CN206769304U - A kind of graphene floor heating ceramic tile - Google Patents

Abstract

Building field is the utility model is related to, in particular to a kind of graphene floor heating ceramic tile.Bottom brick is provided with thermal insulation board, can be effectively heat-insulated, reduce heat and be lost in from bottom brick, coordinate the graphene heat-conductive bridges for being compounded with graphene top layer simultaneously, heat can be made to be delivered to floor heating tiles surface rapidly, indoor temperature can be lifted rapidly, so as to reduce the waste of resource.

Description

A kind of graphene floor heating ceramic tile

Technical field

Building field is the utility model is related to, in particular to a kind of graphene floor heating ceramic tile.

Background technology

With the improvement of house living condition, the mode that increasing family selection is heated with floor heating tiles is adopted to room It is warm.

Existing floor heating tiles are all in floor heating tiles bottom slot, and heating wire is spread in groove, because bottom brick is thicker, cause to heat Effect is bad, and has significant portion thermal loss, causes energy waste.Other floor heating tiles entirety heat-conducting effect is simultaneously bad, opens Need longer time to can be only achieved the purpose for improving indoor temperature after opening floor heating, waste substantial amounts of resource.

Utility model content

The purpose of this utility model is to provide a kind of graphene floor heating ceramic tile, can effectively reduce thermal loss, and add The change of fast indoor temperature, reduces the waste of resource.

To realize the utility model purpose, using following technical scheme, a kind of graphene floor heating ceramic tile includes bottom brick and top Brick, bottom brick are provided with resistive heater groove and power slot with dome brick, and power slot is arranged at graphene floor heating tiles side center, added Hot water radiation wire groove is using " mouth " character form structure for being provided with opening, and aperture position link power supply groove, resistive heater, which is arranged at, to be added In hot water radiation wire groove, bottom brick power slot and resistive heater groove lower end are provided with a thermal insulation board for running through whole bottom brick, in dome brick Be provided with graphene heat-conductive bridges, described graphene heat-conductive bridges include close to dome brick top heat conduction bridge floor and 4 respectively close to The heat conduction bridge pier at the both ends of both sides resistive heater, heat conduction bridge pier link together with heat conduction bridge floor, heat conduction bridge pier and heat-conductive bridges Face is formed using carrier surface composite graphite alkene.

Further, the dome brick surface area of the heat conduction bridge floor area of 70% dome brick surface area≤described≤90%.

Further, described heat-conductive bridges identity distance is from 0.6~1.5cm of dome brick surface.

Further, described thermal insulation board is apart from bottom brick power slot and 0.4~0.8cm of resistive heater trench bottom.

Further, described carrier is metal.

Preferably, described carrier is copper.

Graphene heat conduction brick described in the utility model, thermal insulation board is provided with bottom brick, can be effectively heat-insulated, reduces heat It is lost in from bottom brick, while coordinates the graphene heat-conductive bridges for being compounded with graphene top layer, heat can be made to be delivered to floor heating tiles rapidly Surface, indoor temperature can be lifted rapidly, so as to reduce the waste of resource.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the structural representation of the utility model bottom brick combination resistive heater；

Fig. 3 is schematic cross-section of the utility model from " A-A ".

Embodiment

The utility model is described in further detail below by specific examples of the implementation and with reference to accompanying drawing.

Embodiment 1：A kind of graphene floor heating ceramic tile includes bottom brick 2 and dome brick 1, and bottom brick 2 is provided with heating electricity with dome brick 1 Silk groove and power slot 5 are hindered, power slot 5 is arranged at graphene floor heating tiles side center, and resistive heater groove uses and is provided with opening " mouth " character form structure, aperture position link power supply groove 5, resistive heater 3 is arranged in resistive heater groove, bottom brick power slot 5 are provided with a thermal insulation board 201 for running through whole bottom brick with resistive heater groove lower end, and graphene heat-conductive bridges are provided with dome brick 1 4, described graphene heat-conductive bridges 4 are included close to the heat conduction bridge floor 401 on dome brick top and 4 respectively close to both sides resistive heater The heat conduction bridge pier 402 at 3 both ends, heat conduction bridge pier 402 link together with heat conduction bridge floor 401, heat conduction bridge pier 402 and heat conduction bridge floor 401 are formed using carrier surface composite graphite alkene, the area of the heat conduction bridge floor 401=surface area of 80% dome brick 1, the distance of heat conduction bridge floor 401 The surface 1cm of dome brick 1, described thermal insulation board 201 is apart from bottom brick power slot 5 and resistive heater trench bottom 0.6cm, described carrier For copper.

Embodiment 2：A kind of graphene floor heating ceramic tile includes bottom brick 2 and dome brick 1, and bottom brick 2 is provided with heating electricity with dome brick 1 Silk groove and power slot 5 are hindered, power slot 5 is arranged at graphene floor heating tiles side center, and resistive heater groove uses and is provided with opening " mouth " character form structure, aperture position link power supply groove 5, resistive heater 3 is arranged in resistive heater groove, bottom brick power slot 5 are provided with a thermal insulation board 201 for running through whole bottom brick with resistive heater groove lower end, and graphene heat-conductive bridges are provided with dome brick 1 4, described graphene heat-conductive bridges 4 are included close to the heat conduction bridge floor 401 on dome brick top and 4 respectively close to both sides resistive heater The heat conduction bridge pier 402 at 3 both ends, heat conduction bridge pier 402 link together with heat conduction bridge floor 401, heat conduction bridge pier 402 and heat conduction bridge floor 401 are formed using carrier surface composite graphite alkene, the area of the heat conduction bridge floor 401=surface area of 70% dome brick 1, the distance of heat conduction bridge floor 401 The surface 0.6cm of dome brick 1, described thermal insulation board 201 is apart from bottom brick power slot 5 and resistive heater trench bottom 0.4cm, described load Body is metal.

Embodiment 3：A kind of graphene floor heating ceramic tile includes bottom brick 2 and dome brick 1, and bottom brick 2 is provided with heating electricity with dome brick 1 Silk groove and power slot 5 are hindered, power slot 5 is arranged at graphene floor heating tiles side center, and resistive heater groove uses and is provided with opening " mouth " character form structure, aperture position link power supply groove 5, resistive heater 3 is arranged in resistive heater groove, bottom brick power slot 5 are provided with a thermal insulation board 201 for running through whole bottom brick with resistive heater groove lower end, and graphene heat-conductive bridges are provided with dome brick 1 4, described graphene heat-conductive bridges 4 are included close to the heat conduction bridge floor 401 on dome brick top and 4 respectively close to both sides resistive heater The heat conduction bridge pier 402 at 3 both ends, heat conduction bridge pier 402 link together with heat conduction bridge floor 401, heat conduction bridge pier 402 and heat conduction bridge floor 401 are formed using carrier surface composite graphite alkene, the area of the heat conduction bridge floor 401=surface area of 90% dome brick 1, the distance of heat conduction bridge floor 401 The surface 1.5cm of dome brick 1, described thermal insulation board 201 is apart from bottom brick power slot 5 and resistive heater trench bottom 0.8cm.

Preferred embodiment of the present utility model is the foregoing is only, is not limited to the utility model, for this For the technical staff in field, there can be various modifications and variations in the spirit and principles of the utility model, these are equivalent Modification or replacement etc., are all contained within the scope of protection of the utility model.

Claims (6)

1. a kind of graphene floor heating ceramic tile, including bottom brick and dome brick, bottom brick is provided with resistive heater groove and power supply with dome brick Groove, it is characterised in that：Power slot is arranged at graphene floor heating tiles side center, and resistive heater groove uses and is provided with opening " mouth " character form structure, aperture position link power supply groove, resistive heater are arranged in resistive heater groove, and bottom brick power slot is with adding Hot water radiation wire groove lower end is provided with a thermal insulation board for running through whole bottom brick, and graphene heat-conductive bridges, described stone are provided with dome brick Black alkene heat-conductive bridges are included close to the heat conduction bridge floor on dome brick top and the heat-conductive bridges at 4 both ends respectively close to both sides resistive heater Pier, heat conduction bridge pier are linked together with heat conduction bridge floor, and heat conduction bridge pier is formed with heat conduction bridge floor using carrier surface composite graphite alkene.

A kind of 2. graphene floor heating ceramic tile according to claim 1, it is characterised in that：70% dome brick surface area≤described The dome brick surface area of heat conduction bridge floor area≤90%.

A kind of 3. graphene floor heating ceramic tile according to claim 1 or 2, it is characterised in that：Described heat-conductive bridges identity distance from 0.6~1.5cm of dome brick surface.

A kind of 4. graphene floor heating ceramic tile according to claim 1, it is characterised in that：Described thermal insulation board is apart from bottom brick electricity Source slot and 0.4~0.8cm of resistive heater trench bottom.

A kind of 5. graphene floor heating ceramic tile according to claim 1, it is characterised in that：Described carrier is metal.

A kind of 6. graphene floor heating ceramic tile according to claim 5, it is characterised in that：Described carrier is copper.