CN208702046U - A kind of building energy conservation dalle - Google Patents

Abstract

The utility model discloses a kind of building energy conservation dalles; including dope layer; the bottom of the dope layer is fixedly connected with matcoveredn; the protective layer includes wearing layer, polytetrafluoroethylene ethylene layer and glass layer; the protective layer is fixedly connected with waterproof layer far from the side of dope layer, and the waterproof layer is fixedly connected with thermal insulation layer far from the side of protective layer.The utility model is used cooperatively by dope layer, protective layer, waterproof layer, thermal insulation layer, flame-retardant layer, the first phenolic foam board layer, polyurethane foam layer and the second phenolic foam board layer; enable to the quality of building energy conservation dalle more stable; its performance is more and stability is good; using effect is good; extend the service life of building energy conservation dalle; it avoids and quality problems occurs and need replacing and bring the appearance of inconvenience situation to user, substantially increase the practicability of building energy conservation dalle.

Description

A kind of building energy conservation dalle

Technical field

The utility model relates to energy-saving building technology field, specially a kind of building energy conservation dalle.

Background technique

Building decoration is the abbreviation of Building decorating and repairs engineering, and building decoration is to protect the main structure of building, complete The physical property of kind building, using function and beautifying constructure, using decorating and renovating material or jewelry to building inside and outside The various treatment processes that surface and space carry out, ornament materials include various plates, coating, paint, coating, veneer, assorted porcelain Brick, glass with special-effect etc., wherein decorative panel is increasingly valued by people.

However traditional building energy conservation dalle is low in market utility ratio, is not exposed to liking for consumer, it is main because It is not sufficiently stable for product quality, performance is single, and using effect is general and service life is short, needs more after there are quality problems It changes, it is time-consuming and laborious, inconvenience is brought to user, greatly reduces the practicability of building energy conservation dalle.

Utility model content

The purpose of this utility model is to provide a kind of building energy conservation dalles, have the advantages of long service life, solution The building energy conservation dalle for having determined traditional is low in market utility ratio, is not exposed to liking for consumer, is primarily due to product matter Amount is not sufficiently stable, and performance is single, and using effect is general and service life is short, is needed replacing after there are quality problems, time-consuming It is again laborious, the problem of bringing inconvenience to user, greatly reduce building energy conservation dalle practicability.

To achieve the above object, the utility model provides the following technical solutions: a kind of building energy conservation dalle, including applies The bed of material, the bottom of the dope layer are fixedly connected with matcoveredn, and the protective layer includes wearing layer, polytetrafluoroethylene ethylene layer and glass Fibrous layer, the protective layer are fixedly connected with waterproof layer, side of the waterproof layer far from protective layer far from the side of dope layer Be fixedly connected with thermal insulation layer, the thermal insulation layer is fixedly connected with flame-retardant layer far from the side of waterproof layer, the flame-retardant layer far from every The side of thermosphere is fixedly connected with the first phenolic foam board layer, and the first phenolic foam board layer is fixed far from the side of flame-retardant layer It is connected with polyurethane foam layer, the polyurethane foam layer is fixedly connected far from the side of the first phenolic foam board layer There is the second phenolic foam board layer.

Preferably, the bottom of the protective layer is fixedly connected with wearing layer, and side of the wearing layer far from protective layer is solid Surely it is connected with polytetrafluoroethylene ethylene layer, the polytetrafluoroethylene ethylene layer is fixedly connected with stainless steel steel wire net rack far from the side of wearing layer Layer, the stainless steel steel wire rack-layer are fixedly connected with glass layer far from the side of polytetrafluoroethylene ethylene layer.

Preferably, the two sides of the polyurethane foam layer pass through adhesive for the first phenolic foam board layer and second Phenolic foam board layer is connected close to the side of polyurethane foam layer, the first phenolic foam board layer and the second phenol formaldehyde foam The thickness of plate layer is identical.

Preferably: the two sides of the stainless steel steel wire rack-layer pass through adhesive polytetrafluoroethylene ethylene layer and glass fibre Layer is connected close to the side of stainless steel steel wire rack-layer, and the thickness of the glass layer is greater than the thickness of polytetrafluoroethylene ethylene layer.

Preferably, the dope layer with a thickness of 0. 6 millimeters to 0. 8 millimeters, the protective layer with a thickness of four Millimeter is to six millimeters.

Compared with prior art, the beneficial effects of the utility model are as follows:

1, the utility model by dope layer, protective layer, waterproof layer, thermal insulation layer, flame-retardant layer, the first phenolic foam board layer, Being used cooperatively for polyurethane foam layer and the second phenolic foam board layer, enables to the quality of building energy conservation dalle more Add stabilization, performance is more and stability is good, and using effect is good, extends the service life of building energy conservation dalle, avoids Quality problems occur needs replacing and brings the appearance of inconvenience situation to user, substantially increases building energy conservation dress The practicability of decoratice board.

2, the utility model passes through the cooperation of wearing layer, polytetrafluoroethylene ethylene layer, stainless steel cloth rack-layer and glass layer It uses, enables to the building energy conservation dalle that there is better wearability and corrosion resistance, considerably increase its performance Stability improves the building energy conservation dalle insulating properties and mechanical strength, extends its service life.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the sectional view of the utility model protective layer.

In figure: 1, dope layer；2, protective layer；3, waterproof layer；4, thermal insulation layer；5, flame-retardant layer；6, the first phenolic foam board layer； 7, polyurethane foam layer；8, the second phenolic foam board layer；9, wearing layer；10, polytetrafluoroethylene ethylene layer；11, stainless steel cloth Rack-layer；12, glass layer.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The utility model provides a kind of technical solution, a kind of building energy conservation dalle, including coating referring to FIG. 1-2, Layer 1, the bottom of dope layer 1 are fixedly connected with matcoveredn 2, and protective layer 2 includes wearing layer 9, polytetrafluoroethylene ethylene layer 10 and glass fibers Layer 12 is tieed up, protective layer 2 is fixedly connected with waterproof layer 3 far from the side of dope layer 1, and waterproof layer 3 is fixed far from the side of protective layer 2 It is connected with thermal insulation layer 4, thermal insulation layer 4 is fixedly connected with flame-retardant layer 5 far from the side of waterproof layer 3, and flame-retardant layer 5 is far from thermal insulation layer 4 Side is fixedly connected with the first phenolic foam board layer 6, and the first phenolic foam board layer 6 is fixedly connected with far from the side of flame-retardant layer 5 Polyurethane foam layer 7, polyurethane foam layer 7 are fixedly connected with second far from the side of the first phenolic foam board layer 6 Phenolic foam board layer 8.

In the utility model: the bottom of protective layer 2 is fixedly connected with wearing layer 9, side of the wearing layer 9 far from protective layer 2 It is fixedly connected with polytetrafluoroethylene ethylene layer 10, polytetrafluoroethylene ethylene layer 10 is fixedly connected with stainless steel steel wire far from the side of wearing layer 9 Rack layer 11,11 side far from polytetrafluoroethylene ethylene layer 10 of stainless steel steel wire rack-layer are fixedly connected with glass layer 12, lead to Being used cooperatively for wearing layer 9, polytetrafluoroethylene ethylene layer 10, stainless steel cloth rack-layer 11 and glass layer 12 is crossed, this is enabled to Building energy conservation dalle has better wearability and corrosion resistance, considerably increases the stability of its performance, improves this Building energy conservation dalle insulating properties and mechanical strength extend its service life.

In the utility model: the two sides of polyurethane foam layer 7 pass through adhesive for 6 He of the first phenolic foam board layer Second phenolic foam board layer 8 is connected close to the side of polyurethane foam layer 7, the first phenolic foam board layer 6 and the second phenolic aldehyde The thickness of foam sheet 8 is identical.

In the utility model:: the two sides of stainless steel steel wire rack-layer 11 pass through adhesive polytetrafluoroethylene ethylene layer 10 and glass Glass fibrous layer 12 is connected close to the side of stainless steel steel wire rack-layer 11, and the thickness of glass layer 12 is greater than polytetrafluoroethylene ethylene layer 10 thickness.

In the utility model: dope layer 1 with a thickness of 0. 6 millimeters to 0. 8 millimeters, protective layer 2 with a thickness of four Millimeter is to six millimeters.

Working principle: when the utility model is used, pass through dope layer 1, protective layer 2, waterproof layer 3, thermal insulation layer 4, flame-retardant layer 5, the first phenolic foam board layer 6, polyurethane foam layer 7, the second phenolic foam board layer 8, wearing layer 9, polytetrafluoroethylene ethylene layer 10, stainless steel cloth rack-layer 11 and glass layer 12 are used cooperatively, and enable to the building energy conservation dalle to have more Kind excellent performance, and it is practical, reach purpose with long service life.

In summary: the building energy conservation dalle, by dope layer 1, protective layer 2, waterproof layer 3, thermal insulation layer 4, fire-retardant Layer the 5, first phenolic foam board layer 6, polyurethane foam layer 7 and the second phenolic foam board layer 8 are used cooperatively, and solve biography The building energy conservation dalle of system is low in market utility ratio, is not exposed to liking for consumer, it is inadequate to be primarily due to product quality To stablize, performance is single, and using effect is general and service life is short, needs replacing after there are quality problems, and it is time-consuming and laborious, The problem of bringing inconvenience to user, greatly reducing building energy conservation dalle practicability.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of building energy conservation dalle, including dope layer (1), it is characterised in that: the bottom of the dope layer (1) is fixed to be connected It is connected to protective layer (2), the protective layer (2) includes wearing layer (9), polytetrafluoroethylene ethylene layer (10) and glass layer (12), institute It states protective layer (2) to be fixedly connected with waterproof layer (3) far from the side of dope layer (1), the waterproof layer (3) is far from protective layer (2) Side be fixedly connected with thermal insulation layer (4), the thermal insulation layer (4) is fixedly connected with flame-retardant layer far from the side of waterproof layer (3) (5), the flame-retardant layer (5) is fixedly connected with the first phenolic foam board layer (6), first phenol far from the side of thermal insulation layer (4) Aldehyde foam sheet (6) is fixedly connected with polyurethane foam layer (7), the polyurethane foam far from the side of flame-retardant layer (5) Plastic layer (7) is fixedly connected with the second phenolic foam board layer (8) far from the side of the first phenolic foam board layer (6).

2. a kind of building energy conservation dalle according to claim 1, it is characterised in that: the bottom of the protective layer (2) It is fixedly connected with wearing layer (9), the wearing layer (9) is fixedly connected with polytetrafluoroethylene ethylene layer far from the side of protective layer (2) (10), the polytetrafluoroethylene ethylene layer (10) is fixedly connected with stainless steel steel wire rack-layer (11), institute far from the side of wearing layer (9) It states stainless steel steel wire rack-layer (11) and is fixedly connected with glass layer (12) far from the side of polytetrafluoroethylene ethylene layer (10).

3. a kind of building energy conservation dalle according to claim 1, it is characterised in that: the polyurethane foam layer (7) two sides pass through adhesive for the first phenolic foam board layer (6) and the second phenolic foam board layer (8) close to polyurethane foam The side of plastic layer (7) connects, and the first phenolic foam board layer (6) is identical with the thickness of the second phenolic foam board layer (8).

4. a kind of building energy conservation dalle according to claim 2, it is characterised in that: the stainless steel steel wire rack-layer (11) two sides pass through adhesive polytetrafluoroethylene ethylene layer (10) and glass layer (12) close to stainless steel steel wire rack-layer (11) side connection, the thickness of the glass layer (12) are greater than the thickness of polytetrafluoroethylene ethylene layer (10).

5. a kind of building energy conservation dalle according to claim 1, it is characterised in that: the thickness of the dope layer (1) Be 0. 6 millimeters to 0. 8 millimeters, the protective layer (2) with a thickness of four millimeters to six millimeters.