阅读说明：本技术 一种可加热集成墙板 (Heatable integrated wallboard ) 是由 陈红婷 于 2021-02-05 设计创作，主要内容包括：本发明公开了一种可加热集成墙板,包括安装于结合件内的饰面墙板、保温层、安装于保温层内的发热材料,所述发热材料沿着保温层底部两端位置延伸出无线触点,所述无线触点与位于踢脚线内的无线导电轨接触,位于所述饰面墙板的端面上一侧通过螺装或是粘接方式固定安装有温控器,温控器与所述踢脚线内的无线导电轨连接,所述温控器分别连接空气温感探头与物理温感探头,空气温感探头与温控器集成为一体结构,物理温感探头安装在饰面墙板内层,通过信号线缆与温控器连接。(The invention discloses a heatable integrated wallboard, which comprises a facing wallboard, a heat insulation layer and a heating material, wherein the facing wallboard is arranged in a connector, the heating material is arranged in the heat insulation layer, wireless contacts extend out of the heating material along two ends of the bottom of the heat insulation layer, the wireless contacts are in contact with wireless conductive rails in a skirting line, a temperature controller is fixedly arranged on one side of the end face of the facing wallboard in a screw installation or bonding mode, the temperature controller is connected with the wireless conductive rails in the skirting line, the temperature controller is respectively connected with an air temperature sensing probe and a physical temperature sensing probe, the air temperature sensing probe and the temperature controller are integrated into a whole structure, and the physical temperature sensing probe is arranged on the inner layer of the facing wallboard and is connected with.)

1. A heatable integrated wallboard which characterized in that: comprises a facing wallboard (1) arranged in a binder (3), a heat-insulating layer (2) and a heating material (4) arranged in the heat-insulating layer (2);

the heating material (4) extends out of wireless contacts along two ends of the bottom of the heat-insulating layer (2), and the wireless contacts are in contact with wireless conductive rails (6) in the skirting lines (5);

and a temperature controller (7) is fixedly mounted on one side of the end face of the facing wallboard (1) in a screw installation or bonding mode, and the temperature controller (7) is connected with a wireless conductive rail (6) in the skirting line (5).

2. A heatable wallboard according to claim 1 wherein: temperature controller (7) are connected air temperature respectively and are felt probe and physics temperature and feel probe, and air temperature feels probe and temperature controller (7) structure as an organic whole that is integrated into one piece, and physics temperature feels the probe and installs at veneer wallboard (1) inlayer, is connected with temperature controller (7) through the signal cable.

3. A heatable wallboard according to claim 1 wherein: the heat-insulating layer (2) is made of heat-insulating materials into a rectangular structure with the same size as the facing wallboard (1);

the facing wallboard (1) is butted with the heat-insulating layer (2) and is combined together through a combining piece (3);

the heat insulation material adopts an XPS extruded sheet or a foam heat insulation board.

4. A heatable wallboard according to claim 1 wherein: the heat-insulating layer (2) and the facing wallboard (1) opposite face are fixed with grooves in which heating materials (4) are embedded and installed, and the heating materials (4) are sealed in the grooves through high-temperature-resistant insulating glue.

Step surfaces matched with the skirting lines (5) are fixedly arranged at the bottoms of the facing wallboard (1) and the heat insulation layer (2);

and a groove is fixedly formed on the opposite surface of the heat-insulating layer (2) and the facing wallboard (1), and a heating material (4) is arranged in the groove.

5. A heatable wallboard according to claim 4 wherein: the heating material (4) adopts a carbon fiber heating wire, and the heating material (4) adopts a U-shaped or annular shape to be fixed in a groove of the U-shaped or annular shape formed on the heat preservation layer (2).

6. A heatable wallboard according to claim 4 wherein: the heating material (4) is a graphene heating film, and the graphene heating film is fixed in a rectangular groove formed in the heat-insulating layer (2) in a rectangular sheet shape;

and the graphene heating films are arranged at intervals and are positioned at the bottom of the graphene heating film to extend out of the wireless contact.

7. A heatable wallboard according to claim 1 wherein: the upper and lower boundaries of the binder (3) are fixedly provided with a plurality of symmetrical T-shaped grooves.

8. A heatable wallboard according to claim 1 wherein: the other structure form of the combining piece (3) is that an L-shaped hook is fixed at the upper and lower boundaries of the combining piece (3) in a screw installation or spot welding mode.

9. A heatable wallboard according to claim 1 wherein: the wireless conductive rail (6) is fixed in a groove of the skirting line (5) in a bonding mode, the wireless conductive rail (6) is divided into three tracks, and insulating layers are fixed between the adjacent tracks and at the adjacent boundary of the tracks and the skirting line (5).

10. A heatable wallboard according to claim 6 wherein: the other structural form of the graphene heating film is that the graphene heating film is fixed on a fixing plate provided with parallel rectangular through grooves, and the fixing plate is embedded in a rectangular groove which is formed in the heat insulation layer (2) and matched with the fixing plate;

a wireless contact extends from the bottom of each parallel graphene heating film, and the graphene heating films are connected in parallel and connected with a wireless conductive rail (6) in the skirting line (5);

skirting line (5) are the rectangle frame form, and lie in skirting line (5) center and open the holding tank that has the rectangle, the holding tank with the cooperation is inlayed to the step face of veneer wallboard (1), heat preservation (2) lock, and the cooperation mode of step face and skirting line (5) is interference fit.

Technical Field

The invention relates to the technical field of integrated wallboards, in particular to a heatable integrated wallboard.

Background

With the progress of heating technology and the rapid development of fabricated buildings, the traditional heating mode of heating radiators is gradually replaced by electric heating due to factors such as large pollution, large installation work amount, high later maintenance complexity and the like. At present, various heating wallboards are on the market, but the heating wallboards on the market all need T type cable and 1 to drag N joint cable to carry out the wiring at present, and the on-the-spot wiring engineering volume is big and need specific electrical engineer, has improved the installation cost, influences the engineering progress. And because the wallboard space is little, the cable has alternately overlapping phenomenon, has buried the potential safety hazard for the engineering.

In order to solve the problems, the applicant develops the wireless power supply heatable integrated wallboard through long-term engineering practice, power supply work is completed through contact of the wireless power supply track and the heating wallboard contact, cable connection is not needed in a construction site, engineering construction progress is improved, and potential safety hazard problems caused by cable aging adhesion and the like are avoided.

Disclosure of Invention

The invention aims to provide a heatable integrated wallboard to solve the problems in the background technology.

The purpose of the invention is realized by the following technical scheme: a heatable integrated wallboard comprises a facing wallboard arranged in a binder, a heat-insulating layer and a heating material arranged in the heat-insulating layer;

the heating material extends out of wireless contacts along the two ends of the bottom of the heat insulation layer, and the wireless contacts are in contact with wireless conductive rails positioned in the skirting lines;

and a temperature controller is fixedly arranged on one side of the end face of the facing wallboard in a screw installation or bonding mode and is connected with a wireless conductive rail in the skirting line.

Further, the temperature controller is connected air temperature respectively and is felt probe and physics temperature and feel the probe, and air temperature feels the probe and is integrated as an organic whole structure with the temperature controller, and physics temperature feels the probe and installs at veneer wallboard inlayer, is connected with the temperature controller through the signal cable.

Furthermore, the heat-insulating layer is made into a rectangular structure with the same size as the facing wallboard by adopting a heat-insulating material;

the facing wallboard is butted with the heat-insulating layer and is combined together through a connector;

the heat insulation material adopts an XPS extruded sheet or a foam heat insulation board.

And furthermore, a heating material is embedded in a groove which is fixedly formed in the opposite surface of the heat-insulating layer and the facing wallboard, and the heating material is sealed in the groove through high-temperature-resistant insulating glue.

Step surfaces matched with the skirting lines are fixedly arranged at the bottoms of the facing wallboard and the heat insulation layer;

a groove is fixedly formed in the opposite surface of the heat-insulating layer and the facing wallboard, and heating materials are arranged in the groove;

furthermore, the heating material adopts a carbon fiber heating wire, and the heating material adopts a U-shaped or annular shape to be fixed in a U-shaped or annular groove formed in the heat-insulating layer.

Furthermore, the heating material is a graphene heating film, and the graphene heating film is fixed in parallel rectangular grooves formed in the heat-insulating layer in a rectangular sheet shape;

and the graphene heating films are arranged at intervals and are positioned at the bottom of the graphene heating film to extend out of the wireless contact.

Furthermore, a plurality of symmetrical T-shaped grooves are fixedly arranged at the upper and lower boundaries of the combining piece.

Furthermore, another structural form of the combination part is that an L-shaped hook is fixed at the upper and lower boundaries of the combination part in a screw installation or spot welding mode.

Furthermore, the wireless conductive rail is fixed in the groove of the skirting line in a bonding mode and is divided into three tracks, and insulating layers are fixed between the adjacent tracks and at the adjacent boundaries of the tracks and the skirting line.

Furthermore, the graphene heating film is fixed on a fixing plate provided with parallel rectangular through grooves, and the fixing plate is embedded in a rectangular groove which is formed in the heat insulation layer and matched with the fixing plate;

a wireless contact extends from the bottom of each parallel graphene heating film, and the graphene heating films are connected in parallel and connected with a wireless conductive rail in the skirting line;

the skirting line is rectangular frame form, and is located the skirting line center and opens the holding tank that has the rectangle, the holding tank with the cooperation is inlayed to the step face of veneer wallboard, heat preservation lock, and the cooperation mode of step face and skirting line is interference fit.

Compared with the prior art, the invention has the beneficial effects that: the heatable integrated wallboard changes the installation scheme of building heating, adopts a wireless electricity taking mode, does not need on-site wiring, really realizes quick assembly type installation, namely safety and instant heating, and reduces the on-site construction amount and the engineering hidden danger caused by manual wiring. In the later maintenance process, do not need to prize off skirting line disconnection cable wiring yet, save time cost.

Drawings

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

FIG. 2 is an overall side view of the present invention;

FIG. 3 is a top view of the skirting line of the present invention;

FIG. 4 is a side view of the skirting line of the present invention;

FIG. 5 is a schematic view of a fastener strip securing groove of the present invention;

FIG. 6 is a schematic structural diagram of a heat-generating material according to the present invention;

FIG. 7 is a schematic view showing the connection of the heating material, the wireless conductive rail and the temperature controller;

FIG. 8 is a schematic view of a first state of the insulation of the present invention;

FIG. 9 is a schematic view of the connection of the fixing plate and the graphene heating film;

FIG. 10 is a schematic view of the insulation layer of the present invention in a first state.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

As shown in fig. 1-10, a heatable integrated wall panel comprises a facing wall panel 1 installed in a binder 3, an insulating layer 2, and a heating material 4 installed in the insulating layer 2;

the heating material 4 extends out of wireless contacts along two ends of the bottom of the heat-insulating layer 2, and the wireless contacts are in contact with wireless conductive rails 6 in the skirting lines 5;

and a temperature controller 7 is fixedly arranged on one side of the end surface of the facing wallboard 1 in a screw installation or bonding mode, and the temperature controller 7 is connected with a wireless conductive rail 6 in the skirting line 5.

Temperature controller 7 connects air temperature sensing probe and physics temperature sensing probe respectively, and air temperature sensing probe and 7 integrated structures of temperature controller, physics temperature sensing probe are installed at 1 inlayer of veneer wallboard, are connected with temperature controller 7 through the signal cable.

The temperature controller adopts any one of BHT-6000(86 × 86) wifi edition or BHT-6000(86 × 86) common edition.

The veneer wallboard comprises but is not limited to one of a bamboo-wood fiber board, a rock board and a glass fiber board, the heating material comprises but is not limited to one of a heating wire and a heating film, and the heat insulation layer comprises but is not limited to one of an extruded sheet and a foam board.

When the material that generates heat is for the line that generates heat, insulation material passes through the fluting mode, in embedding insulation material with the line that generates heat, then laminate veneer wallboard and insulation material each other, it is fixed through the aluminum alloy frame, constitute a wallboard that generates heat, the trompil of aluminum alloy frame, can integrate into the wall system of hanging, the fluting of wallboard bottom generates heat, make it just can insert in the wireless conductor rail and can not drop, and the wireless contact of the material below that generates heat just can contact with the wireless conductor rail in the skirting line, reach the wireless electricity function of getting.

When the material that generates heat is the heating film, veneer wallboard, heating film, insulation material hug closely in proper order, and it is fixed through the aluminum alloy frame, constitute a wallboard that generates heat, and the wall system can be fused into to the trompil of aluminum alloy frame, and the wallboard bottom fluting that generates heat for it just can insert in the wireless conductor rail and can not drop, and the wireless contact of the material below that generates heat just can with the wireless conductor rail contact in the skirting line, reaches the wireless electricity function of getting.

The AC 220V/50HZ AC is connected into the temperature controller 7, the temperature controller 7 is connected with the wireless conductive rail 6 in series through a cable, and the heating material in the heat-insulating layer 2 is connected with the wireless conductive rail 6 in parallel through the inserting sheet. The temperature controller 7 is respectively connected with an air temperature sensing probe and a physical temperature sensing probe, the air temperature sensing probe and the temperature controller are integrated into a whole structure, and data signals are transmitted to the temperature controller 7 by sensing the air temperature to complete the connection and disconnection actions of a circuit and realize temperature control; the inlayer at veneer wallboard 1 is installed to the physics temperature sensing probe, and through signal cable and 7 electric connection of temperature controller, the physics temperature sensing probe is through perception heating wallboard self temperature, with data transmission to temperature controller, when the wallboard heating temperature that generates heat is higher than the setting value, the open circuit connection.

In order to ensure that the wall panel can better keep warm and warm in a use state, the invention further adopts a preferable embodiment that the heat-insulating layer 2 is made of heat-insulating materials into a rectangular structure with the same size as the facing wall panel 1;

the facing wallboard 1 is butted with the heat-insulating layer 2 and is combined together through a combining piece 3;

the heat insulation material adopts an XPS extruded sheet or a foam heat insulation board.

In order to ensure that the heat-insulating layer 2 can more stably and properly contain the heating materials during installation and achieve concealment, the further preferable embodiment of the invention is that the heating materials 4 are embedded in grooves fixedly formed in the opposite surfaces of the heat-insulating layer 2 and the facing wallboard 1, and the heating materials 4 are sealed in the grooves through high-temperature-resistant insulating glue.

Step surfaces matched with the skirting lines 5 are fixedly arranged at the bottoms of the facing wallboard 1 and the heat preservation layer 2;

and a groove is fixedly formed on the opposite surface of the heat-insulating layer 2 and the facing wallboard 1, and a heating material 4 is arranged in the groove.

In order to effectively fix the heating material 4 in a use state, ensure that the material of the heating material 4 can exert the optimal working state when in use, and effectively control the arrangement of the heating material 4, a further preferred embodiment of the invention is that the heating material 4 adopts a carbon fiber heating wire, and the heating material 4 adopts a U-shaped or annular shape and is fixed in a U-shaped or annular groove formed on the heat insulation layer 2.

In order to ensure that the optimal material is selected from the heating material, different materials and different mounting structures are adopted to realize the maximum value of heat supply of the heating material, the further preferable embodiment of the invention is that the heating material 4 adopts a graphene heating film, and the graphene heating film is fixed in parallel rectangular grooves formed in the heat-insulating layer 2 in a rectangular sheet shape;

and the graphene heating films are arranged at intervals and are positioned at the bottom of the graphene heating film to extend out of the wireless contact.

In order to ensure that the wall board can be effectively butted and fixed when being installed, the invention further preferably adopts the embodiment that a plurality of symmetrical T-shaped grooves are fixedly arranged at the upper and lower boundaries of the combining piece 3.

In order to ensure that the wall board can be effectively butted and fixed by different schemes according to different construction site environments when being installed, the invention further preferably adopts the structure that the connecting piece 3 is fixed with an L-shaped hook in a screw installation or spot welding mode at the upper and lower boundaries of the connecting piece 3.

In order to realize seamless connection and beautiful appearance in a use state, ensure smooth electric arc in use and have no contact point of a dead angle, the invention further preferably adopts the embodiment that the wireless conductive rail 6 is fixed in the groove of the skirting line 5 in a bonding mode, the wireless conductive rail 6 is divided into three tracks, and insulating layers are fixed between the adjacent tracks and at the adjacent boundaries of the tracks and the skirting line 5.

In order to ensure that the heat-insulating layer can be effectively replaced in a using state of the wall board or can be conveniently and quickly installed and fixed in the using state of the wall board, and effectively isolate the current short circuit phenomenon between adjacent graphene heating films, the invention further has the preferable embodiment that the other structural form of the graphene heating film is that the graphene heating film is fixed on a fixing plate provided with parallel rectangular through grooves, and the fixing plate is embedded in a rectangular groove which is formed in the heat-insulating layer 2 and matched with the fixing plate;

the bottom of each parallel graphene heating film extends to form a wireless contact, and the graphene heating films are connected in parallel and connected with a wireless conductive rail 6 in the skirting line 5.

In order to ensure the integral firm insertion of the wall board in a use state, a further preferable embodiment of the invention is that the skirting line 5 is rectangular frame-shaped, a rectangular accommodating groove is formed in the center of the skirting line 5, the accommodating groove is in embedded fit with a step surface buckled with the facing wall board 1 and the heat insulation layer 2, and the step surface is in interference fit with the skirting line 5.

In another structure state of the heat insulation layer, as shown in fig. 9-10 of the specification, the graphene heating film is integrally fixed in advance by a fixing plate which can be fixed and detached, and then the fixing plate is fixed in the rectangular groove of the heat insulation layer as shown in fig. 10.

Adopt parallel mode during the wallboard construction to be fixed in the skirting line, constitute the wall that provides the heating through a plurality of wallboards, the skirting line is direct to be connected with power port lead-out wire and switches on for heating material passes through corresponding electric energy.

In order to embody the best wallboard combination mode and the best performance of functions, the invention further preferably adopts the scheme that the decorative wallboard is made of a rock plate, the heating material is a carbon fiber heating wire, the heat insulation material is an XPS extruded plate with the thickness of 5mm, a groove with the width of 3-5mm and the depth of 3-5mm is carved on the XPS extruded plate through laser carving, the carbon fiber wire is embedded into the groove and sealed by high-temperature-resistant insulating glue.

Under the XPS extruded sheet, two ends of the carbon fiber wire extend out and are connected with the wireless contact, and the wireless contact is of a structure (rectangular block shape) which is fixedly welded with the heating material in a sheet shape.

Grooves with the thickness of 1-4mm are formed below the rock plate and the XPS extruded sheet, so that the construction, installation and use are convenient.

During construction, the rock plate and the XPS extruded sheet are tightly attached, the extruded sheet is placed into the skirting line through a groove with the thickness of 1-4mm below the extruded sheet for fixation, the wireless contact just contacts with a wireless conductive rail inside the skirting line to form a closed loop path, and after the power is on, the heating wallboard can heat and supply heat.

The temperature controller is installed on the wall board in a concealed mode, and when the temperature of the wall board exceeds the preset temperature of the temperature controller, the circuit stops working.

In order to embody the best wallboard combination mode and the best performance of functions, the invention further preferably adopts the scheme that the veneer wallboard is made of a bamboo-wood fiber board, the heating material is made of a graphene heating film, the heat insulation material is made of a foam heat insulation board with the thickness of 5-8mm, a groove with the depth of 2-4mm is carved on the foam heat insulation board through laser carving, the graphene heating film is embedded into the groove, and the groove is sealed by high-temperature-resistant insulating glue. And two electrodes of the graphene heating film extend out of the lower part of the foam heat-insulation plate and are connected with a wireless contact.

Grooves with the thickness of 1-4mm are formed below the bamboo-wood fiber board and the foam insulation board, so that the bamboo-wood fiber board and the foam insulation board are convenient to construct, install and use.

During construction, the bamboo-wood fiberboard and the foam heat insulation board are tightly attached to each other and are placed into the skirting line through the groove with the thickness of 1-5mm below for fixation, the wireless contact just contacts with the wireless conductive rail inside the skirting line to form a closed-loop path, and after the power is turned on, the heating wallboard can heat and supply heat.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.