CN212178989U - Graphite alkene heating module and integration heating device - Google Patents

Abstract

The utility model discloses a graphene heating module, which comprises an upper heating film body and a lower EPP foam board; 4 butt plugs are arranged on the EPP foam board, the 4 butt plugs are connected with the heating film body through metal conducting strips, and the heating film body can be heated after the power supply is switched on; this graphite alkene heating module can be practical alone also can splice into integrated heating device by a plurality of modules and use after, can realize seamless concatenation, improves the installation effectiveness, if partial module inefficacy still can the local change, easy maintenance, this product standardized design, application range is more extensive, the dependable performance.

Description

Graphite alkene heating module and integration heating device

Technical Field

The utility model relates to a heating, electrical heating field, concretely relates to graphite alkene heating module and integration heating device.

Background

At present, an indoor heating mode mainly uses an air conditioner for heating in winter in south, and uses centralized heating to supply heat indoors through water as a medium in north, for example, heating sheets are independently placed at corners of walls, or a water heating pipe is installed below floors for supplying heat. The air conditioner has low heating efficiency and large power consumption; the central heating is mainly based on coal burning, has high maintenance cost, causes pollution to the environment and is a social problem.

Graphite alkene heating installation is a novel heating installation, environmental protection and energy saving, and the thermal efficiency is high. But current graphite alkene heating installation is a monoblock structure, and when local failure damaged, it is more troublesome to better maintain.

SUMMERY OF THE UTILITY MODEL

Problem to prior art existence, the utility model provides a graphite alkene heating module and integration heating device can use after can the practicality alone also can splice into integration heating device by a plurality of modules, can realize seamless concatenation, improves the installation effectiveness, if partial module inefficacy still can local change, easy maintenance, this product standardized design, application range is more extensive, the dependable performance.

The technical scheme of the utility model is that: a graphene heating module comprises an upper heating film body and a lower EPP foam board; 4 butt plugs are arranged on the EPP foam board, the 4 butt plugs are connected with the heating film body through metal conducting strips, and the heating film body can be heated after the power supply is switched on;

the 4 butting plugs are respectively a first positive butting plug, a second positive butting plug, a first negative butting plug and a second negative butting plug; the first positive electrode butt plug and the second negative electrode butt plug are arranged on the left side face of the EPP foam board, and the second positive electrode butt plug and the second negative electrode butt plug are arranged on the right side face of the EPP foam board.

Furthermore, EPP cystosepiment is square structure, and first anodal docking plug on the left surface and the second negative pole docking plug on the right flank are located first water flat line, and first negative pole docking plug on the left surface and the second anodal docking plug on the right flank are located the second water flat line, first water flat line and second water flat line are parallel.

Further, the heating film body is divided into three layers from top to bottom, namely a uniform heating layer, a graphene coating heating film and a reflecting layer. The utility model discloses a body, including graphite alkene coating heating film, reflection layer, soaking layer, graphite alkene coating heating film, reflection layer, the graphite alkene coating heating film is through circular telegram production of heat, and to the outside, the heat that graphite alkene coating heating film dispersed downwards reflects the heat to the body upper surface through the reflection stratum, makes the body disperse the heat and concentrates on the body upper surface, is absorbed the heat and makes heat homodisperse at the body upper surface by the soaking layer again.

Further, the surface of the EPP foam board is coated with a layer of waterproof paint.

Further, the heating film body and the EPP foam board are bonded through glue.

Furthermore, EPP cystosepiment is provided with the side opening in setting up the butt joint plug position, and the butt joint plug is installed in the side opening, and the length of side opening is greater than the width of butt joint plug.

The utility model also provides an integrated heating device, which comprises a plurality of graphene heating modules, wherein adjacent graphene heating modules are butted through a first anode butt joint plug and a first cathode butt joint plug, and a second anode butt joint plug and a second cathode butt joint plug are butted and connected into a whole; and the outer side butt plugs of the two graphene heating modules on the outermost layer are connected with a power supply.

The utility model has the advantages that: the utility model provides a graphite alkene heating module and integration heating device, can use after can the practicality alone also can splice into integration heating device by a plurality of modules, can realize seamless concatenation, improve the installation effectiveness, if partial module inefficacy still can the local change, easy maintenance, this product standardized design, application range is more extensive, the dependable performance.

The heating film body is divided into three layers, and is formed by even heat layer, graphite alkene coating heating film, reflection stratum, and graphite alkene coating heating film is through circular telegram production of heat, and to the outside is dispersed, and the heat that graphite alkene coating heating film was dispersed downwards passes through the reflection stratum and reflects the heat to the body upper surface, makes the body disperse the heat and concentrates on the body upper surface, is absorbed the heat and makes the heat homodisperse at the body upper surface by the soaking layer again.

Drawings

Fig. 1 is a cross-sectional view of a graphene heating module;

fig. 2 is a top view of a graphene heating module;

FIG. 3 is an exploded view of the heating film body;

fig. 4 is an exploded view of a graphene heating module.

In the figure: 1 is the butt plug, 2 is the metal conducting strip, 3 is EPP cystosepiment, 4 is the heating film body, 5 is the soaking layer, 6 is graphite alkene coating heating film, 7 is the reflection stratum.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, 2 and 4, a graphene heating module includes an upper heating film body 4 and a lower EPP foam board 3. The EPP foam board 3 is provided with 4 butt plugs 1, and the installation mode is as follows: EPP cystosepiment 3 is provided with the side opening in setting up 1 positions of docking plug, and docking plug 1 installs in the side opening in, and the length of side opening is greater than docking plug 1's width.

4 docking plugs 1 are connected with the heating film body 4 through the metal conducting strips 2, and the heating film body 4 can be heated after the power supply is switched on. As shown in fig. 3, the heating film body 4 is divided into three layers from top to bottom, which are a soaking layer 5, a graphene-coated heating film 6 and a reflecting layer 7. Graphite alkene coating heating film produces the heat through the circular telegram, and to the outside dispersing, the heat that graphite alkene coating heating film dispersed downwards passes through the reflector layer and reflects the heat to the body upper surface, makes the body disperse the heat and concentrates on the body upper surface, is absorbed the heat and makes heat homodisperse at the body upper surface by the soaking layer again.

The 4 butt plugs 1 are respectively a first positive butt plug, a second positive butt plug, a first negative butt plug and a second negative butt plug. EPP cystosepiment 3 is square structure, and first positive pole dock plug and second negative pole dock plug set up on EPP cystosepiment 3's left surface, and second positive pole dock plug and second negative pole dock plug set up on EPP cystosepiment 3's right flank. First positive pole dock plug on the left surface and the second negative pole dock plug on the right flank are located first horizontal line, and first negative pole dock plug on the left surface and the second positive pole dock plug on the right flank are located the second horizontal line, and first water flat line and second water flat line are parallel. Accessible plug connection power also can connect between the module and form integrated heating device, and integrated heating device includes a plurality of graphite alkene heating modules, and through the butt joint of first anodal dock plug and first negative pole dock plug between the adjacent graphite alkene heating module to and the butt joint of second anodal dock plug and second negative pole dock plug is as an organic whole. And the outer side butt plugs of the two graphene heating modules on the outermost layer are connected with a power supply. Realize seamless concatenation, improve the installation effectiveness, if partial module inefficacy still can the local change, easy maintenance, this product standardized design, application range is more extensive, the dependable performance.

Preferably, the surface of the EPP foam board 3 is coated with a layer of waterproof paint. The heating film body 4 and the EPP foam board 3 are bonded by glue.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a graphite alkene heating module which characterized in that: comprises an upper heating film body (4) and a lower EPP foam board (3); 4 butt plugs (1) are arranged on the EPP foam board (3), the 4 butt plugs (1) are connected with the heating film body (4) through metal conducting strips (2), and the heating film body (4) can be heated after the power supply is switched on;

the 4 butt-joint plugs (1) are respectively a first positive butt-joint plug, a second positive butt-joint plug, a first negative butt-joint plug and a second negative butt-joint plug; the first positive electrode butt plug and the second negative electrode butt plug are arranged on the left side face of the EPP foam board (3), and the second positive electrode butt plug and the second negative electrode butt plug are arranged on the right side face of the EPP foam board (3).

2. The graphene heating module according to claim 1, wherein: EPP cystosepiment (3) are square structure, and first anodal butt joint plug on the left surface and the second negative pole butt joint plug on the right flank are located first horizontal line, and first negative pole butt joint plug on the left surface and the second anodal butt joint plug on the right flank are located the second horizontal line, first water flat line and second water flat line are parallel.

3. The graphene heating module according to claim 1, wherein: the heating film body (4) is divided into three layers from top to bottom, namely a soaking layer (5), a graphene coating heating film (6) and a reflecting layer (7).

4. The graphene heating module according to claim 1, wherein: the surface of the EPP foam board (3) is coated with a layer of waterproof paint.

5. The graphene heating module according to claim 1, wherein: the heating film body (4) and the EPP foam board (3) are bonded through glue.

6. The graphene heating module according to claim 1, wherein: EPP cystosepiment (3) are provided with the side opening in setting up docking plug (1) position, and docking plug (1) are installed in the side opening, and the length of side opening is greater than docking plug (1)'s width.

7. Integration heating plant, its characterized in that: the heating system comprises a plurality of graphene heating modules according to any one of claims 1 to 6, wherein adjacent graphene heating modules are butted through a first positive electrode butting plug and a first negative electrode butting plug, and a second positive electrode butting plug and a second negative electrode butting plug are integrally butted; and the outer side butt plugs of the two graphene heating modules on the outermost layer are connected with a power supply.

Images