CN207555553U - Graphene array formula heat conduction and heat radiation plate - Google Patents

Abstract

A kind of graphene array formula heat conduction and heat radiation plate, it is characterized in that being equipped with the heat source reflective array being made of several convex mirrors or concave mirror on the graphene array formula heat conduction and heat radiation plate (1)；The overall material of the graphene array formula heat conduction and heat radiation plate (1) is graphene.Before the light at heat source back can be reflected towards by the graphene array formula heat conduction and heat radiation plate of the utility model by irreflexive form, light one positive with heat source reacts on illumination, increase Effective Illuminance, reduce heat source loss, simultaneously, light is scattered or converged using the optical focus principle of convex mirror or concave mirror, directly improves brightness, saves energy consumption.

Description

Graphene array formula heat conduction and heat radiation plate

Technical field

The utility model is related to illumination optical technical field, especially a kind of graphene array formula heat conduction and heat radiation plate is applicable in Heat dissipation in the lamps and lanterns of road lighting, urban landscape and home lighting.

Background technology

The luminaires such as traditional street lamp, there are dazzle is strong, power consumption is big, weak heat-dissipating, lamp life are short, illumination inefficiency Many drawbacks, the heat dissipation of lamps and lanterns constrains the development of industry.

Invention content

The purpose of this utility model is to provide a kind of graphene array formula heat conduction and heat radiation plates, effectively overcome above-mentioned conventional lights Has the drawbacks of weak heat-dissipating.

The technical solution of the utility model is：

A kind of graphene array formula heat conduction and heat radiation plate, it is characterized in that being set on the graphene array formula heat conduction and heat radiation plate 1 By the heat source reflective array being made of several convex mirrors or concave mirror；The whole material of the graphene array formula heat conduction and heat radiation plate 1 Matter is graphene.

The heat source reflective array is minute surface heat source reflective array；Graphene array formula heat conduction and heat radiation 1 surface minute surface of plate is anti- Penetrate processing.

1 surface of graphene array formula heat conduction and heat radiation plate has heat source mirror reflecting surface face.

The graphene array formula heat conduction and heat radiation plate 1 is plate shaped, arc, ball-type or irregular shape.

The convex mirror is aspherical convex mirror or spherical concave and convex mirrors.

The concave mirror is spherical concave and convex mirrors or aspherical concave mirror.

The steradian α of the convex mirror or convex mirror is 150 ° -179 °.

The beneficial effects of the utility model are：

Heat source can be radiated and be reflected by irreflexive form by the graphene array formula heat conduction and heat radiation plate of the utility model It goes, the caloric receptivity of reduction itself, meanwhile, cooling surface area is increased using array, increases the contact surface with the media such as air Product, enhances heat dissipation effect.

The graphene array formula heat conduction and heat radiation plate of the utility model uses graphene nano material, big with intensity, conductive The strong excellent specific property of heat conductivility, heat dissipation effect are very notable.

Lamps and lanterns using the heat sink of the utility model have the spies such as service life is long, environmentally protective, highlighted, light decay is small Property；Installation is simple, greatly reduces the mounting cost and maintenance cost of lamps and lanterns.

Description of the drawings

Fig. 1 is the structure diagram of the utility model.

Fig. 2 is the reflection schematic diagram of the convex mirror of the utility model.

Fig. 3 is the using state structure diagram of the utility model.

In figure：1 it is graphene array formula heat conduction and heat radiation plate, 2 be convex mirror, 3 be heat source, 4 is luminaire housing.

Specific embodiment

The utility model is further described below in conjunction with the accompanying drawings：

Such as Fig. 1-Fig. 3, a kind of graphene array formula heat conduction and heat radiation plate, it is characterized in that in the graphene array formula heat conduction Heat sink 1 is equipped with the heat source reflective array being made of several convex mirrors or concave mirror；The graphene array formula heat conduction and heat radiation The overall material of plate 1 is graphene.

The heat source reflective array is minute surface heat source reflective array；Graphene array formula heat conduction and heat radiation 1 surface minute surface of plate is anti- Penetrate processing.

1 surface of graphene array formula heat conduction and heat radiation plate has heat source mirror reflecting surface face.

The graphene array formula heat conduction and heat radiation plate 1 is plate shaped, arc, ball-type or irregular shape.

The convex mirror is aspherical convex mirror or spherical concave and convex mirrors.

The concave mirror is spherical concave and convex mirrors or aspherical concave mirror.

The steradian α of the convex mirror or convex mirror is 150 ° -179 °.

Heat source can be radiated and be reflected by irreflexive form by the graphene array formula heat conduction and heat radiation plate of the utility model It goes, the caloric receptivity of reduction itself, meanwhile, cooling surface area is increased using array, increases the contact surface with the media such as air Product, enhances heat dissipation effect.

Embodiment described above is only that the preferred embodiment of the utility model is described, not to this practicality Novel conception and scope is defined, under the premise of the utility model design conception is not departed from, ordinary skill skill in this field The all variations and modifications that art personnel make the technical solution of the utility model should all fall into the protection model of the utility model It encloses, the claimed technology contents of the utility model have all been recorded in detail in the claims.

Claims (7)

1. a kind of graphene array formula heat conduction and heat radiation plate, it is characterized in that being set on the graphene array formula heat conduction and heat radiation plate (1) By the heat source reflective array being made of several convex mirrors or concave mirror；The entirety of the graphene array formula heat conduction and heat radiation plate (1) Material is graphene.

2. graphene array formula heat conduction and heat radiation plate according to claim 1, it is characterised in that the heat source reflective array is Minute surface heat source reflective array；The processing of graphene array formula heat conduction and heat radiation plate (1) surface specular reflections.

3. graphene array formula heat conduction and heat radiation plate according to claim 1, it is characterised in that the graphene array formula is led Hot heat sink (1) surface has heat source mirror reflecting surface face.

4. graphene array formula heat conduction and heat radiation plate according to claim 1, it is characterised in that the graphene array formula is led Hot heat sink (1) is plate shaped, arc, ball-type or irregular shape.

5. graphene array formula heat conduction and heat radiation plate according to claim 1, it is characterised in that the convex mirror is aspherical Convex mirror or spherical concave and convex mirrors.

6. graphene array formula heat conduction and heat radiation plate according to claim 1, it is characterised in that the concave mirror is recessed for spherical surface Face mirror or aspherical concave mirror.

7. graphene array formula heat conduction and heat radiation plate according to claim 1, it is characterised in that the convex mirror or convex mirror Steradian α be 150 ° -179 °.