CN209572173U - Graphene heating base material - Google Patents

Abstract

The utility model relates to a kind of graphene heating base materials.It solves the technical problems such as existing structure is simpler.This graphene heating base material includes graphene film, the straight conductive coating item two of the straight conductive coating item one in side and side being parallel to each other is respectively equipped in any one surface two sides of graphene film, the neutral straight conductive coating item one between the straight conductive coating item two of the straight conductive coating item one in side and side is connected with by circular arc conductive coating item one in the inner opposite end of the straight conductive coating item one in side, inside in the straight conductive coating item two in side and one end far from circular arc conductive coating item one pass through circular arc conductive coating item two and are connected with the neutral straight conductive coating item two between the straight conductive coating item one of neutral straight conductive coating item one and side, the neutral straight conductive coating item one and neutral straight conductive coating item two is parallel to each other.Utility model has the advantages that can be improved production efficiency and can be improved using safety coefficient.

Description

Graphene heating base material

Technical field

The utility model belongs to technical field of heating more particularly to a kind of graphene heating base material.

Background technique

It is widely developed and used graphene, the application especially generated heat.

And in order to further increase heating property, it will increase metallic conduction coating on a surface of graphene film, mesh It generally uses escalator-type structure to preceding coating, although this structure its can play conductive effect, this structure its It has following defects that

Difficulty of processing is larger and process is tedious, causes production efficiency lower.

Secondly, short circuit phenomenon is easy to happen after being powered, using there are security risks.

Utility model content

The purpose of this utility model is in view of the above-mentioned problems, providing one kind can be improved production efficiency and can be improved use The graphene heating base material of safety coefficient.

In order to achieve the above objectives, the utility model uses following technical proposal: this graphene heating base material includes graphite Alkene film is respectively equipped with the straight conductive coating item one in side being parallel to each other and side in any one surface two sides of graphene film Straight conductive coating item two, in side, the inner opposite end of straight conductive coating item one is connected with position by circular arc conductive coating item one Neutral straight conductive coating item one between the straight conductive coating item two of the straight conductive coating item one in side and side, in side The inside of straight conductive coating item two and one end of separate circular arc conductive coating item one pass through circular arc conductive coating item two and are connected with Neutral straight conductive coating item two between the straight conductive coating item one of neutral straight conductive coating item one and side, it is described Neutral straight conductive coating item one and neutral straight conductive coating item two be parallel to each other.

Structure that is interlaced and being parallel to each other can greatly improve to avoid short circuit phenomenon using safety coefficient, It generates heat more uniform, and its is simpler for the design of total, virtually improves the coating efficiency of coating.

In above-mentioned graphene heating base material, the side is straight conductive coating item one and neutral straight conductive coating Item two is parallel to each other, and the side is straight conductive coating item two and neutral straight conductive coating item one are parallel to each other.

Being parallel to each other, it can be further improved processing efficiency.

In above-mentioned graphene heating base material, the side is straight conductive coating item one and neutral straight conductive coating The distance between item two is equal to the distance between neutral straight conductive coating item one and neutral straight conductive coating item two, described Side is straight, and the distance between conductive coating item two and neutral straight conductive coating item one are equal to neutral straight conductive coating item one The distance between neutral straight conductive coating item two.

It is equidistant, may further ensure that using ground safety.

In above-mentioned graphene heating base material, the radius of the circular arc conductive coating item one is equal to circular arc conductive coating The radius of item two.

Radius is equal, can be further improved processing efficiency.

In above-mentioned graphene heating base material, the straight conduction of one length of conductive coating item and side that the side is straight The equal length of coating item two.

Equal length then can be further improved processing efficiency.

It is straight with side at the top of the one outer arcuate face of circular arc conductive coating item in above-mentioned graphene heating base material One end of conductive coating item one flushes, and neutral straight conductive coating item one one end and side far from circular arc conductive coating item one are flat The other end of straight conductive coating item one flushes；It is applied at the top of the two outer arcuate face of circular arc conductive coating item with the straight conduction in side One end of layer item two flushes, one end and side straight conduction of the neutral straight conductive coating item two far from circular arc conductive coating item two The other end of coating item two flushes.

Above-mentioned structure its can be further improved using safety coefficient.

In above-mentioned graphene heating base material, the side is straight, and one width of conductive coating item is led equal to side is straight The width of electrocoat item two.

Width is equal, can be further improved production and processing efficiency.

In above-mentioned graphene heating base material, one width of neutral straight conductive coating item is applied equal to circular arc conduction The width of layer item one, the side is straight one width of conductive coating item are equal to the width of circular arc conductive coating item one.

Width is equal, can be further improved production and processing efficiency.

In above-mentioned graphene heating base material, two width of neutral straight conductive coating item is applied equal to circular arc conduction The width of layer item two, the side is straight two width of conductive coating item are equal to the width of circular arc conductive coating item two.

Width is equal, can be further improved production and processing efficiency.

In above-mentioned graphene heating base material, the side is straight conductive coating item one, side is straight conductive coating Item two, circular arc conductive coating item one, neutral straight conductive coating item one, circular arc conductive coating item two and neutral straight conductive coating Item two is metallic conduction coating.

Metallic conduction coating is that silver paste or copper are starched.

Graphene film is equivalent to resistance.

Compared with prior art, the advantages of this graphene heating base material, is:

1, structure that is interlaced and being parallel to each other can greatly improve to avoid short circuit phenomenon and use safe system Number generates heat more uniform, and its is simpler for the design of total, virtually improves the coating efficiency of coating.

2, structure is simple and easy to manufacture.

Detailed description of the invention

Fig. 1 is structural schematic diagram provided by the utility model.

In figure, 10, graphene film；20, the straight conductive coating item one in side；30, the straight conductive coating item two in side； 40, circular arc conductive coating item one；50, neutral straight conductive coating item one；60, circular arc conductive coating item two；70, neutral straight is led Electrocoat item two.

Specific embodiment

It is the specific embodiment of utility model and in conjunction with attached drawing below, the technical solution of the utility model is made further Description, but the utility model is not limited to these examples.

Embodiment one

As shown in Figure 1, this graphene heating base material includes graphene film 10, graphene film 10 its be current material.

The straight conductive coating item 1 in side being parallel to each other is respectively equipped in any one surface two sides of graphene film 10 With the straight conductive coating item 2 30 in side, the side is straight, and one 20 width of conductive coating item is equal to the straight conductive coating in side The width of item 2 30.

In side, the inner opposite end of straight conductive coating item 1 is connected with by circular arc conductive coating item 1 positioned at side Neutral straight conductive coating item 1 between side the is straight straight conductive coating item 2 30 of conductive coating item 1 and side, in side The inside of side is straight conductive coating item 2 30 and one end far from circular arc conductive coating item 1 passes through circular arc conductive coating item two 60 are connected with the neutral straight conduction between the straight conductive coating item 1 of neutral straight conductive coating item 1 and side Coating item 2 70, the neutral straight conductive coating item 1 and neutral straight conductive coating item 2 70 are parallel to each other.

Prioritization scheme, the side of the present embodiment is straight conductive coating item 1 and neutral straight conductive coating item 2 70 are mutual In parallel, the straight conductive coating item 2 30 in the side and neutral straight conductive coating item 1 are parallel to each other.

Prioritization scheme, the side is straight between conductive coating item 1 and neutral straight conductive coating item 2 70 away from From the distance between neutral straight conductive coating item 1 and neutral straight conductive coating item 2 70 is equal to, the side is straight The distance between conductive coating item 2 30 and neutral straight conductive coating item 1 are equal to one 50 He of neutral straight conductive coating item The distance between neutral straight conductive coating item 2 70.

Secondly, the radius of the circular arc conductive coating item 1 is equal to the radius of circular arc conductive coating item 2 60.

In addition, the equal length of side straight one 20 length of conductive coating item and the straight conductive coating item 2 30 in side.

It is flushed at the top of one 40 outer arcuate face of circular arc conductive coating item with one end of the straight conductive coating item 1 in side, it is intermediate One end and side straight conductive coating item one 20 of the straight conductive coating item 1 far from circular arc conductive coating item 1 it is another End flushes；It is neat with one end of the straight conductive coating item 2 30 in side at the top of the 2 60 outer arcuate face of circular arc conductive coating item It is flat, one end and side straight conductive coating item two 30 of the neutral straight conductive coating item 2 70 far from circular arc conductive coating item 2 60 The other end flush.

One 50 width of neutral straight conductive coating item is equal to the width of circular arc conductive coating item 1, and the side is straight One 20 width of conductive coating item is equal to the width of circular arc conductive coating item 1.

2 70 width of neutral straight conductive coating item is equal to the width of circular arc conductive coating item 2 60, and the side is straight 2 30 width of conductive coating item is equal to the width of circular arc conductive coating item 2 60.

It is side is straight conductive coating item 1, side is straight conductive coating item 2 30, circular arc conductive coating item 1, intermediate Straight conductive coating item 1, circular arc conductive coating item 2 60 and neutral straight conductive coating item 2 70 are that metallic conduction applies Layer.

By the design of distance and width, after conductive coating item is powered, graphene film at this time can then be completed to add Heat, meanwhile, using the straight conductive coating item in side, circular arc conductive coating item and neutral straight conductive coating item, then can prevent Short circuit phenomenon, while the uniformity and safety of fever can also be further increased.

The present embodiment can be widely used in the heating of daily necessity.

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Claims (10)

1. graphene heating base material, including graphene film, which is characterized in that any one surface two sides of the graphene film It is respectively equipped with the straight conductive coating item two of the straight conductive coating item one in the side being parallel to each other and side, in the straight conductive painting in side The inner opposite end of layer item one is connected with straight positioned at the straight conductive coating item one in side and side by circular arc conductive coating item one Neutral straight conductive coating item one between conductive coating item two, the inside of straight conductive coating item two and separate circular arc in side One end of conductive coating item one is connected with flat positioned at neutral straight conductive coating item one and side by circular arc conductive coating item two Neutral straight conductive coating item two between straight conductive coating item one, the neutral straight conductive coating item one and neutral straight Conductive coating item two is parallel to each other.

2. graphene heating base material according to claim 1, which is characterized in that the side is straight conductive coating item one It is parallel to each other with neutral straight conductive coating item two, the side is straight conductive coating item two and neutral straight conductive coating item One is parallel to each other.

3. graphene heating base material according to claim 2, which is characterized in that the side is straight conductive coating item one The distance between neutral straight conductive coating item two is equal to neutral straight conductive coating item one and neutral straight conductive coating item The distance between two, during the side is straight the distance between conductive coating item two and neutral straight conductive coating item one is equal to Between the distance between straight conductive coating item one and neutral straight conductive coating item two.

4. graphene heating base material according to claim 1, which is characterized in that the half of the circular arc conductive coating item one Diameter is equal to the radius of circular arc conductive coating item two.

5. graphene heating base material according to claim 1, which is characterized in that the side is straight conductive coating item one The equal length of the straight conductive coating item two of length and side.

6. graphene heating base material according to claim 5, which is characterized in that one outer arc of circular arc conductive coating item It is flushed at the top of shape face with one end of the straight conductive coating item one in side, neutral straight conductive coating item one is far from circular arc conductive coating The other end of one end and side of item one are straight conductive coating item one flushes；Two outer arcuate face of the circular arc conductive coating item top Portion is flushed with one end of the straight conductive coating item two in side, and neutral straight conductive coating item two is far from circular arc conductive coating item two The other end of the straight conductive coating item two in one end and side flushes.

7. graphene heating base material according to claim 1, which is characterized in that the side is straight conductive coating item one Width is equal to the width of the straight conductive coating item two in side.

8. graphene heating base material according to claim 7, which is characterized in that the neutral straight conductive coating item one Width is equal to the width of circular arc conductive coating item one, and the side is straight, and one width of conductive coating item is equal to circular arc conductive coating The width of item one.

9. graphene heating base material according to claim 7, which is characterized in that the neutral straight conductive coating item two Width is equal to the width of circular arc conductive coating item two, and the side is straight, and two width of conductive coating item is equal to circular arc conductive coating The width of item two.

10. graphene heating base material according to claim 1, which is characterized in that the side is straight conductive coating item One, the straight conductive coating item two in side, circular arc conductive coating item one, neutral straight conductive coating item one, circular arc conductive coating item Two and neutral straight conductive coating item two be metallic conduction coating.