CN219007674U - Foot pad capable of reducing radiation - Google Patents

Abstract

The utility model discloses a radiation-reducing foot pad which comprises a surface flocking layer, a first silicon carbide plate layer, a first carbon fiber plate layer, a graphite layer, a second carbon fiber plate layer, a second silicon carbide plate layer and an anti-slip silica gel layer which are arranged from top to bottom, wherein the surface flocking layer, the first silicon carbide plate layer, the first carbon fiber plate layer, the graphite layer, the second carbon fiber plate layer, the second silicon carbide plate layer and the anti-slip silica gel layer are bonded by an adhesive, the first silicon carbide plate layer and the second silicon carbide plate layer are identical in structure, a plurality of wedge-shaped first protrusions are uniformly distributed on one side of the first silicon carbide plate layer, which is close to the surface flocking layer, and a plurality of wedge-shaped second protrusions are uniformly distributed on one side of the second silicon carbide plate layer, which is close to the anti-slip silica gel layer. The radiation-reducing foot pad can effectively absorb electromagnetic radiation inside and outside a passenger through different materials of the multilayer structure, and simultaneously can enhance the radiation absorption effect of the foot pad through the wedge-shaped first protrusions and the wedge-shaped second protrusions, so that radiation is reduced to be absorbed by drivers and passengers.

Description

Foot pad capable of reducing radiation

Technical Field

The utility model relates to the technical field of automobile foot pads, in particular to a foot pad capable of reducing radiation.

Background

The car callus on sole is a carpet for placing in the car, and its mainly used isolated passenger's sole silt and car bottom plate avoid silt direct adhesion to car bottom plate, are difficult to clean.

The existing automobile foot pad cannot absorb electromagnetic wave radiation inside and outside the automobile, so that the radiation can be absorbed by a human body, and physical and mental health of drivers and passengers is affected.

Disclosure of Invention

In order to solve the technical problems, a radiation-reducing foot pad is provided.

In order to achieve the above object, the following scheme is provided: the utility model provides a low-radiation foot pad, includes surface flocking layer, first carbon fiber board layer, graphite layer, second carbon fiber board layer and the anti-skidding silica gel layer that top-down set gradually, surface flocking layer, first carbon fiber board layer, graphite layer, second carbon fiber board layer and anti-skidding silica gel layer are two liang between through the bonding agent bonding, first carbon fiber board layer and second carbon fiber board layer structure are the same, one side that first carbon fiber board layer is close to surface flocking layer equipartition has the first arch of a plurality of wedges, and one side that the second carbon fiber board layer is close to anti-skidding silica gel layer equipartition has the second arch of a plurality of wedges.

Further, the surface flocking layer is planted with fluff, and the length of the fluff is larger than the height of the first bulge.

Further, the second protrusion is wrapped by the anti-slip silica gel layer.

Further, the graphite layer includes fixed rack and graphite filler, fixed rack is fixed to be set up between first carbon fiber board layer and second carbon fiber board layer, and graphite filler fills in fixed rack.

The working principle and the advantages of the utility model are as follows: the radiation-reducing foot pad can effectively absorb electromagnetic radiation inside and outside a passenger through different materials of the multilayer structure, and simultaneously can enhance the radiation absorption effect of the foot pad through the wedge-shaped first protrusions and the wedge-shaped second protrusions, so that radiation is reduced to be absorbed by drivers and passengers.

Drawings

Fig. 1 is a structural diagram of the present utility model.

Reference numerals in the drawings of the specification include:

1. the surface flocking layer, 2, the first silicon carbide board layer, 3, the first arch, 4, the first carbon fiber board layer, 5, graphite filler, 6, the second carbon fiber board layer, 7, the second silicon carbide board layer, 8, the second arch, 9, anti-skidding silica gel layer, 10, fixed rack.

Detailed Description

The following is a further detailed description of the embodiments:

as shown in fig. 1:

the utility model provides a low radiation callus on sole, includes that top-down sets gradually and mutually glues the surface flocking layer 1 of knot, first carborundum board layer 2, first carborundum board layer 4, graphite layer, second carborundum board layer 6, second carborundum board layer 7 and anti-skidding silica gel layer 9, first carborundum board layer 2 and second carborundum board layer 7 structure are the same and the symmetry sets up, first carborundum board layer 2 is close to the first arch 3 of a plurality of wedges of one side equipartition on surface flocking layer 1, and second carborundum board layer 7 is close to the second arch 8 of a plurality of wedges of one side equipartition on anti-skidding silica gel layer 9, and the absorption effect of radiation can be strengthened to first arch 3 of wedge and second arch 8.

The flocking layer 1 on the surface is planted with fluff, and the length of the fluff is larger than the height of the first bulge 3, so that the flocking thickness is larger than the bulge height of the first bulge 3, and the foot pad is prevented from being pressed by a user when the user steps on.

The second protrusion 8 is wrapped by the anti-slip silica gel layer 9, so that the second protrusion 8 is prevented from protruding from the anti-slip silica gel layer 9, and the foot pad is prevented from moving randomly.

The graphite layer includes fixed rack 10 and graphite filler 5, fixed rack 10 is fixed to be set up between first carbon fiber board layer 4 and second carbon fiber board layer 6, and graphite filler 5 fills in fixed rack 10, and fixed rack 10 is used for fixed graphite filler 5, avoids graphite filler 5 to remove at will between first carbon fiber board layer 4 and second carbon fiber board layer 6, just causes the callus on the sole unevenness.

The plate made of silicon carbide, carbon fiber and graphite material can effectively absorb radiation, and meanwhile, the plate can be bent to a certain extent by adding materials such as plastic, rubber and silica gel.

The specific implementation process is as follows:

when using this callus on sole that reduces radiation, directly with this callus on the sole place on the car floor can, the first protruding 3 of wedge shape and the protruding 8 of second can absorb radiation effectively, and the plate that is made by carborundum, carbon fiber, graphite material also can absorb radiation effectively.

The radiation-reducing foot pad can effectively absorb electromagnetic radiation inside and outside a passenger through different materials of the multilayer structure, and simultaneously can enhance the radiation absorption effect of the foot pad through the wedge-shaped first protrusions 3 and the wedge-shaped second protrusions 8, so that the radiation is reduced to be absorbed by drivers and passengers.

The foregoing is merely an embodiment of the present utility model, and a specific structure and characteristics of common knowledge in the art, which are well known in the scheme, are not described herein, so that a person of ordinary skill in the art knows all the prior art in the application day or before the priority date of the present utility model, and can know all the prior art in the field, and have the capability of applying the conventional experimental means before the date, so that a person of ordinary skill in the art can complete and implement the present embodiment in combination with his own capability in the light of the present application, and some typical known structures or known methods should not be an obstacle for a person of ordinary skill in the art to implement the present application. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present utility model, and these should also be considered as the scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the applicability of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (4)

1. A radiation-reducing footpad, characterized by: including surface flocking layer, first carbon fiber board layer, graphite layer, second carbon fiber board layer and anti-skidding silica gel layer that top-down set gradually, surface flocking layer, first carbon fiber board layer, graphite layer, second carbon fiber board layer and anti-skidding silica gel layer are two liang between through the bonding agent bonding, first carbon fiber board layer and second carbon fiber board layer structure are the same, one side that first carbon fiber board layer is close to surface flocking layer equipartition has the first arch of a plurality of wedges, and one side that second carbon fiber board layer is close to anti-skidding silica gel layer equipartition has the second arch of a plurality of wedges.

2. A radiation-reducing footpad as defined in claim 1, wherein: the surface flocking layer is planted with fluff, and the length of the fluff is larger than the height of the first bulge.

3. A radiation-reducing footpad as defined in claim 1, wherein: the second bulge is wrapped by the anti-slip silica gel layer.

4. A radiation-reducing footpad as defined in claim 1, wherein: the graphite layer includes fixed rack and graphite filler, fixed rack is fixed to be set up between first carbon fiber sheet layer and second carbon fiber sheet layer, and graphite filler fills in fixed rack.

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