CN202544214U - Far infrared heat energy building module arranged on wall body - Google Patents

Abstract

The utility model relates to a far-infrared thermal energy building module installed on a wall, wherein the building module includes a protective layer, a heating layer, a thermal insulation layer, a reflection layer and a connecting line, and the protective layer, the heating layer, the thermal insulation layer and the The reflective layers are stacked sequentially and glued and pressed to form a building module, and the connecting wires are located on one short side of the heating layer. The utility model adopts the far-infrared heat energy building module installed on the wall, completely abandons the special heating equipment, greatly reduces the investment in building decoration; and does not occupy any building space, and achieves "invisible heating", which greatly facilitates customers according to their own requirements. Willing to carry out house decoration; the far-infrared thermal energy building module installed on the wall of the utility model is easy to install, low in follow-up maintenance cost, low in heat loss, and fast in temperature rise. It is environmentally friendly and energy-saving, economical and affordable. The first choice for heating in offices and other places.

Description

Far-infrared thermal energy building module installed on the wall

technical field

The utility model relates to a far-infrared heat building module, in particular to a far-infrared heat building module installed on a wall. the

technical background

At present, the building materials commonly used in construction in the market do not have special heat insulation and heating functions. People must install building insulation materials and heating equipment during the building manufacturing or installation process. However, these insulation materials and heating equipment are costly and expensive. The design is cumbersome and wasteful. At the same time, in the northern conventional heating area, my country has developed from central heating to household heating. Therefore, there is an urgent need in this field to provide a new type of heating module that is installed on the wall and replaces the traditional radiator, which is easy to install, affordable, energy-saving and environment-friendly. the

Utility model content

The main purpose of this utility model is to provide a far-infrared thermal energy building module installed on the wall for the above existing problems and limitations. The new far-infrared thermal energy building module installed on the wall can be installed on the wall when the house is decorated. It is easy and quick to install, warm and comfortable, energy-saving and environmentally friendly, and can be widely used in building heating. the

In order to achieve the above-mentioned purpose, the far-infrared heat energy building module installed on the wall of the utility model is realized in the following ways:

A far-infrared thermal energy building module installed on a wall, wherein the building module includes a protective layer, a heating layer, a thermal insulation layer, a reflective layer and a connecting line, and the protective layer, the heating layer, the thermal insulation layer and the reflective layer are sequentially stacked Put and paste the pressed composite building module, and the connecting wire is located on the short side of one side of the heating layer.

The above-mentioned far-infrared heat building module installed on the wall, wherein the thickness of the building module is 20-30mm, the length of the building module is 600-1500mm, and the width of the building module is 300-1200mm. the

The above-mentioned far-infrared thermal energy building module installed on the wall, wherein, the length of each layer of the protective layer, thermal insulation layer and reflective layer is the same, and the width of each layer is the same, and the length of the heating layer is shorter than that of the protective layer and the thermal insulation layer. and the lengths of each layer of the reflective layer, the width of the heat generating layer is smaller than the width of each layer of the protective layer, thermal insulation layer and emission layer. the

The above-mentioned far-infrared heat building module installed on the wall, wherein, the protective layer is a concrete module or a glass magnesium board; the thickness of the protective layer is 5-10 mm. the

The above-mentioned far-infrared thermal energy building module installed on the wall, wherein, the heating layer adopts a low-temperature composite electric heating material sheet, and the low-temperature composite electric heating material sheet is made of far-infrared carbon fiber low-temperature conductive heating paper, and the low-temperature composite electric heating material The resistance of the sheet is 150 to 1000Ω. the

The above-mentioned far-infrared heat building module installed on the wall, wherein, the insulation layer is made of extruded polystyrene foam board, insulation sheet cotton board or polyurethane foam insulation board. the

In the above-mentioned far-infrared heat energy building module installed on the wall, the reflective layer is an aluminum foil reflective film, and the aluminum foil reflective film is pasted on the bottom surface of the thermal insulation layer. the

The above-mentioned far-infrared thermal building module installed on the wall, wherein, the protective layer, heating layer, thermal insulation layer and reflective layer are pasted with modified urea-formaldehyde resin glue or phenolic resin glue. the

In the above-mentioned far-infrared thermal energy building module installed on the wall, there are two connecting wires, the connecting wires are connected to the main power line in the building, and the building modules are connected in parallel with each other. the

The above-mentioned far-infrared thermal building module installed on the wall also includes a thermostat connected to the main power line in the building to control the temperature in the entire building. the

Compared with the prior art, the far-infrared thermal energy building module installed on the wall of the utility model has the following advantages and positive effects due to the adoption of the above scheme: 

1. Far-infrared rays are very beneficial to the human body. Its principle and function have been confirmed by many applications. When this product is installed, it is connected to a 220V civilian power supply, and the heating in winter will achieve a completely different effect.

2. Completely abandon special heating equipment, which greatly reduces the investment in building decoration; and does not occupy any building space, achieving "invisible heating", which greatly facilitates customers to carry out house decoration according to their own wishes. the

3. Reduce the installation and maintenance cost of heating equipment, and the life of the product is basically the same as that of the building. Within 20-30 minutes after the building module is turned on, the house reaches the set temperature below 25°C, which is convenient and fast, and it can be used immediately. The low temperature can be set or turned off in unoccupied rooms to reduce energy consumption. And the use of high-efficiency energy-saving and environmentally friendly materials and insulation materials greatly reduces the actual cost of heating, and there is no radiation pollution or gas pollution. the

4. The installation position of the far-infrared thermal building module installed on the wall is below 1500mm of the wall to meet the basic principles of thermodynamics. The other parts of the wall are filled with ordinary building modules of the same material and thickness. the

Hereinafter, specific examples will be used for further description, but the examples are only examples of optional implementations of the present utility model, and the disclosed features are only used to illustrate and illustrate the technical solutions of the present utility model, and are not intended to limit Protection scope of the present utility model. the

Description of drawings

Fig. 1 is the structural diagram of the far-infrared heat energy building module that the utility model is installed in body of wall;

Fig. 2 is a structural diagram of the heating layer in the far-infrared thermal energy building module of the utility model installed on the wall.

Detailed ways

According to the claims of the utility model and the disclosed content of the utility model content, the technical solution of the utility model is specifically as follows. the

Please refer to Fig. 1 and shown in Fig. 2, a kind of far-infrared thermal energy building module installed on the body of wall, this building module comprises protective layer 1, heating layer 2, insulation layer 3, reflecting layer 4 and connection wire 5, described The protective layer 1, the heating layer 2, the insulating layer 3 and the reflective layer 4 are sequentially stacked and pasted to form a building module, and the connecting wire 5 is located on one short side of the heating layer 2. The thickness of the building module is 20-30mm, the length of the building module is 600-1500mm, and the width of the building module is 300-1200mm. the

The protective layer 1, thermal insulation layer 3 and reflective layer 4 of the building module have the same length and the same width of each layer, and the length of the heating layer 2 is less than the length of each layer of the protective layer 1, thermal insulation layer 3 and reflective layer 4 , the width of the heating layer 2 is smaller than the width of each layer of the protective layer 1, the heat preservation layer 3 and the emission layer 4. The protective layer 1 is a concrete module or a glass magnesium board; the thickness of the protective layer 1 is 5-10 mm. The heating layer 2 adopts a low-temperature composite electrothermal material sheet made of far-infrared carbon fiber low-temperature conductive heating paper, and the resistance of the low-temperature composite electrothermal material sheet is 150-1000Ω. The insulation layer 3 adopts extruded polystyrene foam board, insulation page cotton board or polyurethane foam insulation board. The reflective layer 4 is an aluminum foil reflective film, and the aluminum foil reflective film is pasted on the bottom surface of the thermal insulation layer 3 . the

The protective layer 1, the heating layer 2, the thermal insulation layer 3 and the reflective layer 4 of the building module are pasted with modified urea-formaldehyde resin glue or phenolic resin glue. Apply the modified urea-formaldehyde resin glue or phenolic resin glue evenly on the front of the insulation layer 3, cover the heating layer 2, then spread the resin glue evenly on the front of the heating layer 2, and cover the protective layer 1 for pressing. the

There are two connecting wires 5 in the building modules, the connecting wires 5 are connected to the main power lines in the building, and the building modules are connected in parallel. At the same time, the building module also includes a thermostat, which is connected to the main power line in the building to control the temperature in the entire building. the

The utility model adopts the far-infrared heat energy building module installed on the wall, completely abandons the special heating equipment, greatly reduces the investment in building decoration; and does not occupy any building space, and achieves "invisible heating", which greatly facilitates customers according to their own requirements. Willing to carry out house decoration; the installation position of the far-infrared thermal building modules installed on the wall is below 1500mm of the wall to meet the basic principles of thermodynamics, and the other parts of the wall are filled with ordinary building modules of the same material and thickness. The far-infrared heat energy building module installed on the wall by the utility model is easy to install, has low follow-up maintenance cost, low heat loss, and fast temperature rise, which is environmentally friendly and energy-saving, economical and affordable. It is the best choice for modern home life, office places, etc. Heating preferred. the

The above content is an enumeration of the specific embodiments of the far-infrared thermal energy building module installed on the wall of the utility model. For the equipment and structures not described in detail, it should be understood that it is implemented by adopting the existing general equipment and general methods in the art . the

Claims (10)

1. far infrared heat energy building block that is installed on body of wall; It is characterized in that; This building block comprises topping (1), heating layer (2), insulation layer (3), reflecting layer (4) and connecting line (5); Described topping (1), heating layer (2), insulation layer (3) and reflecting layer (4) stack successively and paste and are pressed into building block, and connecting line (5) is positioned on the side minor face of heating layer (2).

2. the far infrared heat energy building block that is installed on body of wall as claimed in claim 1 is characterized in that the thickness of said building block is 20～30mm, and the length of said building block is 600～1500mm, and the width of said building block is 300～1200mm.

3. the far infrared heat energy building block that is installed on body of wall as claimed in claim 1; It is characterized in that; Said topping (1), insulation layer (3) are identical with the length of each layer of reflecting layer (4); The width of each layer is identical, and the length of described heating layer (2) is less than topping (1), insulation layer (3) and reflecting layer (4) each layer length, and the width of described heating layer (2) is less than topping (1), insulation layer (3) and emission layer (4) each layer width.

4. the far infrared heat energy building block that is installed on body of wall as claimed in claim 1 is characterized in that, said topping (1) is concrete modular or glass magnesium plate; The thickness of said topping (1) is 5～10mm.

5. the far infrared heat energy building block that is installed on body of wall as claimed in claim 1; It is characterized in that; Said heating layer (2) adopts low temperature composite electric hating material sheet; This low temperature composite electric hating material sheet is processed by far infrared carbon fiber low-temperature conductive heating paper, and the resistance of described low temperature composite electric hating material sheet is 150～1000 Ω.

6. the far infrared heat energy building block that is installed on body of wall as claimed in claim 1 is characterized in that, said insulation layer (3) adopts extruded polystyrene cystosepiment, the insulation cotton plate of page or leaf or polyurethane foam warming plate.

7. like claims 1 described far infrared heat energy building block that is installed on body of wall, it is characterized in that said reflecting layer (4) are the aluminium foil transmitting film, the aluminium foil reflectance coating is pasted the bottom surface in said insulation layer (3).

8. the far infrared heat energy building block that is installed on body of wall as claimed in claim 1 is characterized in that, employing modified urea-formaldehyde resin glue or phenolic resin glue between described topping (1), heating layer (2), insulation layer (3) and reflecting layer (4) are pasted.

9. the far infrared heat energy building block that is installed on body of wall as claimed in claim 1 is characterized in that described connecting line (5) is two, and described connecting line (5) is connected connection parallel with one another between the described building block with the interior power supply main line of building.

10. the far infrared heat energy building block that is installed on body of wall as claimed in claim 9 is characterized in that, also comprises temperature controller, and this temperature controller is connected on the power supply main line in the building, realizes temperature controlling in the whole building.

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