CN218721801U - Distributed cooperative consumption-reducing energy electric heating module and system - Google Patents

Abstract

The utility model relates to a distributing type is consumption reduction energy electric heat module in coordination, electric plate including a plurality of composite installations, electric plate includes backplate, loading board, the fine heat insulating board of glass, graphite electric heat membrane and the metal cover plate that sets gradually from bottom to top, generates heat through graphite electric heat membrane for indoor comfortable temperature that provides, and rate of heating is fast, the temperature rise is even, the body is felt comfortablely, and simple to operate is swift, safe energy-conserving pollution-free. The utility model discloses still relate to a distributing type is consumption reduction energy electric heating system in coordination, including electric heat module, temperature controller, integrated control terminal, backstage management module, cell-phone end and remote controller, can accurately judge whether someone activity or furniture are placed in electric heat module place region, decide electric heat module operating power according to this, let have furniture to place regional module and realize the low-power consumption operation, or all electric heat modules all convert the low-power consumption operation when the nobody activity in room longer time, realize energy saving and consumption reduction.

Description

Distributed cooperative consumption-reducing energy electric heating module and system

Technical Field

The utility model belongs to the technical field of heating equipment, concretely relates to distributing type is consumption reduction energy electric heat module and system in coordination.

Background

In the places such as families and offices, when the indoor temperature is low in winter, a heating device is needed for heating, a plurality of heating devices are provided, and the traditional heating devices comprise an air conditioner, an electric heater, a floor heating device and the like. The air conditioner and the electric heater occupy relatively large space for heating, and the indoor layout design is influenced; floor heating can save space, but is prone to cause indoor dust to fly.

In recent years, novel heating equipment is also developing, and the electrothermal film has higher utilization rate. However, still need be under construction when present electrothermal film uses and install the matching with indoor environment, install inconveniently, the cost is higher, and can not carry out independent heating operation.

The utility model discloses aim at researching and developing a simple to operate, and can realize independent low-power consumption operation's distributed consumption reduction energy in coordination electric heat module and system.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art, and provides a distributed cooperative consumption-reducing energy electric heating module and system, which provide comfortable temperature for the indoor through the heating of the graphite electric heating film, have high heating speed, uniform temperature rise, comfortable body feeling, convenient and fast installation, safety, energy saving and no pollution; meanwhile, whether people move or furniture is placed in the area where the electric heating module is located can be accurately judged, the operation power of the electric heating module is determined accordingly, the module with the furniture placing area can run in a low power consumption mode, or all the electric heating modules can run in a low power consumption mode when no people move in a room for a long time, and energy conservation and consumption reduction are achieved.

The utility model provides a its technical problem realize through following technical scheme:

the utility model provides a distributed is consumption reduction energy electric heat module in coordination which characterized in that: the electric heating plate comprises a plurality of assembled and installed electric heating plates, wherein each electric heating plate comprises a back plate, a bearing plate, a glass fiber thermal insulation plate, a graphite electric heating film and a metal cover plate which are sequentially arranged from bottom to top, the bottoms of the back plate, the bearing plate and the glass fiber thermal insulation plate are connected through butyl adhesive tapes in a bonding mode, the upper end of the glass fiber thermal insulation plate is provided with the graphite electric heating film, a plurality of graphite conducting layers are arranged on the graphite electric heating film at intervals and are adjacent to each other, two sides between every two graphite conducting layers are provided with a conducting silver paste layer, the graphite conducting layers are connected with a circuit box through the conducting silver paste layers, cables are connected onto the circuit box, the end portions of the cables are connected with waterproof joints, the circuit box is arranged at the top end of the glass fiber thermal insulation plate, the circuit box and the cables are bonded through waterproof adhesive tapes, and the metal cover plate is connected onto the tops of the graphite electric heating films through structural adhesives.

And a honeycomb-shaped heat conducting plate is arranged between the graphite electrothermal film and the metal cover plate through adhesive bonding.

And the front and back sides of the graphite electric heating film are provided with the graphite conducting layers, and the power of the graphite conducting wire layers on the front and back sides of the graphite electric heating film is different.

Moreover, installation course information is printed on the back plate, and an identification two-dimensional code is printed on the metal cover plate.

And a waterproof layer is poured in the circuit box.

Moreover, the metal cover plate is an aluminum buckle plate.

The utility model provides a distributed is energy electric heating system that reduces consumption in coordination which characterized in that: the intelligent electric heating system comprises an electric heating module, a temperature controller, a comprehensive control terminal, a background management module, a mobile phone end and a remote controller, wherein the electric heating module, the temperature controller, the comprehensive control terminal, the background management module and the mobile phone end are sequentially connected, and the remote controller is connected with the comprehensive control terminal.

The utility model discloses an advantage and beneficial effect do:

1. the utility model discloses a distributing type is consumption reduction energy electric heat module in coordination generates heat through the graphite electric heat membrane and provides comfortable temperature for indoor, and rate of heating is fast, the temperature rise is even, the body is felt comfortablely, and simple to operate is swift, safe energy-conserving pollution-free.

2. The utility model discloses a distributing type is consumption reduction energy electric heat module in coordination, is provided with cellular heat-conducting plate through the adhesive bonding between graphite electric heat membrane and the metal covering plate, can improve heat utilization ratio with heat conduction to metal covering plate one side of graphite electric heat membrane electric heating production, guarantees indoor rapid heating up.

3. The utility model discloses a distributed consumption reduction energy electric heat module in coordination, graphite electric heat membrane just, reverse side all are provided with the graphite conducting layer, just the graphite wire layer power of graphite electric heat membrane just, reverse side is different, can realize the operation of three fender different power operating modes, according to indoor temperature rise demand, adjusts the operating condition of graphite heating film, and application scope is wide.

4. The utility model discloses a distributed collaborative consumption reduction energy electric heating module, the printing has installation course information on the backplate, the printing has the identification two-dimensional code on the metal cover plate, and accessible identification two-dimensional code discerns a plurality of hot plates during backstage management, and each hot plate of accurate control is convenient for the independent change and the dismouting of each hot plate; the installation tutorial information on the back plate is convenient for a user to install quickly, and meanwhile, the attractive effect is achieved.

5. The utility model discloses a distributing type is consumption reduction energy electric heat module in coordination, it has the waterproof layer to fill in the circuit box, plays water-proof effects, plays the guard action to the circuit box.

6. The utility model discloses a distributing type is consumption reduction energy electric heat module in coordination, metal covering plate are the aluminous gusset plate, and preheating time is short, and the intensification speed is fast.

7. The utility model discloses a distributing type is consumption reduction energy electric heating system in coordination can accurately judge whether someone activity or furniture are placed in electric heat module place region, decides electric heat module operating power according to this, lets have furniture to place regional module and realizes the low-power consumption operation, and all electric heat modules all convert the low-power consumption operation into when perhaps the room unmanned activity of longer time, realize energy saving and consumption reduction.

Drawings

FIG. 1 is a schematic view of the explosion structure of the electric heating plate of the present invention;

FIG. 2 is a schematic structural view of the graphite electrothermal film of the present invention;

FIG. 3 is a schematic view of the back plate structure of the present invention;

FIG. 4 is a schematic view of the connection between the electric heating plate and the keel according to the present invention;

FIG. 5 is a schematic view of the installation of the electric heating plate of the present invention;

FIG. 6 is a schematic diagram of the structure of the distributed cooperative consumption-reducing energy electric heating module of the present invention;

fig. 7 is a schematic diagram of the distributed cooperative consumption-reducing energy electric heating system of the present invention.

Description of the reference numerals

1. A metal cover plate; 2. identifying the two-dimensional code; 3. a honeycomb heat-conducting plate; 4. a graphite electrothermal film; 5. a cable; 6. a glass fiber thermal insulation board; 7. a carrier plate; 8. a back plate; 9. butyl tape; 10. a waterproof joint; 11. a circuit box; 12. a graphite conductive layer; 13. a conductive silver paste layer; 14. a keel; 15. installing course information; 16. a wall surface; 17. An electric hot plate.

Detailed Description

The present invention is further described in detail below with reference to specific examples, which are intended to be illustrative only, not limiting and should not be construed as limiting the scope of the invention.

As shown in fig. 5 to 7, a distributed cooperative consumption-reducing energy electric heating module is innovative in that: the wall-mounted electric heating plate comprises a plurality of combined electric heating plates 17, a plurality of keels 14 are arranged on a wall surface 16 side by side, fixing nails are arranged in the keels, the keels are fixed to the wall surface through the fixing nails, the electric heating plates are vertically arranged in two adjacent keels side by side, and two sides of each electric heating plate are buckled into the keels.

As shown in fig. 1 and 2, the electric heating plate comprises a back plate 8, a bearing plate 7, a glass fiber heat insulation plate 6, a graphite electric heating film 4 and a metal cover plate 1 which are sequentially arranged from bottom to top, wherein the bottoms of the back plate, the bearing plate and the glass fiber heat insulation plate are connected through a butyl adhesive tape 9 in a bonding manner, the upper end of the glass fiber heat insulation plate is provided with the graphite electric heating film, a plurality of graphite conductive layers 12 are arranged on the graphite electric heating film at intervals and are adjacent to each other, conductive silver paste layers 13 are arranged on two sides between the graphite conductive layers, the graphite conductive layers are connected with a circuit box 11 through the conductive silver paste layers, a cable 5 is connected onto the circuit box, the end of the cable is connected with a waterproof joint 10, the circuit box is arranged at the top end of the glass fiber heat insulation plate, the circuit box and the cable are bonded through waterproof adhesive tapes, and the metal cover plate is connected above the graphite electric heating film through structural adhesive.

The utility model discloses an electric plate generates heat through the graphite electric heat membrane and provides comfortable temperature for indoor, and rate of heating is fast, the temperature rise is even, the body is felt comfortablely, and simple to operate is swift, safe energy-conserving pollution-free.

The distributed cooperative consumption-reducing energy electric heating module provided by the utility model has the advantages that the plurality of electric heating plates operate independently, so that the independent low-power operation can be realized, and the energy conservation and consumption reduction can be realized; meanwhile, accurate temperature monitoring can be achieved through distributed independent operation, and troubleshooting is facilitated.

The honeycomb-shaped heat conducting plate 3 is arranged between the graphite electric heating film and the metal cover plate through adhesive bonding, so that heat generated by the graphite electric heating film can be conducted to one side of the metal cover plate, the heat utilization rate is improved, and indoor rapid heating is guaranteed.

The front side and the back side of the graphite electrothermal film are provided with the graphite conducting layers, the power of the graphite conducting wire layers on the front side and the back side of the graphite electrothermal film is different, the operation of three gears under different power working conditions can be realized, the working state of the graphite heating film is adjusted according to the indoor temperature rise requirement, and the application range is wide.

As shown in fig. 3 and 4, installation tutorial information 15 is printed on the back plate, an identification two-dimensional code 2 is printed on the metal cover plate, and during background management, the plurality of heating plates can be identified through the identification two-dimensional code, so that each heating plate is accurately controlled, and the heating plates can be conveniently and independently replaced and disassembled; the installation tutorial information on the back plate is convenient for a user to install quickly, and meanwhile, the attractive effect is achieved.

The waterproof layer is poured in the circuit box, so that the waterproof effect is achieved, and the circuit box is protected.

The metal cover plate is an aluminum buckle plate, the preheating time is short, and the heating rate is high.

As shown in fig. 7, a distributed cooperative consumption-reducing energy electric heating system includes an electric heating module, a temperature controller, a comprehensive control terminal, a background management module, a mobile phone terminal and a remote controller, where the electric heating module, the temperature controller, the comprehensive control terminal, the background management module and the mobile phone terminal are connected in sequence, and the remote controller is connected with the comprehensive control terminal. The temperature controller collects voltage, current and power signals of each electric heating plate in the electric heating module, electric heating module information, area temperature and electric heating plate number information in the electric heating module are jointly transmitted to the comprehensive control terminal, the comprehensive control terminal transmits the electric heating module information and the temperature controller information to the background management module, the background management module transmits energy consumption real-time monitoring data to the mobile phone end, the mobile phone end sets modes, gears and areas and feeds the data back to the background management module, the background management module feeds target temperature back to the comprehensive control terminal, the comprehensive control terminal transmits heating gears and target temperature to the temperature controller, and the temperature controller controls power supply and gears of the electric heating module to heat the target temperature;

the comprehensive control terminal transmits the current region temperature to the remote controller at the same time, the remote controller feeds back the current region operating temperature gear to the comprehensive control terminal by setting, the comprehensive control terminal transmits the heating gear and the target temperature to the temperature controller, and the temperature controller controls the power supply and the gear of the electric heating module to realize the heating of the target temperature.

The utility model discloses a distributed is consumption reduction energy electric heating system in coordination can accurately judge whether someone activity or furniture are placed in electric heat module place region, decides electric heat module operating power according to this, lets have furniture to place regional module and realizes the low-power consumption operation, and all electric heat modules all convert the low-power consumption operation into when perhaps the room unmanned activity of longer time, can carry out regionalization control to electric heat module and adjust, realize dividing regional heat supply, realize energy saving and consumption reduction.

Although the embodiments of the present invention and the accompanying drawings are disclosed for illustrative purposes, those skilled in the art will appreciate that: various substitutions, changes and modifications are possible without departing from the spirit and scope of the present invention and the appended claims, and therefore, the scope of the present invention is not limited to the disclosure of the embodiments and the accompanying drawings.

Claims (7)

1. The utility model provides a distributed is consumption reduction energy electric heat module in coordination which characterized in that: the electric heating plate comprises a plurality of assembled and installed electric heating plates, wherein each electric heating plate comprises a back plate, a bearing plate, a glass fiber heat insulation plate, a graphite electric heating film and a metal cover plate which are sequentially arranged from bottom to top, the bottoms of the back plate, the bearing plate and the glass fiber heat insulation plate are connected through butyl adhesive tape in a bonding mode, the upper end of the glass fiber heat insulation plate is provided with the graphite electric heating film, a plurality of graphite conducting layers are arranged on the graphite electric heating film at intervals and are adjacent, conductive silver paste layers are arranged on two sides between the graphite conducting layers, the graphite conducting layers are connected with a circuit box through the conductive silver paste layers, cables are connected onto the circuit box, the end portions of the cables are connected with waterproof joints, the circuit box is arranged on the top of the glass fiber heat insulation plate, the circuit box and the cables are bonded through waterproof adhesive tapes, and the metal cover plate is connected to the tops of the graphite electric heating films through structural adhesives.

2. The distributed cooperative consumption reduction energy electric heating module according to claim 1, characterized in that: and a honeycomb heat-conducting plate is arranged between the graphite electrothermal film and the metal cover plate through adhesive bonding.

3. The distributed cooperative consumption reduction energy electric heating module according to claim 1, characterized in that: the front and back sides of the graphite electrothermal film are provided with the graphite conducting layers, and the power of the graphite conducting wire layers on the front and back sides of the graphite electrothermal film is different.

4. The distributed cooperative consumption reduction energy electric heating module according to claim 1, characterized in that: installation course information is printed on the back plate, and an identity identification two-dimensional code is printed on the metal cover plate.

5. The distributed cooperative consumption reduction energy electric heating module according to claim 1, characterized in that: and a waterproof layer is poured in the circuit box.

6. The distributed cooperative consumption reduction energy electric heating module according to claim 1, wherein: the metal cover plate is an aluminum buckle plate.

7. An electric heating system of the distributed cooperative consumption-reducing energy electric heating module according to any one of claims 1 to 6, characterized in that: the intelligent electric heating system comprises an electric heating module, a temperature controller, a comprehensive control terminal, a background management module, a mobile phone end and a remote controller, wherein the electric heating module, the temperature controller, the comprehensive control terminal, the background management module and the mobile phone end are sequentially connected, and the remote controller is connected with the comprehensive control terminal.

Images