CN216281645U - Integrated graphene heating strip - Google Patents

Abstract

The utility model belongs to the field of floor heating, and relates to an integrated graphene heating strip which comprises a heat insulation sheet, wherein a strip-shaped graphene heating belt is fixedly connected to the upper side surface of the heat insulation sheet, a connecting wire and a radiating fin are fixedly connected to the lower side surface of the heat insulation sheet in sequence, and the connecting wire is electrically connected with the positive electrode and the negative electrode of the graphene heating belt. The structure is simple, the graphene heating strips are used as heat sources, accessories such as the heat insulation sheets, the connecting wires and the radiating fins are integrated to form the strip-shaped structure, the overall hardness can be effectively improved, the graphene heating strips can be conveniently arranged in plate holes in a penetrating mode in a construction site, meanwhile, the auxiliary materials and the graphene heating strips are integrated into a whole, the site construction steps are reduced, the construction efficiency is improved, the fault rate is reduced, meanwhile, the plurality of graphene heating strips can be connected into the strip-shaped structure, and the strip-shaped structure is suitable for different application scenes.

Description

Integrated graphene heating strip

Technical Field

The utility model belongs to the field of heating, relates to a heating facility device, and particularly relates to an integrated graphene heating strip for radiant heating.

Background

As a low-temperature radiation heating system arranged below a floor, a floor heating system plays an important role in indoor decoration, particularly indoor decoration in northern areas (or cold areas), can uniformly heat the whole floor, and supplies heat to the indoor through the floor in a radiation and indoor convection heat transfer mode to achieve the effect of comfortable heating. Nowadays, the underfloor heating system is divided into a water underfloor heating system and an electric underfloor heating system according to different heat transfer media, wherein the carbon crystal underfloor heating in the electric underfloor heating system is taken as a novel underfloor heating type, and the underfloor heating system has the characteristics of high efficiency, energy conservation, economy, no pollution, long service life, controllable temperature and the like, the use cost is obviously reduced compared with a common electric heating product, the underfloor heating system accords with the national energy-saving and environment-friendly policy, accords with the development direction of carbon peak-to-peak carbon neutralization, and has a very wide application prospect.

The graphene heating film is a heating element which is made by synthesizing carbon crystal particles and special polymer resin materials, belongs to a specific form of carbon crystal floor heating, and has the biggest characteristics of high heating rate and high heat conversion efficiency.

At present, the installation and construction process of the graphene heating film is basically the same as that of a traditional floor heating system, the whole layer of the graphene heating film is paved on a ground heat insulation layer, then the layer of the graphene heating film is connected with a wire, a heating film protection layer is made, the requirement on the construction process is high, the flatness, the on-site cleanliness and the on-site installation protection of the ground are achieved, and meanwhile, potential safety or fault hazards exist due to the fact that the number of connecting wires and connecting heads is too large. In the process of mating formation, because graphite alkene heating film is softer, the area is great, can't directly wear to put in the diaphragm orifice on floor or wallboard with graphite alkene heating film, the construction degree of difficulty is very big, takes a lot of work and time, still destroys graphite alkene heating film's structure easily, damages the heating film, has restricted graphite alkene heating film's popularization and application.

Technical personnel in the interior decoration industry design a novel decorative plate with plate holes according to the development of technology and social requirements, such as Chinese patent ZL 201920675952.1; ZL 202120036153.7; the novel building material disclosed by ZL 202120414613.5 utilizes the plate hole to conveniently wear and put the pipeline, simplifies the construction process, reduces the subsequent maintenance difficulty, and provides technical support for the strip-shaped application of the graphene heating film.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an integrated graphene heating strip aiming at the defects of the prior art, the graphene heating strip is used as a heat source, accessories such as a heat insulation sheet, a connecting wire and a radiating sheet are integrated to form a strip-shaped structure, the integral hardness can be effectively improved, the heating strip is matched with novel floors or wallboards with plate holes and is arranged in the plate holes of the floors or wallboards in a penetrating manner, the construction process is improved, the construction efficiency is improved, and the construction quality is ensured.

The technical scheme adopted by the utility model is as follows:

an integrated graphene heating strip comprises a heat insulation sheet, wherein a strip-shaped graphene heating belt is fixedly connected to the upper surface of the heat insulation sheet, the graphene heating belt is used as a heat source and can be used for directly heating a floor in an infrared radiation mode, and the heat insulation sheet is used for retarding heat from being transmitted downwards and protecting a lower connecting wire from being too high in temperature; the lower surface at the heat shield has linked firmly connecting wire and fin in proper order, and the connecting wire is the graphite alkene area that generates heat and provides the power, and the fin distributes away the heat that connecting wire self takes place as early as possible, guarantees that the connecting wire can be for a long time, normally work, the connecting wire includes anodal connecting wire and negative pole connecting wire, anodal connecting wire and negative pole connecting wire are connected with positive, the negative pole in the area that generates heat with graphite alkene respectively, and the fin is used for the heat conduction, because the connecting wire can generate heat under the circumstances of circular telegram, utilizes the fin can in time derive heat, avoids the connecting wire high temperature and burns out.

This application can be according to the overall arrangement between the interior area size in the room, the different room types, the calculation designs out corresponding power and heating heat supply density, again according to the ground heating scheme of design, wear to put the installation with graphite alkene strip that generates heat after the floor is mated formation, and graphite alkene strip that generates heat after the switch on generates heat and directly heats the floor with infrared radiation's mode, promotes whole indoor room temperature, reaches the effect of heating.

As a further improvement of the utility model, the positive electrode and the negative electrode of the graphene heating strip are provided with outgoing lines, and the connection of the positive electrode and the negative electrode of the graphene heating strip and a connecting line can be facilitated by utilizing the outgoing lines.

As a further improvement of the utility model, the positive connecting wire and the negative connecting wire are provided with connecting leads for connecting with the positive electrode and the negative electrode of the graphene heating strip, so that the connection effectiveness is improved. Preferably, the connecting leads are arranged in a segmented mode, the number of the connecting leads is multiple, and a plurality of graphene heating strips can be connected to one connecting line, so that the design length of the heating cable is longer, and the heating cable is suitable for various application scenes.

The graphene heating strip is simple in structure, the graphene heating strip is used as a heat source, and accessories such as heat insulation sheets, connecting wires and cooling fins are integrated to form a strip-shaped structure, so that the overall hardness can be effectively improved. The heating strip has the advantages that the construction is convenient, and the heating strip can be freely put in and put out of the plate hole due to the size of the plate hole and the rigidity of the heating strip; secondly, the wiring is convenient, the components are taken as basic installation units, one basic installation unit is only provided with one joint connected with a main cable, the number of the component units is reduced greatly compared with that of heating films in a space with the same power, and the joints and the wiring are also reduced greatly; thirdly, the heating strip is convenient to maintain, the heating strip does not need to be a protective layer and is directly arranged in the plate hole in a penetrating mode, the problem of the heating strip is found in the using process, and the problem can be solved by replacing the heating strip; and fourthly, the scene which can not be covered by the existing graphene heating film is supplemented, the graphene heating film and the scene supplement each other, and the graphene heating film is suitable for various different application scenes.

Drawings

FIG. 1 is a schematic cross-sectional view of the structure of the present invention.

Fig. 2 is a schematic top view of the structure of the present invention.

Fig. 3 is a schematic plan view of the structure of the strip-shaped graphene heat generating film of the present invention.

Fig. 4 is a schematic structural diagram of the connecting wire of the present invention.

Fig. 5 is a usage state effect diagram of the present invention.

In the figure: 1. a graphene heating tape; 2. a heat insulating sheet; 3. a connecting wire; 4. a heat sink; 5. a negative lead-out wire; 6. a positive electrode lead-out wire; 7. a negative electrode connecting wire; 8. connecting a lead; 9. a positive electrode connecting wire; 10. an integrated graphene heating strip; 11. a waterproof joint; 12. an external connection cable; 13. a main cable.

Detailed Description

The utility model will be further illustrated by way of example and without limitation in the context of the utility model, with reference to the accompanying drawings.

As shown in fig. 1 and 2, the integrated graphene heating strip designed by the utility model comprises a heat insulating sheet 2 made of a polyurethane material, wherein a graphene heating belt 1 is fixedly connected to the upper side surface of the heat insulating sheet and is made by synthesizing carbon crystal particles and a special polymer resin material, positive and negative electrodes of the integrated graphene heating strip are made of copper foils, the graphene heating belt 1 is used as a heat source, the upper surface of a floor (a ceramic tile or a wood floor) can be directly heated in an infrared radiation mode, and the polyurethane heat insulating sheet is used for retarding heat from being transferred downwards; connecting wire 3 and fin 4 have been linked firmly in proper order to the downside at heat shield 2, connecting wire 3 adopts the copper foil preparation, connecting wire 3 with graphite alkene generate heat take 1 positive, negative two poles electricity be connected, connecting wire 3 is connected with main cable (indoor power supply thread) through the external cable, fin 4 adopts the silica gel material preparation for heat conduction, because the connecting wire can generate heat under the circumstances of circular telegram, utilize the fin can in time derive heat, avoid the connecting wire high temperature and burn out.

The utility model provides a graphite alkene generates heat and takes 1, as shown in figure 3, is provided with negative pole lead-out wire 5, anodal lead-out wire 6 at positive, negative pole (copper foil) that graphite alkene generates heat and takes 1, utilizes negative pole lead-out wire 5, anodal lead-out wire 6 can make things convenient for positive, negative pole and the connecting wire 3 of graphite alkene heating area to be connected.

The connecting wire 3 that this application designed, as shown in fig. 4, including anodal connecting wire 9 and negative pole connecting wire 7, correspond the position and be provided with connecting lead 8 on anodal connecting wire 9 and negative pole connecting wire 7, connecting lead 8 on anodal connecting wire 9, the negative pole connecting wire 7 respectively with graphite alkene generate heat the positive, negative pole electricity of taking and be connected, can improve graphite alkene generate heat the validity of being connected between 1 and the connecting wire 3. The connecting lead 8 is made of copper foil and is arranged in a segmented mode, and the number of the connecting lead can be determined according to application scenes and designed heating schemes, so that the connecting lead 3 is connected with the plurality of graphene heating strips 1 to meet actual requirements.

When the integrated graphene heating strip is implemented, the integrated graphene heating strip can be manufactured according to standard parts in a factory, for example, one, two, three or five graphene heating strips 1 are arranged on one heating strip according to design specifications so as to meet the design length requirements of different application scenes on the integrated graphene heating strip, and the like, so that integrated design and production are realized, and the integrated graphene heating strip can be customized according to the requirements of customers. No matter the standard part or the fixed part is provided with corresponding accessories, such as an external connection cable, so that the assembly on a construction site is facilitated, and the construction efficiency is improved.

In practical application, according to the inner area of a room and the layout of different room types, corresponding heating density is designed, then according to the designed heating scheme, the integrated graphene heating strip 10 is arranged in a plate hole of a floor in a penetrating mode, as shown in fig. 5, and then is connected with a main cable 13 through a waterproof connector 11 by utilizing an external cable 12, and finally an indoor floor heating system is formed.

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

Claims (4)

1. The utility model provides an integral type graphite alkene strip that generates heat which characterized in that: including the heat shield, the side has linked firmly banded graphite alkene area that generates heat on the heat shield, has linked firmly connecting wire and fin in proper order at the downside of heat shield, the connecting wire includes anodal connecting wire and negative pole connecting wire, anodal connecting wire and negative pole connecting wire generate heat the positive, negative pole electricity in area with graphite alkene respectively and are connected.

2. The integrated graphene heating bar according to claim 1, wherein: and leading-out wires are arranged on the positive electrode and the negative electrode of the graphene heating belt.

3. The integrated graphene heating bar according to claim 1, wherein: and the positive connecting wire and the negative connecting wire are provided with connecting leads.

4. The integrated graphene heating bar according to claim 3, wherein: the connecting leads are arranged in a segmented mode, and the number of the connecting leads is multiple.

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