CN210563125U - Compound STP heat preservation aluminium veneer - Google Patents

Abstract

The utility model discloses a composite STP heat-insulating aluminum veneer, which comprises an aluminum veneer frame and a STP vacuum heat-insulating plate; two opposite side edges of the aluminum single-plate frame are open-close plates, and the open-close plates are hinged with the aluminum single-plate frame; the inner wall of the aluminum single-plate frame is provided with a bridge cut-off layer, and the STP vacuum insulation board is arranged in the aluminum single-plate frame and is attached to the bridge cut-off layer. The utility model discloses combine to use aluminium veneer and STP vacuum insulation board, integrated degree is higher, has reduced loaded down with trivial details degree in the work progress, shortened construction cycle, increase work efficiency, reduction wasting of resources. Simultaneously, can dismantle between STP vacuum insulation board and the aluminium veneer frame and be connected, when STP vacuum insulation board appears leaking gas and swells and influence the heat preservation effect, removable being intact heated board. This kind of setting makes the utility model discloses a compound STP heat preservation aluminium veneer suitability is higher.

Description

Compound STP heat preservation aluminium veneer

Technical Field

The utility model relates to a building heat preservation technical field especially relates to a compound STP heat preservation aluminium veneer.

Background

At present, aluminum veneers are used for decorating outer walls in many constructional engineering. The aluminum veneer decorative plate has the advantages of corrosion resistance, rust resistance, light weight, strong durability, difficult breakage and the like. When the aluminum veneer is used for decorating the outer wall, the installation and the heat preservation construction of the aluminum veneer can be completed independently, and the construction procedures are as follows: firstly, keel installation is carried out, then heat preservation construction is carried out, and after the two processes are completed, the aluminum single plate with the thickness of 0.6-2.5 cm is hung on the keel in a dry mode.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem who proposes in the background art, the technical scheme of the utility model as follows:

the utility model relates to a composite STP heat preservation aluminum veneer, which comprises an aluminum veneer frame and a STP vacuum heat preservation plate; two opposite side edges of the aluminum single-plate frame are open-close plates, and the open-close plates are hinged with the aluminum single-plate frame; the inner wall of the aluminum single-plate frame is provided with a bridge cut-off layer, and the STP vacuum insulation board is arranged in the aluminum single-plate frame and is attached to the bridge cut-off layer.

In a preferred embodiment, the material of the bridge-cutoff layer is glass fiber reinforced polyamide.

In a preferred embodiment, the aluminum single plate frame comprises a plurality of mounting corner connectors, wherein the mounting corner connectors are arranged on the periphery of the aluminum single plate frame, and the mounting corner connectors are arranged on two opposite sides and distributed in an asymmetric mode.

In a preferred embodiment, the STP vacuum insulation board comprises a nanometer ultrafine glass fiber core material, a heat insulation coating and a high-barrier composite film; the heat insulation coating is coated on the outer surface of the nano-scale superfine glass fiber core material, and the nano-scale superfine glass fiber core material is arranged in the high-barrier composite film.

In a preferred embodiment, the thermal insulation coating adopts a coating which is an insulating and conducting thermal insulation coating.

The utility model provides a compound STP heat preservation aluminium veneer, compared with the prior art, its beneficial effect is:

the utility model provides a compound STP heat preservation aluminium veneer combines aluminium veneer and STP vacuum insulation board to use, and integrated degree is higher, has reduced the loaded down with trivial details degree in the work progress, shortens construction cycle, increases work efficiency, reduces the wasting of resources. And simultaneously, the utility model provides a can dismantle the connection between STP vacuum insulation board and the aluminium veneer frame, when STP vacuum insulation board appears leaking gas and swells the influence heat preservation effect, removable as intact heated board. This kind of setting makes the utility model discloses a compound STP heat preservation aluminium veneer suitability is higher.

Drawings

FIG. 1 is a schematic structural view of a composite STP heat-insulating aluminum veneer of the present invention;

figure 2 is the utility model discloses well STP vacuum insulation board's structural schematic.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-2, the composite STP thermal insulation aluminum veneer of the present invention comprises an aluminum veneer frame 1 and an STP vacuum thermal insulation plate 2; two opposite side edges of the aluminum single-plate frame 1 are provided with opening plates 3, and the opening plates 3 are hinged with the aluminum single-plate frame 1; the inner wall of the aluminum single-plate frame 1 is provided with a bridge cut-off layer 5, and the STP vacuum insulation board 2 is arranged in the aluminum single-plate frame 1 and is attached to the bridge cut-off layer 5. The aluminum single plate frame 1 may be made of an aluminum plastic plate or an aluminum plate. The material of the bridge cutoff layer is glass fiber reinforced polyamide. Due to the arrangement of the bridge cut-off layer, heat is prevented from being transferred between the STP vacuum heat-insulation board 2 and the aluminum single-plate frame 1, and the heat-insulation effect is guaranteed.

In order to install the composite STP heat-insulating aluminum veneer on the outer wall of a building, a plurality of installation angle braces 4 are arranged, the installation angle braces 4 are arranged on the periphery of the aluminum veneer framework 1, and the installation angle braces 4 are arranged on two opposite sides and distributed in an asymmetric mode. The mutual influence of the installation angle codes 4 of the adjacent composite STP heat-preservation aluminum veneers is avoided. And round rectangular mounting holes are formed in the mounting corner connectors 4, so that the mounting is convenient.

During the use, at first open the open-close plate 3, pack into STP vacuum insulation board 2 in aluminium veneer frame 1, pack into the completion back, ensure that STP vacuum insulation board 2 is located aluminium veneer frame 1 to closely laminate bridge cut-off layer 5, close the open-close plate 3 of both sides. Then will through installation angle sign indicating number 4 the utility model discloses a compound STP heat preservation aluminium veneer is installed on the building outer wall, in the installation, random spot check STP vacuum insulation board 2 in the aluminium veneer after the installation, if discovery STP vacuum insulation board 2 gas leakage is bloated, for avoiding influencing the heat preservation effect, changes it into new STP vacuum insulation board 2, has improved the suitability. In the process of connecting with the building outer wall through the installation corner connector 4, in order to avoid heat transfer, the anchoring piece with the plastic gasket needs to penetrate through the round rectangular installation hole in the installation corner connector 4 to form a broken bridge, so that heat is prevented from being transferred through the aluminum single plate frame 1 and the anchoring piece. Gaps between adjacent composite STP heat-insulating aluminum veneers are filled with silica gel, and bridge-cut processing is also performed before the adjacent aluminum veneers, so that heat transmission is further avoided. The utility model discloses a heat preservation effect is superior to the heat preservation effect of heat preservation board among the prior art.

The utility model provides a figure 2 is seen to STP vacuum insulation board 2's structure. Comprises 2-1 nanometer superfine glass fiber core material, 2-2 heat insulation coating and 2-3 high-barrier composite film; the heat insulation coating 2-2 is coated on the outer surface of the nano-scale superfine glass fiber core material 2-1, and the nano-scale superfine glass fiber core material 2-1 is arranged in the high-barrier composite film 2-3. The heat insulation coating 2-2 adopts an insulation conductive heat insulation coating. The nanometer superfine glass fiber core material used in the utility model is prepared by stirring and mixing superfine glass fiber, coarse glass fiber and proper adhesive, and drying after pressing plates. The utility model discloses the nanometer superfine glass fiber core material that uses in high, microthermal environment has good thermal insulation performance, through the friction between glass fiber and the sound wave, to various noises, the sound wave all has good sound absorbing effect, it is inorganic material, can not burn, it is not rotten, do not produce harmful gas and material, the moisture absorption rate is little, but there is the air permeability, the dampproofing effect has, the stable range of fibre, to pressure elasticity restoring force, the fiber temperature, humidity coefficient of expansion is minimum, the volume of nanometer superfine glass fiber core material tends to stably, chemical stability is good, basically, ageing phenomenon, each item characteristic index uses unchangeably for a long time. The nano-scale superfine glass fiber core material 2-1 is coated with the heat insulation coating 2-2, so that the heat insulation coating has super heat insulation effect.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (5)

1. The composite STP heat-insulating aluminum veneer is characterized by comprising an aluminum veneer frame and an STP vacuum heat-insulating plate; two opposite side edges of the aluminum single-plate frame are open-close plates, and the open-close plates are hinged with the aluminum single-plate frame; the inner wall of the aluminum single-plate frame is provided with a bridge cut-off layer, and the STP vacuum insulation board is arranged in the aluminum single-plate frame and is attached to the bridge cut-off layer.

2. The composite STP heat-insulating aluminum veneer according to claim 1, wherein the material of the bridge cutoff layer is glass fiber reinforced polyamide.

3. The composite STP heat-insulating aluminum veneer according to claim 2, comprising a plurality of mounting corner connectors, wherein the mounting corner connectors are arranged around the aluminum veneer frame, and the mounting corner connectors are arranged on two opposite sides and are distributed asymmetrically.

4. The composite STP heat-insulating aluminum veneer according to any one of claims 1 to 3, wherein the STP vacuum heat-insulating plate comprises a nano-scale superfine glass fiber core material, a heat-insulating coating and a high-barrier composite film; the heat insulation coating is coated on the outer surface of the nano-scale superfine glass fiber core material, and the nano-scale superfine glass fiber core material is arranged in the high-barrier composite film.

5. The composite STP heat-insulating aluminum veneer according to claim 4, wherein the heat-insulating coating is an insulating and conductive heat-insulating coating.

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