CN216507178U - Infrared radiation carbon ink heating plate structure - Google Patents

Abstract

The utility model relates to an infrared radiation carbon ink heating plate structure, which is characterized in that: the novel aluminum foil substrate is characterized by comprising a rectangular plate body, wherein the rectangular plate body is divided into six layers of structures from top to bottom, the six layers of structures sequentially comprise an aluminum foil layer, a first insulation layer, a second insulation layer, a substrate layer, a third insulation layer and a decoration layer from top to bottom, the substrate layer consists of a substrate, two copper sheets and two graphene coating layers coated on the two copper sheets and the substrate, one side of the substrate, facing the second insulation layer, is embedded with the two copper sheets, the two copper sheets are symmetrically arranged on the substrate, the copper sheets and the substrate around the copper sheets are further coated with a graphene coating layer, and the upper surface of the graphene coating layer is flush with the upper surface of the substrate. The design has the advantages of simple structure, easy manufacture, practicality and high efficiency.

Description

Infrared radiation carbon ink heating plate structure

Technical Field

The utility model relates to the technical field of new energy and energy conservation, in particular to an infrared radiation carbon ink heating plate structure.

Background

However, in the prior art, as the burning of the bulk coal is an important heating mode in northern areas of China, and in the existing heating mode, harmful gases such as carbon dioxide, sulfur dioxide and the like discharged in the burning and mining process of the bulk coal pollute the atmosphere of cities and towns, the environment can be polluted and damaged, and particularly haze is easily generated in northern winter. The existing bulk coal combustion mode can not meet the requirement of avoiding the pollution to the environment when people get warm.

Disclosure of Invention

The utility model provides an infrared radiation carbon ink heating plate structure, which directly converts electric energy into heat energy through taking a graphene coating layer as a heating body and transmits the heat energy in an infrared radiation mode, and an aluminum foil layer is arranged on one side of the heating plate, so that the heat energy radiation on the other side of the heating plate is enhanced through the aluminum foil layer, and the effect of increasing the practical performance is achieved.

In order to solve the technical problem, the utility model provides an infrared radiation carbon ink heating plate structure, which is characterized in that: the composite board comprises a rectangular board body, the rectangular board body is divided into six layers from top to bottom, the six layers of structures sequentially comprise an aluminum foil layer, a first insulating layer, a second insulating layer, a substrate layer, a third insulating layer and a decorative layer from top to bottom, the substrate layer consists of a substrate, two copper sheets and two graphene coating layers coated on the two copper sheets and the substrates around the two copper sheets, one side of the substrate facing the second insulating layer is embedded with the two copper sheets, the two copper sheets are symmetrically arranged on the substrate, the copper sheets and the substrates around the copper sheets are further coated with a graphene coating layer, the upper surfaces of the graphene coating layers are flush with the upper surface of the substrate, two rubber rings are respectively fixed on the aluminum foil layer right above the two copper sheets, through holes penetrating through the copper sheets are formed in the aluminum foil layer right below the center of the rubber rings, the first insulating layer, the second insulating layer and the graphene coating layer, and a connecting wire is further welded and fixed on the copper sheet in the through hole, and the upper end of the connecting wire extends out of the center of the rubber ring along the through hole.

Further: the copper sheet and the graphene coating layer are sequentially connected in a hot-pressing embedded mode in the upper surface of the substrate to form a substrate layer, and the aluminum foil layer, the first insulating layer, the second insulating layer and the third insulating layer are connected with the upper surface and the lower surface of the substrate layer into a whole in a hot-pressing mode.

And further: the substrate, the first insulating layer, the second insulating layer and the third insulating layer are all formed by epoxy resin glass fiber cloth prepregs.

And further: the graphene coating layer, the second insulating layer, the first insulating layer and the aluminum foil layer on the periphery of the connecting wire are filled with and cured with epoxy resin in the through holes and the rubber rings on the periphery of the connecting wire.

And further: the decorative layer is a pattern coating layer and is coated on one surface of the third insulating layer, which is far away from the substrate layer, in a coating mode.

After the structure is adopted, the graphene coating layer is used as a heating body, electric energy is directly converted into heat energy and the heat energy is transmitted out in an infrared radiation mode, the aluminum foil layer is arranged on one side of the heating plate, the heat energy radiation on the other side of the heating plate is enhanced through the aluminum foil layer, and the effect of increasing the practical performance is achieved; and the design also has the advantages of simple structure, easy manufacture, practicality and high efficiency.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the layer structure of the present invention.

Detailed Description

The infrared radiation carbon ink heating plate structure shown in fig. 1 comprises a rectangular plate body, wherein the rectangular plate body is divided into six layers from top to bottom, the six layers of structures sequentially comprise an aluminum foil layer 7, a first insulation layer 1, a second insulation layer 2, a substrate layer, a third insulation layer 4 and a decoration layer 8 from top to bottom, the substrate layer consists of a substrate 3, two copper sheets 5 and two graphene coating layers 6 coated on two copper sheets and substrates around the two copper sheets, one side of the substrate facing the second insulation layer is embedded with the two copper sheets 5, the two copper sheets are symmetrically arranged on the substrate, the copper sheets and the substrates around the copper sheets are further coated with a graphene coating layer 6, the upper surface of the graphene coating layer is flush with the upper surface of the substrate, two rubber rings 9 are fixed on the aluminum foil layer right above the two copper sheets, the aluminum foil layer, the first insulating layer, the second insulating layer and the graphene coating layer under the center of the rubber ring are provided with through holes penetrating through to the copper sheets, the copper sheets in the through holes are fixedly welded with a connecting wire 11, and the upper ends of the connecting wires extend out of the center of the rubber ring along the through holes.

The copper sheet and the graphene coating layer are sequentially connected in a hot-pressing embedded mode in the upper surface of the substrate to form a substrate layer, and the aluminum foil layer, the first insulating layer, the second insulating layer and the third insulating layer are connected with the upper surface and the lower surface of the substrate layer into a whole in a hot-pressing mode.

The substrate, the first insulating layer, the second insulating layer and the third insulating layer are all formed by epoxy resin glass fiber cloth prepregs.

Epoxy resin 10 is filled and cured in the graphene coating layer, the second insulating layer, the first insulating layer and the through holes of the aluminum foil layer on the periphery of the connecting wire and in the rubber rings on the periphery of the connecting wire.

The decorative layer is a pattern coating layer which is coated on one surface of the third insulating layer far away from the substrate layer in a coating mode.

In summary, the graphene coating layer is used as a heating body, electric energy is directly converted into heat energy and the heat energy is transmitted out in an infrared radiation mode, the aluminum foil layer is arranged on one side of the heating plate, the heat energy radiation on the other side of the heating plate is enhanced through the aluminum foil layer, and the effect of increasing the practical performance is achieved; and the design also has the advantages of simple structure, easy manufacture, practicality and high efficiency.

Claims (5)

1. The utility model provides an infrared radiation carbon ink heating plate structure which characterized in that: the composite board comprises a rectangular board body, the rectangular board body is divided into six layers of structures from top to bottom, the six layers of structures sequentially comprise an aluminum foil layer (7), a first insulating layer (1), a second insulating layer (2), a substrate layer, a third insulating layer (4) and a decorative layer (8) from top to bottom, the substrate layer consists of a substrate (3), two copper sheets (5) and two graphene coating layers (6) coated on the two copper sheets and the substrates around the two copper sheets, one side of the substrate, facing the second insulating layer, is embedded with the two copper sheets (5), the two copper sheets are symmetrically arranged on the substrate, the copper sheets and the substrates around the copper sheets are further coated with a graphene coating layer (6), the upper surfaces of the graphene coating layers are flush with the upper surface of the substrate, two rubber rings (9) are fixed on the aluminum foil layer right above the two copper sheets, the aluminum foil layer, the first insulating layer, the second insulating layer and the graphene coating layer under the center of the rubber ring are provided with through holes penetrating through to the copper sheets, the copper sheets in the through holes are fixedly welded with a connecting wire (11), and the upper ends of the connecting wires extend out of the center of the rubber ring along the through holes.

2. An infrared radiation carbon ink heating plate structure according to claim 1, characterized in that: the copper sheet and the graphene coating layer are sequentially connected in a hot-pressing embedded mode in the upper surface of the substrate to form a substrate layer, and the aluminum foil layer, the first insulating layer, the second insulating layer and the third insulating layer are connected with the upper surface and the lower surface of the substrate layer into a whole in a hot-pressing mode.

3. An infrared radiation carbon ink heating plate structure according to claim 1, characterized in that: the substrate, the first insulating layer, the second insulating layer and the third insulating layer are all formed by epoxy resin glass fiber cloth prepregs.

4. An infrared radiation carbon ink heating plate structure according to claim 1, characterized in that: and epoxy resin (10) is filled and cured in the graphene coating layer, the second insulating layer, the first insulating layer and the through holes of the aluminum foil layer on the periphery of the connecting wire and in the rubber rings on the periphery of the connecting wire.

5. An infrared radiation carbon ink heating plate structure according to claim 1, characterized in that: the decorative layer is a pattern coating layer and is coated on one surface of the third insulating layer, which is far away from the substrate layer, in a coating mode.

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