and plastering are implemented at the construction field, and the lapped accuracy of the mesh cloth and the flatness of a base surface can be ensured. Compared with the prior art, the utility model enhances efficiency with sesquialter, which only needs 32 hours to finish.

Description

Half-formed heat-insulating board

Technical field

The utility model relates to the moulding insulating product of architectural usefulness, particularly be half-formed heat-insulating board.

Background technology

Exterior-wall heat insulation is the architectural novel energy-conserving measure of China, insulation layer is set on vertical exterior wall realizes energy-conservation attention and the approval that has obtained market.Insulation layer commonly used on the skin is made up of bonding grid cloth and adhesive mortar on polyphenyl plate, concrete structure and construction technology are: smear bonding agent in the polyphenyl plate bottom surface with certain specification size, the bottom surface attaching that scribbles bonding agent is cemented on the vertical exterior wall; In the front of polyphenyl plate, promptly lateral surface is scraped the daub slurry; Press to embed grid cloth, the grid cloth that covers on the adjacent polyphenyl plate requires to overlap mutually between the edge and gains in strength with this; After treating the rubber cement drying, on grid cloth, smear special-purpose rubber cement again one time, when smearing special-purpose rubber cement, grid cloth lap-joint rib is obstructed projection and other parts levelling; Batch scrape facing putty, brushing exterior wall special coating smearing on the face of special-purpose rubber cement.

The defective of above-mentioned prior art is: complex process, the construction period is long.As, smearing adhesive mortar on the polyphenyl plate face needs three days dry periods, moisture is fully volatilized after grid coverage cloth again; Puttying again after smearing adhesive mortar on the grid cloth need stop 48 hours equally.If not according to the requirement of above-mentioned duration, can make that large quantity of moisture can not fully volatilize seepage in body of wall in the adhesive mortar, easily cause the exterior wall after the application to burst apart.

In addition, prior art insulation layer manufacture craft waste of material is big.On straight wall, make insulation layer and construct that not only difficulty is big, also as easy as rolling off a logly fall to expect waste material; The difficulty that site operation exists also influences the quality of insulation layer.

Summary of the invention

The purpose of this utility model is to overcome the deficiency of above-mentioned technology, provides a kind of semiproduct warming plate of making in advance to install to on-the-spot, and construction technology is simple, the construction period is short, the half-formed heat-insulating board of saving material quick-assembling.

The technical scheme that solves the problems of the technologies described above is:

A kind of half-formed heat-insulating board, its structure comprises: have non-metal base plate, bonding rubber cement, the grid cloth of setting thickness; Wherein the bottom surface of non-metal base plate is the plane, is made up of plane and the inclined-plane that is enclosed in horizontal edge above it, is disposed with bonding rubber cement and grid cloth in the above; Grid cloth sticks on the plane of non-metal base plate and the top on two adjacent inclined-planes, and the grid cloth of all the other tops, two inclined-planes is not adhering state.

The width of the grid cloth of described not adhering state is less than or equal to the closing of width (1d+1b) on inclined-plane and another inclined-plane of being adjacent for the width greater than its inclined-plane, below.

Described non-metal base plate is pasted with the width on two adjacent inclined-planes of grid cloth greater than the width on two inclined-planes that are not pasted with grid cloth.

Described non-metal base plate is one of them a substrate of flame-retardant polystyrene cystosepiment, extruded polystyrene warming plate or other nonmetals.

Described grid cloth is a fiberglass gridding cloth.

The beneficial effects of the utility model are:

1. the utility model is that warming plate is made semiproduct in advance, and operation at the construction field (site) has only two procedures, that is, paste and smear seam.The so-called operation of pasting is: only be bonded on the exterior wall at non-metal base plate baseplane daub, one pastes promptly; What is called is smeared tailor's preface: to every half-formed heat-insulating board not the grid cloth of adhering state reach that to connect the recess that is attached on the non-metal base plate inclined-plane that is adjacent floating with ash, there is not the rib stalk behind the grid cloth overlap joint daub, promptly smear the seam levelling, seam crossing need not to apply again one time rubber cement again.

2. the utility model can guarantee the accuracy of grid cloth overlap joint and the planeness of basal plane at the prefabricated product of factory floor.

3. the utility model is the processing that is prefabricated in the factory, and has avoided that prior art is on-the-spot pastes the waste that grid cloth can cause the rubber cement to criticize to scrape the material that trickling causes.

4. quality is good, not influenced by weather, environment etc.

5. technology is simple, and is easy to operate, and cost is low, simplifies twice by original 4-5 procedure, and the quick construction duration is short, can reduce material and cost, and steady quality can be controlled, and it is secure to reach standard-required.

6. the duration is lacked the efficient height.Finished needs 96 hours with the process system that technology is arranged, the utility model only needed to finish in 32 hours, improved the work efficiency half as much again than prior art.

Description of drawings

Fig. 1 is the utility model front view;

Fig. 2 is the A-A sectional view of Fig. 1;

Fig. 3 is the front view of non-metal base plate among Fig. 1;

Fig. 4 is the upward view of Fig. 2;

Fig. 5 is adjacent two scheme of installations of the present utility model.

The specific embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is described in further detail.

Fig. 1 is the utility model front view; Fig. 2 is the A-A sectional view of Fig. 1; Fig. 3 is the front view of non-metal base plate among Fig. 1; Fig. 4 is the upward view of Fig. 2; Fig. 5 is adjacent two scheme of installations of the present utility model.

As shown, the utility model is a kind of half-formed heat-insulating board, and its structure comprises: have non-metal base plate 1, bonding rubber cement 2, the grid cloth 3 of setting thickness; Wherein the bottom surface 1c of non-metal base plate 1 is the plane, is made up of plane 1a and the inclined-plane 1b, the 1d that are enclosed in 1a edge, plane above it, is disposed with bonding rubber cement 2 and grid cloth 3 in the above; Grid cloth 3 sticks on the top of plane 1a and two adjacent inclined-plane 1b of non-metal base plate 1, and the grid cloth 3 of all the other two inclined-plane 1d tops is not adhering state.

The bottom surface 1c of above-mentioned non-metal base plate 1 is the plane, directly is bonded on the outer body of wall behind this plane daub.Above the face non-metal base plate 1 relative, form by the plane 1a that is positioned at middle body and two inclined-plane 1b and two inclined-plane 1d of being enclosed in 1a edge, plane above it with bottom surface 1c.

Adjacent two inclined-plane 1b width two other adjacent inclined-plane 1b width corresponding with it does not wait above the above-mentioned non-metal base plate 1, and the width of two inclined-plane 1b that is pasted with grid cloth 3 is greater than the width of two inclined-plane 1b that are not pasted with grid cloth 3.The utility model purpose of design is to make not to be pasted with grid cloth 3 and to be overlapped on and to be adjacent on the inclined-plane 1b that is pasted with grid cloth 3 broads, so promptly keep prior art and between every half-formed heat-insulating board, overlap the advantage of grid cloth 3 with the control cracking of gaining in strength, make that again the scope of overlap joint grid cloth 3 back appearance depressions is as far as possible little on inclined-plane between the every half-formed heat-insulating board, be convenient to smearing the seam levelling.

The width L of the grid cloth 3 of described not adhering state be less than or equal to for width greater than the inclined-plane 1d in its below inclined-plane 1d and another inclined-plane 1b of being adjacent width close 1d+1b.

Described non-metal base plate 1 is pasted with the width of two adjacent inclined-plane 1b of grid cloth 3 greater than the width of two inclined-plane 1d that are not pasted with grid cloth 3.

Described non-metal base plate 1 is one of them a substrate of flame-retardant polystyrene cystosepiment, extruded polystyrene warming plate or other nonmetals.

Described grid cloth 3 is a fiberglass gridding cloth.

Below using method of the present utility model is described.

As shown in Figure 5, non-metal base plate 1 of the present utility model is selected the flame-retardant polystyrene cystosepiment for use, is bonded with bonding rubber cement 2 and grid cloth 3 and makes half-formed heat-insulating board jointly on the flame-retardant polystyrene cystosepiment.On the 1c of the bottom surface of half-formed heat-insulating board, smear bonding agent 5, it is bonded on the vertical exterior wall 4.The order of bonding the utility model half-formed heat-insulating board is on exterior wall 4: two inclined-plane 1d that do not paste grid cloth 3 are pasted with two inclined-plane 1b of grid cloth 3 in abutting connection with another piece half-formed heat-insulating board, the grid cloth 3 of not pasting is overlapped on two inclined-plane 1b that another piece posts grid cloth 3, implement to smear tailor's preface at the recess of grid cloth 3 overlap joint again, make the height and the whole levelling of smearing behind the seam with bonding rubber cement.

Claims (5)

1. a half-formed heat-insulating board is characterized in that its structure comprises: have non-metal base plate (1), bonding rubber cement (2), the grid cloth (3) of setting thickness; Wherein the bottom surface (1c) of non-metal base plate (1) is the plane, is made up of plane (1a) and the inclined-plane (1b, 1d) that is enclosed in edge, plane (1a) above it, is disposed with bonding rubber cement (2) and grid cloth (3) in the above; Grid cloth (3) sticks on the plane (1a) of non-metal base plate (1) and the top on two adjacent inclined-planes (1b), and the grid cloth (3) of all the other tops, two inclined-planes (1d) is not adhering state.

2. according to the half-formed heat-insulating board described in the claim 1, the width (L) that it is characterized in that the grid cloth (3) of described not adhering state is less than or equal to inclined-plane (1d) for the width greater than its inclined-plane, below (1d) and the closing of the width on another inclined-plane (1b) of being adjacent (1d+1b).

3. according to the half-formed heat-insulating board described in the claim 1, it is characterized in that described non-metal base plate (1) is pasted with the width on two adjacent inclined-planes (1b) of grid cloth (3) greater than the width on two inclined-planes (1d) that are not pasted with grid cloth (3).

4. according to the half-formed heat-insulating board described in the claim 1, it is characterized in that described non-metal base plate (1) is one of them a substrate of flame-retardant polystyrene cystosepiment, extruded polystyrene warming plate or other nonmetals.

5. according to the half-formed heat-insulating board described in the claim 1, it is characterized in that described grid cloth (3) is fiberglass gridding cloth.

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