CN210772418U

CN210772418U - Heating fresco

Info

Publication number: CN210772418U
Application number: CN201920795055.4U
Authority: CN
Inventors: 斯莉娅; 夏伟强; 彭博
Original assignee: Hangzhou Tianzhi Intelligent Technology Co Ltd
Current assignee: Hangzhou Tianzhi Intelligent Technology Co Ltd
Priority date: 2019-05-29
Filing date: 2019-05-29
Publication date: 2020-06-16
Anticipated expiration: 2029-05-29

Abstract

The utility model relates to a heating mural painting, including base plate, reflectance coating and power module, the base plate include the picture side and with the heating side that the picture side was carried on the back mutually, the heating side is provided with graphite alkene layer, reflectance coating fold set up in graphite alkene layer deviates from one side of base plate, power module with graphite alkene layer electricity is connected and is done graphite alkene layer power supply, graphite alkene layer heating production of heat and radiation far infrared light wave, the reflectance coating is used for reflection of heat and far infrared light wave, makes heat and far infrared light wave radiate to the external world from the picture side. The heating mural painting heats in a far infrared light wave radiation mode, and is energy-saving and environment-friendly, simple in structure and beneficial to popularization.

Description

Heating fresco

Technical Field

The utility model relates to an energy-conserving heating technical field especially relates to heating mural painting.

Background

The wall painting is used as an auxiliary part of a building and has the functions of decoration and beautification, but the wall painting has single function and occupies a large area. Therefore, the heating mural appears in the market, can play a role in heating in cold and humid winter, and improves the practicability of the mural. At present, heating fresco on the market mainly still mainly make the brilliant heating fresco of carbon, graphite alkene heating fresco still can not promote on a large scale. However, the carbon crystal heating fresco adopts convection heating, has poor heating effect and high power consumption and can cause air drying.

SUMMERY OF THE UTILITY MODEL

Therefore, the heating mural is needed to be provided aiming at the problems, the heating mural is heated in a far infrared light wave radiation mode, energy is saved, the environment is protected, the structure is simple, and popularization is facilitated.

The utility model provides a heating mural painting, includes base plate, reflectance coating and power module, the base plate include the picture side and with the heating side that the picture side was carried on the back mutually, the heating side is provided with graphite alkene layer, reflectance coating lamination set up in graphite alkene layer deviates from one side of base plate, power module with graphite alkene layer electricity is connected and is the graphite alkene layer power supply, graphite alkene layer heating production of heat and radiation far infrared light wave, the reflectance coating is used for reflection heat and far infrared light wave, makes heat and far infrared light wave radiate to the external world from the picture side.

In one embodiment, the power supply module includes a conductive layer disposed on a surface of the graphene layer, and the conductive layer is connected to a power supply and supplies power to the graphene layer.

In one embodiment, the power supply module further comprises a terminal, the conductive layer is electrically connected with the terminal, and the terminal penetrates through the reflective film and is installed in a butt joint mode with a power supply.

In one embodiment, the heating mural further comprises a temperature control module, the conductive layer is electrically connected with the temperature control module, and the temperature control module is connected with the power supply and controls the power supply to supply power to the graphene layer.

In one embodiment, the temperature control module is electrically connected with the wiring terminal and controls a power supply to supply power to the graphene layer.

In one embodiment, the temperature control module includes a temperature control switch or a button switch, the conductive layer is electrically connected to the temperature control switch or the button switch, and the temperature control module or the button switch is connected to the power supply.

In one embodiment, the temperature control module includes a temperature control switch and a button switch, and the conductive layer is electrically connected to the temperature control switch, the button switch, and the power supply in sequence, or the conductive layer is electrically connected to the button switch, the temperature control switch, and the power supply in sequence.

In one embodiment, the heating fresco further comprises an outer frame, and the substrate and the reflective film are both partially fixed in the outer frame.

In one embodiment, the heating mural further comprises a heat insulation layer, and the heat insulation layer is arranged on one side, away from the graphene layer, of the reflection film in a laminated mode and used for preventing heat dissipation.

In one embodiment, the heat-insulating layer is partially fixed in the outer frame.

The utility model discloses a heating mural painting mainly adopts far-infrared light wave radiation's mode heating, and noise-free, indoor air are not dry, energy-concerving and environment-protective not only, and the wavelength and the sunlight of the far-infrared light wave of its radiation play are same wave band moreover, and this wave band can produce resonance with the health, and the hydrone in the vibration body has the activation cell, effects such as metabolism with higher speed. And simultaneously, the utility model discloses a heating mural painting simple structure adopts graphite alkene layer surface form to generate heat, and is safer, does benefit to marketing.

Drawings

FIG. 1 is a schematic structural view of a heating fresco of embodiment 1;

FIG. 2 is a schematic illustration of a graphene layer of the heating fresco of example 1;

FIG. 3 is a schematic view of the heating fresco of example 1;

fig. 4 is a schematic structural view of the heating fresco of embodiment 2.

In the figure: 10. a substrate; 20. a picture; 30. a graphene layer; 40. a reflective film; 50. a thermal insulation board; 60. a power supply module; 70. a temperature control module; 80. an outer frame; 601. a wiring terminal; 602. a conductive layer; 701. a temperature control switch; 702. a push button switch.

Detailed Description

The heating fresco provided by the present invention will be further explained with reference to the accompanying drawings.

The utility model provides a heating mural painting in mainly used building, can play the function of decorating and beautifying, can play the effect of heating again, and energy-concerving and environment-protective, do benefit to the popularization.

Example 1:

as shown in fig. 1, the heating mural comprises a substrate 10, a reflective film 40 and a power supply module 60, wherein the substrate 10 includes a picture side and a heating side opposite to the picture side, the heating side is provided with a graphene layer 30, the reflective film 40 is stacked on one side of the graphene layer 30 away from the substrate 10, the power supply module 60 is electrically connected to the graphene layer 30 and supplies power to the graphene layer 30, the graphene layer 30 is heated to generate heat and radiate far infrared light waves, and the reflective film 40 is used for reflecting the heat and the far infrared light waves so that the heat and the far infrared light waves are radiated to the outside from the picture side.

As shown in fig. 2, the power supply module 60 includes a conductive layer 602 disposed on a surface of the graphene layer 30, and the conductive layer 602 is connected to a power supply and supplies power to the graphene layer 30. Thereby, make graphite alkene layer 30 heating production heat and radiation far infrared light wave, the wavelength and the sunlight of this far infrared light wave are same wave band, so, graphite alkene layer 30 heats with the mode that sunshine is the same, not only can not produce noise pollution, can keep indoor air humidity moreover, can not lead to indoor air drying like air conditioner, heating stove, energy-concerving and environment-protective. In addition, the wave band of the far infrared light wave can generate resonance with the body, vibrate water molecules in the body, have the effects of activating cells, accelerating metabolism and the like, and are beneficial to the human body.

Wherein, graphite alkene layer 30 coats on the surface of base plate 10 through graphite alkene thick liquids and forms, so, graphite alkene layer 30 is the face-like generate heat, and the area that generates heat is bigger and safer.

The conductive layer 602 may be a conductive material such as a copper foil current-carrying strip, which has a wide temperature application range and good surface adhesion, and in the figure, the two copper foil current-carrying strips are respectively connected to the positive electrode and the negative electrode of a power supply to form a circuit loop.

In order to further improve the safety of the heating mural, the surfaces of the graphene layer 30 and the conductive layer 602 at the exposed portions may be subjected to an insulation treatment, such as coating with an insulating material such as epoxy glass fiber cloth, on the basis of ensuring that the graphene layer 30 is electrically connected to the conductive layer 602.

Referring to fig. 3 again, in order to facilitate connection with a power supply, the power supply module 60 further includes a connection terminal 601, the conductive layer 602 is electrically connected to the connection terminal 601, and the connection terminal 601 penetrates through the reflective film 40 and is installed in a butt joint manner with the power supply. It can be understood that the power supply module 60 further includes a power socket, and the connection terminal 601 is installed in a butt joint with the power socket, and then connected with a power supply through the power socket and supplies power to the graphene layer 30.

In order to better control the temperature in the building, as shown in fig. 2, the heating fresco further includes a temperature control module 70, the conductive layer 602 is electrically connected to the temperature control module 70, and the temperature control module 70 is connected to the power supply and controls the power supply to supply power to the graphene layer 30.

Of course, when the power supply module 60 has the connection terminal 601, the conductive layer 602 is electrically connected to the temperature control module 70, and the temperature control module 70 is electrically connected to the connection terminal 601 to form a circuit loop, and the graphene layer 30 is powered by a power source controlled by the temperature control module 70.

The temperature control module 70 includes a temperature control switch 701 or a button switch 702, the conductive layer 602 is electrically connected to the temperature control switch 701 or the button switch 702, and the temperature control switch 701 or the button switch 702 is connected to the power supply.

The heating temperature of the graphene layer 30 can be maintained at 80 ℃, so the temperature range of the temperature control switch 701 can be set to 70-100 ℃, the power is automatically cut off when the temperature reaches 100 ℃, the power is turned on again to heat after the temperature is reduced to 70 ℃, the indoor temperature is maintained, and the overheat protection effect is achieved. Of course, temperature detect switch 701 also can set for the break-make of different temperature intervals in order to control the power according to the environment in different regions and different users, not only can promote user's experience and feel, can play overheat protection's effect moreover, and is more intelligent.

Button switch 702 can the manual control break-make of power, cuts off the power at any time and supplies power for graphite alkene layer 30 to, when the user feels that indoor temperature is fit for the body and feels the requirement, perhaps the user leaves indoor or when the short time does not need to heat, and need not cut off the power with the mode of extracting supply socket in the short time, the simple operation.

Therefore, the temperature control module 70 preferably includes a temperature control switch 701 and a button switch 702, and the conductive layer 602 may be electrically connected to the temperature control switch 701, the button switch 702, and the power supply in sequence, or the conductive layer 602 may also be electrically connected to the button switch 702, the temperature control switch 701, and the power supply in sequence, and the connection manner is flexible and variable.

In fig. 1, a screen 20 is provided on a screen side of the substrate 10, and the screen side of the heating fresco is separated from a building such as a wall to show a pattern of the screen 20 when in use. In order to enhance the stereoscopic impression and printing effect of the picture 20, the picture 20 can be printed by using a high-precision 2mm relief UV printing technology, and the picture 20 can be customized according to scenes to show better visual effect.

The material of the substrate 10 of the heating mural is not limited, and a material that is convenient for printing the screen 20 and has an insulating function, such as an epoxy glass cloth, may be preferably used.

In the heating mural, since the graphene layer 30 on the heating side and the screen 20 on the screen side use the same substrate 10, considering that the heating method of the graphene layer 30 is mainly radiation heating, most of heat is radiated to the outside in the form of far infrared light waves, but some heat is still conducted from the heating side to the screen side. Therefore, for better protection of the screen 20, the screen 20 is preferably printed by using a high temperature resistant ink, so as to avoid melting, cracking and the like of the screen 20 due to heat after heating.

Of course, in order to further protect the screen 20 and extend the service life of the heating fresco, a heat insulating layer such as a PET film may be provided on the screen side of the substrate 10, and then the screen 20 may be printed on the heat insulating layer.

As shown in fig. 3, the heating fresco further includes an outer frame 80, and both the substrate 10 and the reflective film 40 are partially fixed in the outer frame 80. The shape of the outer frame 80 may be a rectangle as shown in fig. 3, or may be a circle, an ellipse, or the like, so as to adapt to the design and decoration style of various buildings.

At this time, the button switch 702 is embedded in the outer frame 80 and electrically connected to the power supply, and the embedded position can be adjusted according to the pattern of the picture 20 of the heating fresco and the shape of the heating fresco, so as to be more beautiful and convenient to operate.

Example 2:

as shown in fig. 4, in this embodiment, on the basis of embodiment 1, the heating mural further includes a heat insulating layer 50, and the heat insulating layer 50 is stacked on one side of the reflection film 40 away from the graphene layer 30, so that the heat insulating layer 50 can store part of heat which is not reflected to the outside by the reflection film 40, and is used for preventing heat dissipation, so that the heat generated by heating the graphene layer 30 is maximized, and the indoor temperature is rapidly raised.

The insulating layer 50 may be made of flame-retardant and heat-insulating materials such as a polyurethane insulating board, and of course, the size of the insulating layer 50 is the same as that of the reflective film 40 and the substrate 10, and the same portions are fixed in the outer frame 80.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. A heating mural is characterized by comprising a substrate, a reflecting film and a power supply module, wherein the substrate comprises a picture side and a heating side which is back to the picture side, the heating side is provided with a graphene layer, the reflecting film is arranged on one side of the graphene layer which deviates from the substrate in a stacking manner, the power supply module is electrically connected with the graphene layer and supplies power to the graphene layer, the graphene layer is heated to generate heat and radiate far infrared light waves, the reflecting film is used for reflecting the heat and the far infrared light waves to enable the heat and the far infrared light waves to radiate to the outside from the picture side, the power supply module comprises a conducting layer arranged on the surface of the graphene layer, the conducting layer is connected with a power supply and supplies power to the graphene layer, the conducting layer comprises two copper foil current carrying strips, the two copper foil current carrying strips are respectively arranged on two long sides of the graphene layer, and the two copper foil current-carrying strips are respectively connected with the positive electrode and the negative electrode of the power supply to form a circuit loop.

2. The heating fresco of claim 1, wherein the power module further comprises a terminal, the conductive layer is electrically connected to the terminal, and the terminal extends through the reflective film and is mounted in abutting engagement with a power source.

3. The heating fresco of claim 2, further comprising a temperature control module, wherein the conductive layer is electrically connected to the temperature control module, and the temperature control module is connected to the power source and controls the power source to supply power to the graphene layer.

4. The heating fresco of claim 3, wherein the temperature control module is electrically connected to the terminal and controls a power source to supply power to the graphene layer.

5. The heating fresco of claim 3, wherein the temperature control module comprises a temperature control switch or a push button switch, the conductive layer is electrically connected to the temperature control switch or the push button switch, and the temperature control module or the push button switch is connected to the power source.

6. The heating fresco of claim 3, wherein the temperature control module comprises a temperature control switch and a button switch, and the conductive layer is electrically connected to the temperature control switch, the button switch and the power supply in sequence, or the conductive layer is electrically connected to the button switch, the temperature control switch and the power supply in sequence.

7. The heating fresco of any of claims 1 to 6, further comprising an outer frame, wherein the substrate and the reflective film are both partially fixed in the outer frame.

8. The heating fresco of claim 7, further comprising an insulating layer, wherein the insulating layer is stacked on a side of the reflective film facing away from the graphene layer for preventing heat dissipation.

9. The heating fresco of claim 8 wherein the insulating layer portion is secured to the external frame.