CN220058397U - Graphite polyphenyl board external wall heat preservation node - Google Patents

Abstract

The utility model provides a graphite polyphenyl board external wall heat insulation node, which relates to the field of heat insulation nodes, and comprises a heat insulation assembly and an air conditioning board assembly, wherein the heat insulation assembly comprises a wall body, a connecting layer, a graphite polyphenyl heat insulation board, an external protection layer and a bracket, and a butt joint groove and a limit groove are formed by arranging the wall body, the connecting layer, the graphite polyphenyl heat insulation board, a limiting block, the external protection layer and the bracket, and the butt joint groove and the limit groove are formed in the process of solving the problem.

Description

Graphite polyphenyl board external wall heat preservation node

Technical Field

The utility model relates to the field of heat preservation nodes, in particular to a graphite polystyrene board external wall heat preservation node.

Background

The graphite polystyrene thermal insulation board is a novel rigid environment-friendly energy-saving foam plastic board which is formed by injecting a catalyst into graphite polystyrene resin and polymer while heating and mixing, and extruding to form continuous closed-cell foam.

At present, in the construction of thermostatic chamber, graphite polyphenyl heated board can be used in many times, and graphite polyphenyl heated board has the specification to set up in production, consequently in the construction of thermostatic chamber, need splice polylith graphite polyphenyl heated board, and then need use the heat preservation node framework in concatenation department, the heat preservation node structure that often uses is in the same place adjacent two blocks of graphite polyphenyl heated board simple butt joint, then fix on the wall body, the alignment when inconvenient installation, and a plurality of heated board weight accumulation from bottom to top are heavier together for high-rise building, cause the heated board to drop easily, and the heated board of individual layer design has reduced the heat preservation effect of thermostatic chamber.

Disclosure of Invention

In order to overcome the defects of the prior art, the embodiment of the utility model provides a graphite polyphenyl board external wall heat insulation node, which can solve the problems that a plurality of frequently used heat insulation node structures are formed by simply butting two adjacent graphite polyphenyl heat insulation boards together, then fixing the two adjacent graphite polyphenyl heat insulation boards on a wall body, and the two adjacent graphite polyphenyl heat insulation boards are not convenient to install and aligned, and a plurality of heat insulation boards from bottom to top for a high-rise building are heavier in weight accumulation, so that the heat insulation boards are easy to fall off, and the heat insulation effect of a constant-temperature chamber is reduced by the heat insulation boards in a single-layer design.

The technical scheme adopted by the embodiment of the utility model for solving the technical problems is as follows:

a graphite polyphenyl board external wall heat insulation node comprises a heat insulation assembly and an air conditioning board assembly.

The heat preservation assembly comprises a wall body, a connecting layer, a graphite polyphenyl heat preservation plate, an outer protection layer and a bracket, wherein the connecting layer is arranged on the outer side of the wall body, the graphite polyphenyl heat preservation plate is arranged on one side of the connecting layer, a butt joint groove is formed in the end part of the graphite polyphenyl heat preservation plate, a limit groove is formed in the inner wall of the butt joint groove, a limit block is arranged in the other butt joint groove, the limit block is matched with the limit groove, the outer protection layer is arranged on the outer side of the graphite polyphenyl heat preservation plate, and the bracket is fixedly connected to the wall body and is positioned at the bottom of the graphite polyphenyl heat preservation plate;

the air conditioner board assembly comprises a cantilever board, an insulating layer and a drain pipe, wherein one end of the cantilever board is fixedly connected to the wall body, the insulating layer is arranged on the surface of the cantilever board, and the drain pipe is communicated with the bottom of the cantilever board.

In a specific embodiment, the connecting layer comprises a mortar leveling layer and a mortar bonding layer, the mortar leveling layer is arranged on one side of the wall body, the mortar bonding layer is arranged on one side of the mortar leveling layer, and the graphite polyphenyl insulation board is connected to the mortar bonding layer.

In a specific embodiment, the outer protective layer comprises a plastering mortar layer and a decorative layer, wherein the plastering mortar layer is arranged on the outer side of the graphite polyphenyl insulation board, and the decorative layer is arranged on the outer side of the plastering mortar layer.

In a specific embodiment, a grid cloth layer is provided in the plastering mortar layer.

In a specific embodiment, the insulation assembly further comprises a bridge cutoff universal anchor, which penetrates the connection layer and the graphite polyphenyl insulation board and is inserted into the wall.

In a specific embodiment, the cantilever plate is L-shaped, and the cantilever plate and the wall are integrally formed.

In a specific embodiment, a rock wool fire barrier is disposed between the overhanging board and the graphite polyphenyl insulation board.

In a specific embodiment, a slope finding layer is arranged in the cantilever plate, and the slope finding layer is inclined towards the drain pipe.

The embodiment of the utility model has the advantages that:

1. through setting up wall body, the articulamentum, graphite polyphenyl heated board, the stopper, outer protective layer and bracket, and offer butt joint groove and spacing groove, can solve that the insulation node structure that often uses is many is in the same place adjacent two blocks of graphite polyphenyl heated board simple butt joint, then fix to the wall body on, it is aligned when inconvenient installation, and a plurality of heated boards weight accumulation from bottom to top for the high-rise building are heavier together, cause the heated board to drop easily, and the heated board of individual layer design has reduced the heat preservation effect of thermostatic chamber, problem solving process, butt joint groove through the butt joint groove of another graphite polyphenyl heated board tip of a graphite polyphenyl heated board one end, the spacing groove is advanced in the butt joint of rethread stopper, thereby the installation butt joint has been made things convenient for greatly, simultaneously two-layer staggered heated board heat preservation effect is good, and the bracket sets up in the heated board below, a row of bracket is arranged to every other floor distance, can share the heat preservation weight, the off-load makes it more firm.

2. Through setting up board, heat preservation and drain pipe encorbelment, the board of encorbelmenting is directly connected to the wall body on, not only firm in connection, and reduced the destruction to graphite polyphenyl heated board, easy to assemble air conditioner just avoids ponding.

Drawings

Fig. 1 is a schematic diagram of a thermal insulation joint structure of an external wall of a graphite polystyrene board according to an embodiment of the present utility model;

fig. 2 is a schematic diagram of a connection layer structure according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a graphite polyphenyl insulation board structure provided by an embodiment of the utility model;

fig. 4 is a schematic structural diagram of a bracket according to an embodiment of the present utility model;

fig. 5 is a schematic structural diagram of an air conditioning panel assembly according to an embodiment of the present utility model.

In the figure: 100-heat preservation components; 110-wall body; 120-a connection layer; 121-a mortar leveling layer; 122-a mortar bonding layer; 130-graphite polyphenyl insulation board; 131-a butt joint groove; 132-limit grooves; 133-limiting blocks; 140-an outer protective layer; 141-a plastering mortar layer; 142-a decorative layer; 150-a bridge-cut-off universal anchor bolt; 160-rock wool fireproof isolation belts; 170-a bracket; 200-an air conditioning panel assembly; 210-cantilever plates; 211-finding a slope layer; 220-an insulating layer; 230-drain pipe.

Detailed Description

According to the embodiment of the utility model, by providing the graphite polyphenyl board external wall heat insulation node, the problem that a plurality of frequently used heat insulation node structures are formed by simply splicing two adjacent single-layer graphite polyphenyl heat insulation boards together, and the joint connection between the two adjacent graphite polyphenyl heat insulation boards is not tight enough and is inconvenient to align when being installed is solved, so that the gap at the joint is larger, and the heat insulation effect of a constant temperature chamber is reduced due to the design of the single-layer graphite polyphenyl heat insulation boards, the overall thought is as follows:

referring to fig. 1-5, a graphite polystyrene board external wall insulation node comprises an insulation assembly 100 and an air conditioning board assembly 200.

Referring to fig. 1, 2, 3 and 4, the heat insulation assembly 100 includes a wall 110, a connection layer 120, a graphite polyphenyl heat insulation board 130, an outer protection layer 140 and a bracket 170, wherein the connection layer 120 is disposed on the outer side of the wall 110, the graphite polyphenyl heat insulation board 130 is disposed on one side of the connection layer 120, a butt joint groove 131 is formed at the end of the graphite polyphenyl heat insulation board 130, a limit groove 132 is formed in the inner wall of one butt joint groove 131, a limit block 133 is disposed in the other butt joint groove 131, the limit block 133 is matched with the limit groove 132, the outer protection layer 140 is disposed on the outer side of the graphite polyphenyl heat insulation board 130, and the bracket 170 is fixedly connected to the wall 110 and is disposed at the bottom of the graphite polyphenyl heat insulation board 130.

It should be noted that, the brackets 170 are arranged at intervals at the upper and lower heights of every several floors, the bottom of the graphite polyphenyl insulation board 130 is pressed on the brackets 170, and the brackets 170 bear the superposed weight of the graphite polyphenyl insulation boards 130, so that the installation of the graphite polyphenyl insulation boards 130 can be more firm.

In this embodiment, the connection layer 120 includes a mortar leveling layer 121 and a mortar bonding layer 122, the mortar leveling layer 121 is disposed on one side of the wall 110, the mortar bonding layer 122 is disposed on one side of the mortar leveling layer 121, the graphite polyphenyl thermal insulation board 130 is connected to the mortar bonding layer 122, the mortar leveling layer 121 is used for paving the outside of the wall 110 to be flat, and the mortar bonding layer 122 is used for bonding the graphite polyphenyl thermal insulation board 130.

In this embodiment, the outer protective layer 140 includes a plastering mortar layer 141 and a decoration layer 142, the plastering mortar layer 141 is disposed on the outer side of the graphite polyphenyl thermal insulation board 130, the decoration layer 142 is disposed on the outer side of the plastering mortar layer 141, the plastering mortar layer 141 is used for protecting the graphite polyphenyl thermal insulation board 130, impact abrasion of foreign objects to the graphite polyphenyl thermal insulation board 130 is reduced, and the decoration layer 142 plays a role in decoration and beauty.

In a specific embodiment, the grid cloth layer is arranged in the plastering mortar layer 141, and the grid cloth layer is set by setting the grid cloth layer and the mortar, so that the protection effect of the plastering mortar layer 141 is improved.

In a specific embodiment, insulation assembly 100 further includes a bridge cut-off universal anchor 150, bridge cut-off universal anchor 150 extending through connecting layer 120 and graphite polyphenyl insulation board 130 and inserted into wall 110 for stabilizing and reinforcing positioning graphite polyphenyl insulation board 130 by providing bridge cut-off universal anchor 150, thereby improving the firmness.

Referring to fig. 1 and 5, the air conditioning board assembly 200 includes a cantilever board 210, an insulating layer 220 and a drain pipe 230, wherein one end of the cantilever board 210 is fixedly connected to the wall 110, the insulating layer 220 is disposed on the surface of the cantilever board 210, the drain pipe 230 is communicated with the bottom of the cantilever board 210, the cantilever board 210 is L-shaped, and the cantilever board 210 and the wall 110 are integrally formed.

In a specific embodiment, a rock wool fire barrier 160 is provided between the cantilever plate 210 and the graphite polyphenyl insulation plate 130, and the fire blocking capability is improved by providing the rock wool fire barrier 160.

In a specific embodiment, a slope finding layer 211 is disposed in the cantilever plate 210, and the slope finding layer 211 is inclined toward the drain pipe 230, so that rainwater can be guided to flow out of the drain pipe 230.

When the mortar leveling layer 121 and the mortar bonding layer 122 are paved firstly, one graphite polyphenyl insulation board 130 is bonded on the mortar bonding layer 122, then the butt joint groove 131 at the end part of the other graphite polyphenyl insulation board 130 is used for butt joint of the butt joint groove 131 of the first graphite polyphenyl insulation board 130, meanwhile, the end limiting block 133 of the other graphite polyphenyl insulation board 130 is butt-jointed and clamped into the limiting groove 132 at the end part of the first graphite polyphenyl insulation board 130, so that butt joint alignment installation is greatly facilitated, the installation accuracy is ensured, the connection tightness is improved, the universal anchor bolts 150 are used for fixing, after the first layer is paved, the second layer of graphite polyphenyl insulation board 130 is paved, the universal anchor bolts 150 are used for fixing, the universal anchor bolts 150 on the first layer of graphite polyphenyl insulation board 130 are needed to be staggered, the design of the two layers is more heat-insulating, the cantilever boards 210 formed by synchronous pouring and installation are directly connected to the wall body 110, the connection is firm, the damage to the graphite polyphenyl insulation board 130 is reduced, the bracket 170 is arranged below the graphite polyphenyl insulation board 130, the weight of the graphite polyphenyl insulation board 130 can be borne, every other bracket 170 is arranged at the lowest in the falling-off distance, and the thermal insulation board is matched with the bracket 170 to the lowest risk of falling.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present utility model and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (8)

1. The graphite polyphenyl board external wall heat preservation node is characterized by comprising

The heat preservation assembly comprises a wall body, a connecting layer, a graphite polyphenyl heat preservation plate, an outer protection layer and a bracket, wherein the connecting layer is arranged on the outer side of the wall body, the graphite polyphenyl heat preservation plate is arranged on one side of the connecting layer, a butt joint groove is formed in the end part of the graphite polyphenyl heat preservation plate, a limit groove is formed in the inner wall of the butt joint groove, a limit block is arranged in the other butt joint groove, the limit block is matched with the limit groove, the outer protection layer is arranged on the outer side of the graphite polyphenyl heat preservation plate, and the bracket is fixedly connected to the wall body and is positioned at the bottom of the graphite polyphenyl heat preservation plate;

the air conditioner board assembly comprises a cantilever board, an insulating layer and a drain pipe, wherein one end of the cantilever board is fixedly connected to the wall body, the insulating layer is arranged on the surface of the cantilever board, and the drain pipe is communicated with the bottom of the cantilever board.

2. The graphite polystyrene board external wall insulation node of claim 1, wherein the connection layer comprises a mortar leveling layer and a mortar bonding layer, the mortar leveling layer is arranged on one side of the wall body, the mortar bonding layer is arranged on one side of the mortar leveling layer, and the graphite polystyrene board is connected to the mortar bonding layer.

3. The exterior wall insulation node of claim 1, wherein the outer protective layer comprises a plastering mortar layer and a decorative layer, the plastering mortar layer is arranged on the outer side of the exterior wall insulation node, and the decorative layer is arranged on the outer side of the plastering mortar layer.

4. The graphite polystyrene board external wall insulation node of claim 3, wherein a grid cloth layer is arranged in the plastering mortar layer.

5. The graphite polystyrene board external wall insulation node of claim 1, wherein the insulation assembly further comprises a bridge cutoff universal anchor, the bridge cutoff universal anchor extending through the connection layer and the graphite polystyrene board and being inserted into the wall.

6. The graphite polystyrene board external wall insulation node of claim 1, wherein the cantilever board is L-shaped and the cantilever board and the wall are integrally formed.

7. The graphite polystyrene board external wall insulation node of claim 1, wherein a rock wool fire barrier is provided between the overhanging board and the graphite polystyrene board insulation.

8. The graphite polystyrene board external wall insulation node of claim 1, wherein a slope finding layer is arranged in the cantilever board, and the slope finding layer is inclined towards the drain pipe.