CN218668265U - Wall warming gypsum composite board - Google Patents

Abstract

The utility model discloses a warm gypsum compoboard of wall, including two gypsum boards and the graphite alkene piece that generates heat of setting between two gypsum boards, the front of two gypsum boards forms the storage cavity, and the notes material hole has all been seted up to the side of two gypsum boards, and two gypsum boards generate heat the piece centre gripping with graphite alkene between its the two, and graphite alkene side that generates heat the piece is provided with the connection piece. The utility model discloses an inside heat conduction packing foam that is provided with of gypsum board, generate heat the piece with graphite alkene and the rough surface of gypsum board is isolated, make its and heat conduction packing foam contact to reduce because the stereoplasm surface of gypsum board generates heat the piece to graphite alkene and causes the damage, and lead to graphite alkene to generate heat the possibility of piece short circuit after absorbing water, thereby reduce the fault rate that the warm combination gypsum board of wall was used, make the result of use of the warm combination gypsum board of wall better, the application quality is higher.

Description

Wall warming gypsum composite board

Technical Field

The utility model relates to a wall body technical field that generates heat, concretely relates to warm gypsum compoboard of wall.

Background

With the progress of science and technology, people get warm more and more in winter, from heating to air conditioning, to the wall heating which is more and more popular at present. In recent years, graphene also begins to be applied to wall heating preparation due to the characteristic of strong thermal conductivity. Meanwhile, the gypsum board has excellent light heat insulation and sound absorption performances, and the gypsum board and the graphene heating sheet are combined to complete the preparation of gypsum board wall heating, so that the gypsum board wall heating is applied to practice.

However, since the surface of the graphene heat conducting sheet is fragile, even if scratches occur on the surface, the function of the graphene heat generating sheet may be lost, and even a safety accident may occur. And the surface of gypsum board is generally comparatively crude, then directly the centre gripping of piece that generates heat with graphite alkene leads to graphite alkene to generate heat the piece surface impaired very easily between the gypsum board, lacerate it by the gypsum board surface to increase the fault rate after the assembly is used (and the maintenance is difficult after the assembly), in addition, because the gypsum board hydroscopicity is very strong, when the humidity returns at humid weather family, the gypsum board that absorbs water can lead to graphite alkene to generate heat the piece and open circuit, causes the safety risk (the maintenance is also difficult equally).

Therefore, the failure rate of the combined technology of the graphene heating sheet and the gypsum board in the prior art is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a warm gypsum compoboard of wall to solve prior art, because the graphite alkene among the prior art generates heat the higher technical problem of fault rate of the combined technology of piece and gypsum board.

In order to solve the above technical problem, the utility model particularly provides the following technical scheme:

a wall heating gypsum composite board comprises two gypsum boards and a graphene heating sheet arranged between the two gypsum boards, wherein the front surfaces of the two gypsum boards are inwards recessed to form a storage cavity with an opening, material injection holes communicated with the storage cavity are formed in the side surfaces of the two gypsum boards, and the graphene heating sheet is clamped between the two gypsum boards in a mode that the storage cavity is opposite to each other;

a connecting sheet is arranged on the side edge of the graphene heating sheet and is connected with the edge of the material storage cavity so as to integrally fix the graphene heating sheet at the opening of the material storage cavity;

the gypsum board through follow annotate the material hole to it will be located two to inject heat conduction packing foam in the storage cavity between the gypsum board the graphite alkene generates heat the piece and carries out the centre gripping fixed.

As a preferred scheme, the connection piece includes U-shaped film and vertical bar film, the one end setting of vertical bar film is in the protruding end of U-shaped film, and with U-shaped film integrated into one piece forms a whole, the U-shaped film centre gripping is bonded on the positive and negative two sides of graphite alkene piece that generates heat, the vertical bar film is used for connecting respectively two for the double-sided film on the relative two sides of gypsum board.

As an optimal scheme of the utility model, one of them be provided with the insulating layer on the surface of gypsum board, the insulating layer be used for with the gypsum board with the installation the wall body of gypsum board separates.

As a preferable aspect of the present invention, a decorative panel pattern is provided on the outer surface of the other gypsum board.

As an optimized scheme, two the gypsum board is close to set up grafting auto-lock subassembly, two in the one side of storage cavity the gypsum board passes through grafting auto-lock subassembly carries out fastening connection.

Compared with the prior art, the utility model following beneficial effect has:

the utility model discloses an inside heat conduction packing foam that is provided with of gypsum board, generate heat the piece with graphite alkene and the rough surface of gypsum board is isolated, make its and heat conduction packing foam contact to reduce because the stereoplasm surface of gypsum board generates heat the piece to graphite alkene and causes the damage, and lead to graphite alkene to generate heat the possibility of piece short circuit after absorbing water, thereby reduce the fault rate that the warm combination gypsum board of wall was used, make the result of use of the warm combination gypsum board of wall better, the application quality is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

FIG. 1 is an exploded view of the overall structure of the present invention;

fig. 2 is an enlarged view of the connecting piece of fig. 1 according to the present invention.

The reference numerals in the drawings denote the following, respectively:

1. a gypsum board; 2. a graphene heating sheet; 3. a material storage cavity; 4. a material injection hole; 5. connecting sheets; 6. thermally conductive filled foam; 7. a thermal insulation layer; 8. inserting and connecting a self-locking assembly; 9. a temperature control system.

51. A U-shaped film; 52. graphite alkene piece that generates heat.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses change the structure of current warm gypsum compoboard of wall, as shown in FIG. 1, be provided with storage cavity 3 between two gypsum boards to fill heat conduction and fill the foam, set up graphite alkene piece 2 that generates heat into direct and heat conduction and fill foam 6 contacts, and not with 1 contact of gypsum board.

Specifically, as shown in fig. 1 to 2, the utility model provides a warm gypsum compoboard of wall, including two gypsum boards 1 and the graphite alkene piece 2 that generates heat of setting between two gypsum boards 1, the front of two gypsum boards 1 all inwards caves in and forms and has open-ended storage cavity 3, and the notes material hole 4 with 3 intercommunications of storage cavity is all seted up to the side of two gypsum boards 1, and two gypsum boards 1 generate heat with graphite alkene 2 centre grippings between the two with the relative form of storage cavity 3.

The side of graphite alkene piece 2 that generates heat is provided with connection piece 5, and connection piece 5 is through the edge connection with storage cavity 3 that generates heat with graphite alkene 2 monolithic stationary sets up the opening part at storage cavity 3.

The graphite alkene piece 2 that generates heat that gypsum board 1 will be located between two blocks of gypsum boards 1 carries out the centre gripping fixedly through injecting heat conduction filling foam 6 into from annotating material hole 4 to storage cavity 3.

In the prior art, the surface of the gypsum board 1 after production is often rough and has fine residues even after the deburring process. The graphene heating sheet 2 is thin, and a thin protective film is not arranged or arranged on the surface of the graphene heating sheet. Consequently, if directly with 1 surface contact of graphite alkene piece 2 that generates heat with the gypsum board, graphite alkene piece 2 that generates heat's surface is scratched by the burr friction easily, even do not scratched and only be kept out the gravure, under long-time the use, graphite alkene piece 2 that generates heat also can damage for the fault rate of compoboard risees.

Therefore, this device is through heating sheet 2 with graphite alkene setting between gypsum board 1, nevertheless makes graphite alkene generate heat 2 main parts not with 1 surface contact of gypsum board, but through pouring into heat conduction and fill foam 6, makes graphite alkene generate heat sheet 2 and heat conduction and fill foam 6 contact, and this kind of mode of setting not only can make the graphite alkene generate heat that sheet 2 can be stable install between two gypsum boards 1, but also can avoid receiving the friction of gypsum board 1 to make graphite alkene generate heat that sheet 2 receives the damage rate and reduce.

Moreover, since the gypsum board 1 has good water absorption, when the house returns to the tide in the rainy season, if the graphene heating sheet 2 directly contacts the gypsum board 1, the graphene heating sheet 2 may be broken to cause device damage or even fire risk. Therefore, the heat conducting filling foam 6 injected inside can also play a role in insulation, so that the heat conducting filling foam and the heat conducting filling foam are isolated, and the risk can be effectively prevented.

In addition, heating sheet 2 with graphite alkene is connected with external temperature control system 9, and the control graphite alkene that comes the flexibility through the electric operation heats that sheet 2 sent, can play better heating effect. The graphene heating sheet 2 and the temperature control system 9 can be connected through a wire harness. The wiring harness can be arranged in the material injection hole 4, extends to the outside through the material injection hole 4 and is connected with the temperature control system 9, and then the heat conduction filling foam 6 to be injected fixes the wiring harness. In addition, another hole can be formed in the side surface of the gypsum board 1 for passing a wiring harness alone.

And when in actual use, can form a complete set and use the choke plug for after heat conduction filling foam 6 pours into, block up annotating material hole 4, prevent that heat conduction filling foam 6 from spilling over.

In this device, the rare piece 2 that generates heat of graphite sets up the opening part at storage cavity 3, and graphite alkene generates heat piece 2 and does not set up inside storage cavity 3 promptly, mainly sets up between the face of 1 laminating mutually of two gypsum boards, supports fixedly by the heat conduction filler material 6 of follow-up injection. Therefore, the surface area of graphite alkene piece 2 that generates heat need not be greater than the 3 open-ended surface areas of storage cavity, and graphite alkene generates heat piece 2 not with 1 contacts of gypsum board promptly, but through connecting piece 5 and 1 contacts of gypsum board to avoid graphite alkene to generate heat piece 2 in the at utmost and receive the friction of burr and damage.

In the manufacturing process, the heat conductive filler 6 is provided on the gypsum board 1 after the graphene heat generating sheet 2 is attached to the two gypsum boards 1. And the injection of the thermally conductive filling material 6 into the storage cavity 3 can be performed using a double-ended injection tube. Two injection heads insert simultaneously on two notes material hole 4 of two gypsum boards 1 promptly, later annotate the material to 3 inside storage cavities, and this kind of mode can guarantee the packing homogeneity of the inside heat conduction filler material 6 of two storage cavities 3 for the fixed effect of centre gripping of graphite alkene piece 2 that generates heat is better.

For the connecting sheet 5, the connecting sheet 5 comprises a U-shaped rubber sheet 51 and a straight rubber sheet 52, one end of the straight rubber sheet 52 is arranged at the protruding end of the U-shaped rubber sheet 51 and integrally formed with the U-shaped rubber sheet 51 to form a whole, the U-shaped rubber sheet 51 is clamped and bonded on the front and back surfaces of the graphene heating sheet 2, and the straight rubber sheet 52 is a double-sided rubber sheet and is used for being respectively connected on the two opposite surfaces of the two gypsum boards 1.

The U-shaped film 51 and the straight strip film 52 are respectively used for connecting the graphene heating sheet and the gypsum board 1, so that the graphene heating sheet 2 is connected to the gypsum board 1. And moreover, the device has the function of easy disassembly and assembly through the connection mode of bonding the films and the subsequent connection mode of connecting the two gypsum boards 1 through the inserting self-locking assembly 8. When graphite alkene generates heat piece 2 or changes gypsum board 1 when needs are changed, through quick dismantlement gypsum board 1 and tear connection piece 5, the change of realization device that just can be quick makes the device use more convenient.

An insulating layer 7 is arranged on the outer surface of one of the gypsum boards 1, and the insulating layer 7 is used for separating the gypsum board 1 from a wall body on which the gypsum board 1 is installed. When installing this device and going on using on the wall body, this device that generates heat for a long time can have the harm to paint, the putty of current wall, so be provided with insulating layer 7 on the surface of one of them gypsum board 1.

In addition, the decorative panel pattern is arranged on the outer surface of the other gypsum board 1, the added device is humanized in use, the need of independent decoration after the device is installed is avoided, and decoration steps are simplified.

Two gypsum boards 1 set up grafting auto-lock subassembly 8 on being close to the one side of storage cavity 3, and two gypsum boards 1 carry out fastening connection through grafting auto-lock subassembly 8.

All set up grafting auto-lock subassembly 8 that is used for interconnect on gypsum board 1 and the insulating layer 7. The complicated steps in installation are avoided, the device is quickly and conveniently assembled, and the working efficiency is improved.

The plugging self-locking assembly 8 is a mature technology in the prior art, and the main purpose of the plugging self-locking assembly is to fixedly connect two gypsum boards 1. As shown in fig. 1, a bolt and a jack are respectively arranged on two gypsum boards 1, and the connection of the two gypsum boards 1 is completed through the connection of the bolt and the jack. The bolt can be limited and fixed by using the traditional mortise and tenon technology or a clamping assembly pushed by a spring.

And after the connection of the plug pin and the jack, the edges of the two gypsum boards can be connected by the connecting sealant, so that the firmness and tightness of the connection are improved.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (5)

1. A wall warming gypsum composite board is characterized in that,

the gypsum plasterboard comprises two gypsum boards (1) and a graphene heating sheet (2) arranged between the two gypsum boards (1), wherein the front surfaces of the two gypsum boards (1) are inwards recessed to form a storage cavity (3) with an opening, the side surfaces of the two gypsum boards (1) are respectively provided with a material injection hole (4) communicated with the storage cavity (3), and the graphene heating sheet (2) is clamped between the two gypsum boards (1) in a manner that the storage cavity (3) is opposite to each other;

a connecting sheet (5) is arranged on the side edge of the graphene heating sheet (2), and the connecting sheet (5) is connected with the edge of the material storage cavity (3) so as to integrally fix the graphene heating sheet (2) at the opening of the material storage cavity (3);

gypsum board (1) through follow annotate material hole (4) to it will be located two to inject heat conduction filling foam (6) in storage cavity (3) graphene heating plate (2) carry out the centre gripping fixed between gypsum board (1).

2. The wall warming gypsum composite board according to claim 1, wherein the connecting sheet (5) comprises a U-shaped film (51) and a straight film (52), one end of the straight film (52) is arranged at the protruding end of the U-shaped film (51) and is integrally formed with the U-shaped film (51) to form a whole, the U-shaped film (51) is clamped and bonded on the front and back surfaces of the graphene heating sheet (2), and the straight film (52) is a double-sided film and is used for being respectively connected on the two opposite surfaces of the gypsum boards (1).

3. A warm-wall gypsum composite board according to claim 1, wherein a heat insulating layer (7) is provided on the outer surface of one of the gypsum boards (1), said heat insulating layer (7) being used to separate the gypsum board (1) from the wall body on which the gypsum board (1) is installed.

4. A wall heating gypsum composite board according to claim 1, wherein a decorative panel pattern is provided on the outer surface of the other gypsum board (1).

5. A wall heating gypsum composite board according to claim 1, wherein an inserting self-locking component (8) is arranged on one surface of the two gypsum boards (1) close to the storage cavity (3), and the two gypsum boards (1) are fastened and connected through the inserting self-locking component (8).

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