CN111910879A - Graphite alkene electricity warms up ceramic tile - Google Patents

Abstract

The invention discloses a graphene electric heating ceramic tile, which comprises a wear-resistant layer, a decorative layer, an insulating layer, a graphene electric heating layer, a base material and a balance layer, wherein the heating ring frame is heated after being electrified, an inner ring groove in the heating ring frame can quickly distribute heat of the heating ring frame, the inner part of the building frame is mutually supported by a supporting inclined plate and a supporting short plate, an inner cavity is formed in the building frame, the weight of the whole building frame is reduced, the balance pad slightly deforms along with the flatness of the ground, the balance pad moves upwards with a connecting column, a polyurethane balance pad is compressed, a semi-wrapping frame is always kept in a flat state, and the semi-wrapping frame is adhered to the building frame through an adhesion layer, only the damaged part needs to be replaced, and the maintenance is simple and convenient.

Description

Graphite alkene electricity warms up ceramic tile

Technical Field

The invention relates to the technical field of electric heating tiles, in particular to a graphene electric heating tile.

Background

The current heating modes in China mainly comprise: central heating, radiator heating, geothermal floor heating, central air-conditioning heating, household wall-hanging gas heating, electric heating film heating and the like. The central heating, the radiator heating and the geothermal floor heating are heating modes which are massively adopted in cities, and have the advantages of mature technology, safe and convenient use, all-weather heating and relatively low cost.

Just can adopt warm ceramic tile of electricity to heat when geothermal floor heating, warm ceramic tile of electricity is heated by the ceramic tile that becomes again, and the ceramic tile that generates heat is that traditional ceramic tile can oneself send the heat through using certain technique, generally is used for ground heating. The heating ceramic tile traces back to the ancient times of China as a green brick used in flue type heating of the Ming dynasty royal palace, and the traditional water heating electric heater and the ceramic tile additionally paved on the ground are passively heated. The passive heating mode has the defects that cement needs to be paved on the heating material, and a large amount of heat energy of the floor is lost.

Present warm ceramic tile of electricity discovers in the use, and warm ceramic tile of electricity on the market installation is comparatively complicated at present to when using, the floor is inside to generate heat slower, and the effect of generating heat is not good, and power consumption is higher, and when breaking down or damaging, need all demolish the maintenance with the ceramic tile in the region, very loaded down with trivial details.

Disclosure of Invention

The invention aims to provide a graphene electric heating ceramic tile, wherein a wear-resistant layer protects a lower decorative layer, the wear-resistant layer provides different protection effects according to different material ratios of the wear-resistant layer, a heating ring frame generates heat after being electrified, an inner ring groove in the heating ring frame can more quickly distribute the heat of the heating ring frame, the inner part of the building frame is mutually supported by a supporting inclined plate and a supporting short plate, an inner cavity is formed in the building frame, the weight of the whole building frame is reduced, when a balance pad is in contact with the ground, the balance pad slightly deforms along with the flatness of the ground, when the ground has larger undulation, the balance pad and a connecting column move upwards, a polyurethane balance pad is compressed, so that a semi-wrapping frame is kept in a flat state, and the semi-wrapping frame is adhered to the building frame through an adhesive layer, and the structure can realize convenient installation, the inside generates heat fast, and the heat conduction is respond well, greatly reduced power consumption, when taking place to damage, only need to change the damage position simultaneously, it is simple and convenient to maintain to solve the problem that proposes among the above-mentioned background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an electrically warmed ceramic tile of graphite alkene, includes wearing layer, decorative layer, insulating layer, graphite alkene electricity layer, substrate and the balanced layer of generating heat, the below of wearing layer is equipped with the decorative layer, the below of decorative layer is equipped with the insulating layer, the below of insulating layer is equipped with graphite alkene electricity layer of generating heat, the below on graphite alkene electricity layer of generating heat is equipped with the substrate, the below of substrate is equipped with the balanced layer, the bottom and the ground of balanced layer contact.

Preferably, the wear resistant layer consists of the following components: 70-80 parts of ceramic chip aggregate, 7-10 parts of cryolite, 5-8 parts of kaolin, 3-6 parts of silicone oil, 1-3 parts of thickening agent, 1-3 parts of cosolvent and 1-3 parts of binder.

Preferably, the insulating layer is composed of the following components: 100 parts of vinyl silicone rubber, 40 parts of precipitated white carbon black, 3 parts of dicumyl peroxide, 1 part of antioxidant, 60 parts of silane coupling agent, 8 parts of hydrated alumina particles and 5 parts of hydrated magnesium oxide particles.

Preferably, the graphene electric heating layer comprises a heating ring frame and an inner ring groove, and the inner ring groove is formed in the heating ring frame.

Preferably, the substrate is including putting up frame, inner chamber, support swash plate and support short slab, the inner chamber has been seted up to the inside of putting up the frame, be equipped with the support swash plate in the inner chamber, the top and the bottom of supporting the swash plate all with the inner wall fixed connection who puts up the frame, one side of supporting the swash plate is equipped with the support short slab, the both ends of supporting the short slab all with different support fixed connection between the swash plate.

Preferably, the balance layer comprises a half-wrapping frame, an adhesion layer, side wrapping plates and balance columns, the adhesion layer is arranged at the top end of the half-wrapping frame, the side wrapping plates are fixedly connected to the two sides of the half-wrapping frame, and the balance columns are arranged between the side wrapping plates.

Preferably, the balancing column includes balanced pad, spliced pole, underframe and balanced pad of carriage, balance plate, polyurethane, the inside of carriage is equipped with the balance plate, the top fixed mounting of balance plate has the balanced pad of polyurethane, the top fixed mounting of the balanced pad of polyurethane is on the inner wall of carriage, the bottom fixedly connected with spliced pole of balance plate, the bottom fixedly connected with underframe of spliced pole, the bottom fixedly connected with balanced pad of underframe.

Compared with the prior art, the invention has the beneficial effects that: according to the graphene electric heating ceramic tile, the wear-resistant layer protects the lower decorative layer, the wear-resistant layer provides different protection effects according to different material ratios of the wear-resistant layer, the heating ring frame generates heat after being electrified, the inner ring groove in the heating ring frame can more quickly dissipate the heat of the heating ring frame, the built frame is mutually supported by the supporting inclined plate and the supporting short plate, the built frame is internally provided with an inner cavity, the weight of the whole built frame is reduced, when the balance pad is in contact with the ground, the balance pad slightly deforms along with the flatness of the ground, when the ground surface fluctuates greatly, the balance pad is connected with the connecting column to move upwards, the polyurethane balance pad is compressed, the semi-wrapped frame is kept in a flat state all the time, and the semi-wrapped frame is adhered to the built frame through the adhesion layer, so that the structure can be conveniently installed, and the interior generates heat quickly, the heat conduction effect is good, power consumption is greatly reduced, and meanwhile, when damage occurs, only the damaged part needs to be replaced, and the maintenance is simple and convenient.

Drawings

FIG. 1 is a side view of the present invention;

FIG. 2 is a schematic structural diagram of a graphene electrothermal layer according to the present invention;

FIG. 3 is a cross-sectional view of a substrate of the present invention;

FIG. 4 is an enlarged view taken at A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic structural diagram of a balancing layer according to the present invention;

FIG. 6 is a schematic structural diagram of a balancing column according to the present invention.

In the figure: 1. a wear layer; 2. a decorative layer; 3. an insulating layer; 4. a graphene electrothermal layer; 41. a heating coil frame; 42. an inner ring groove; 5. a substrate; 51. building a frame; 52. an inner cavity; 53. supporting the inclined plate; 54. supporting the short plate; 6. a balancing layer; 61. a semi-parcel frame; 62. an adhesion layer; 63. a side wrap panel; 64. a balancing column; 641. a connecting frame; 642. a balance plate; 643. a polyurethane balance pad; 644. connecting columns; 645. a bottom frame; 646. a balance pad.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-2, a graphene electric heating tile includes a wear-resistant layer 1, a decoration layer 2, an insulation layer 3, a graphene electric heating layer 4, a substrate 5 and a balance layer 6, wherein the wear-resistant layer 1 is composed of the following components: 70 parts of ceramic chip aggregate, 7 parts of cryolite, 5 parts of kaolin, 3 parts of silicone oil, 1 part of thickener, 1 part of cosolvent and 1 part of binder, wherein a decorative layer 2 is arranged below the wear-resistant layer 1, an insulating layer 3 is arranged below the decorative layer 2, and the insulating layer 3 consists of the following components: 100 parts of vinyl silicone rubber, 40 parts of precipitated white carbon black, 3 parts of dicumyl peroxide, 1 part of antioxidant, 60 parts of silane coupling agent, 8 parts of hydrated alumina particles and 5 parts of hydrated magnesium oxide particles, a graphene electric heating layer 4 is arranged below an insulating layer 3, the graphene electric heating layer 4 comprises a heating coil frame 41 and an inner ring groove 42, the inner ring groove 42 is arranged inside the heating coil frame 41, the heating coil frame 41 is powered on to generate heat, the inner ring groove 42 inside the heating coil frame 41 can rapidly dissipate the heat of the heating coil frame 41, a base material 5 is arranged below the graphene electric heating layer 4, a balance layer 6 is arranged below the base material 5, and the bottom end of the balance layer 6 is in contact with the ground.

Referring to fig. 3-4, the base material 5 includes a building frame 51, an inner cavity 52, a supporting inclined plate 53 and a supporting short plate 54, the inner cavity 52 is formed inside the building frame 51, the supporting inclined plate 53 is arranged in the inner cavity 52, the top end and the bottom end of the supporting inclined plate 53 are fixedly connected with the inner wall of the building frame 51, the supporting short plate 54 is arranged on one side of the supporting inclined plate 53, the two ends of the supporting short plate 54 are fixedly connected with different supporting inclined plates 53, the building frame 51 is supported by the supporting inclined plate 53 and the supporting short plate 54, the inner cavity 52 is formed inside the building frame 51, and the overall weight of the building frame 51 is reduced.

Referring to fig. 5-6, the balance layer 6 includes a half-wrapping frame 61, an adhesion layer 62, side wrapping plates 63 and balance posts 64, the adhesion layer 62 is disposed on the top end of the half-wrapping frame 61, the side wrapping plates 63 are fixedly connected to both sides of the half-wrapping frame 61, the balance posts 64 are disposed between the two side wrapping plates 63, each balance post 64 includes a connection frame 641, a balance plate 642, a polyurethane balance pad 643, a connection post 644, a bottom frame 645 and a balance pad 646, the balance plate 642 is disposed inside the connection frame 641, the polyurethane balance pad 643 is fixedly mounted on the top end of the balance plate 642, the polyurethane balance pad 643 has dual functions of elasticity and heat preservation, the top end of the polyurethane balance pad 643 is fixedly mounted on the inner wall of the connection frame 641, the connection post 644 is fixedly connected to the bottom end of the balance plate 642, the bottom frame 645 is fixedly connected to the bottom end of the connection post 644, the balance pad 646 is fixedly connected to the bottom end of the bottom frame 645, and, slight deformation takes place along with the roughness of ground for balanced pad 646, and when ground undulation is great, balanced pad 646 is connected spliced pole 644 upward movement, and polyurethane balanced pad 643 takes place the compression, makes half parcel frame 61 keep the state of leveling all the time, and half parcel frame 61 passes through adhesion layer 62 adhesion and builds on frame 51.

Example two:

referring to fig. 1-2, a graphene electric heating tile includes a wear-resistant layer 1, a decoration layer 2, an insulation layer 3, a graphene electric heating layer 4, a substrate 5 and a balance layer 6, wherein the wear-resistant layer 1 is composed of the following components: the ceramic plate comprises 80 parts of ceramic plate aggregate, 10 parts of cryolite, 8 parts of kaolin, 6 parts of silicone oil, 3 parts of thickening agent, 3 parts of cosolvent and 3 parts of binder, wherein a decorative layer 2 is arranged below a wear-resistant layer 1, an insulating layer 3 is arranged below the decorative layer 2, and the insulating layer 3 consists of the following components: 100 parts of vinyl silicone rubber, 40 parts of precipitated white carbon black, 3 parts of dicumyl peroxide, 1 part of antioxidant, 60 parts of silane coupling agent, 8 parts of hydrated alumina particles and 5 parts of hydrated magnesium oxide particles, a graphene electric heating layer 4 is arranged below an insulating layer 3, the graphene electric heating layer 4 comprises a heating coil frame 41 and an inner ring groove 42, the inner ring groove 42 is arranged inside the heating coil frame 41, the heating coil frame 41 is powered on to generate heat, the inner ring groove 42 inside the heating coil frame 41 can rapidly dissipate the heat of the heating coil frame 41, a base material 5 is arranged below the graphene electric heating layer 4, a balance layer 6 is arranged below the base material 5, and the bottom end of the balance layer 6 is in contact with the ground.

Referring to fig. 3-4, the base material 5 includes a building frame 51, an inner cavity 52, a supporting inclined plate 53 and a supporting short plate 54, the inner cavity 52 is formed inside the building frame 51, the supporting inclined plate 53 is arranged in the inner cavity 52, the top end and the bottom end of the supporting inclined plate 53 are fixedly connected with the inner wall of the building frame 51, the supporting short plate 54 is arranged on one side of the supporting inclined plate 53, the two ends of the supporting short plate 54 are fixedly connected with different supporting inclined plates 53, the building frame 51 is supported by the supporting inclined plate 53 and the supporting short plate 54, the inner cavity 52 is formed inside the building frame 51, and the overall weight of the building frame 51 is reduced.

Referring to fig. 5-6, the balance layer 6 includes a half-wrapping frame 61, an adhesion layer 62, side wrapping plates 63 and balance posts 64, the adhesion layer 62 is disposed on the top end of the half-wrapping frame 61, the side wrapping plates 63 are fixedly connected to both sides of the half-wrapping frame 61, the balance posts 64 are disposed between the two side wrapping plates 63, each balance post 64 includes a connection frame 641, a balance plate 642, a polyurethane balance pad 643, a connection post 644, a bottom frame 645 and a balance pad 646, the balance plate 642 is disposed inside the connection frame 641, the polyurethane balance pad 643 is fixedly mounted on the top end of the balance plate 642, the polyurethane balance pad 643 has dual functions of elasticity and heat preservation, the top end of the polyurethane balance pad 643 is fixedly mounted on the inner wall of the connection frame 641, the connection post 644 is fixedly connected to the bottom end of the balance plate 642, the bottom frame 645 is fixedly connected to the bottom end of the connection post 644, the balance pad 646 is fixedly connected to the bottom end of the bottom frame 645, and, slight deformation takes place along with the roughness of ground for balanced pad 646, and when ground undulation is great, balanced pad 646 is connected spliced pole 644 upward movement, and polyurethane balanced pad 643 takes place the compression, makes half parcel frame 61 keep the state of leveling all the time, and half parcel frame 61 passes through adhesion layer 62 adhesion and builds on frame 51.

The working principle of the invention is as follows: wearing layer 1 protects the decorative layer 2 of lower floor, different according to wearing layer 1 material ratio, wearing layer 1 provides different safeguard effects, the circle frame 41 that generates heat realizes generating heat after the circular telegram, the inside inner circle groove 42 of circle frame 41 that generates heat can distribute away the heat of circle frame 41 faster, the inside of building frame 51 is supported each other with supporting short slab 54 by supporting swash plate 53, build frame 51 simultaneously and make inside inner chamber 52 of having seted up, reduce and build the holistic weight of frame 51, balanced pad 646 is when contacting each other with ground, slight deformation takes place along with the roughness on ground for balanced pad 646, when ground undulation is great, balanced pad 646 takes the spliced pole 644 upward movement, polyurethane balanced pad 643 takes place the compression, make half parcel frame 61 remain the smooth state throughout, half parcel frame 61 passes through the adhesion layer 62 adhesion and is building on frame 51.

In summary, the following steps: the wear-resistant layer 1 protects the lower decorative layer 2, the wear-resistant layer 1 provides different protection effects according to different material proportions of the wear-resistant layer 1, the heating ring frame 41 generates heat after being electrified, the inner ring groove 42 in the heating ring frame 41 can quickly distribute the heat of the heating ring frame 41, the built frame 51 is mutually supported by the supporting inclined plate 53 and the supporting short plate 54, the built frame 51 is internally provided with the inner cavity 52, the overall weight of the built frame 51 is reduced, when the balance pad 646 is in mutual contact with the ground, the balance pad 646 slightly deforms along with the flatness of the ground, when the ground has larger fluctuation, the balance pad 646 is upwards moved together with the connecting column 644, the polyurethane balance pad 643 is compressed, the half-wrapped frame 61 is always kept in a flat state, the half-wrapped frame 61 is adhered to the built frame 51 through the adhesion layer 62, and the structure can realize convenient installation, the interior generates heat fast, and the heat conduction is respond well, greatly reduced power consumption, when taking place to damage, only need change the maintenance simple and convenient to damage the position simultaneously.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (7)

1. The utility model provides an electrically warmed ceramic tile of graphite alkene, includes wearing layer (1), decorative layer (2), insulating layer (3), graphite alkene electricity generate heat layer (4), substrate (5) and balance layer (6), its characterized in that, the below of wearing layer (1) is equipped with decorative layer (2), the below of decorative layer (2) is equipped with insulating layer (3), the below of insulating layer (3) is equipped with graphite alkene electricity generate heat layer (4), the below of graphite alkene electricity generate heat layer (4) is equipped with substrate (5), the below of substrate (5) is equipped with balance layer (6), the bottom and the ground of balance layer (6) contact.

2. The graphene electric heating tile according to claim 1, wherein the wear resistant layer (1) consists of the following components: 70-80 parts of ceramic chip aggregate, 7-10 parts of cryolite, 5-8 parts of kaolin, 3-6 parts of silicone oil, 1-3 parts of thickening agent, 1-3 parts of cosolvent and 1-3 parts of binder.

3. The graphene electric heating tile according to claim 1, wherein the insulating layer (3) is composed of the following components: 100 parts of vinyl silicone rubber, 40 parts of precipitated white carbon black, 3 parts of dicumyl peroxide, 1 part of antioxidant, 60 parts of silane coupling agent, 8 parts of hydrated alumina particles and 5 parts of hydrated magnesium oxide particles.

4. The graphene electric heating tile according to claim 1, wherein the graphene electric heating layer (4) comprises a heating ring frame (41) and an inner ring groove (42), and the inner ring groove (42) is arranged inside the heating ring frame (41).

5. The graphene electric heating tile according to claim 1, wherein the base material (5) comprises a building frame (51), an inner cavity (52), a supporting inclined plate (53) and a supporting short plate (54), the inner cavity (52) is formed in the building frame (51), the supporting inclined plate (53) is arranged in the inner cavity (52), the top end and the bottom end of the supporting inclined plate (53) are fixedly connected with the inner wall of the building frame (51), the supporting short plate (54) is arranged on one side of the supporting inclined plate (53), and two ends of the supporting short plate (54) are fixedly connected with different supporting inclined plates (53).

6. The graphene electric-heating ceramic tile according to claim 1, wherein the balance layer (6) comprises a half-wrapping frame (61), an adhesion layer (62), side-wrapping plates (63) and balance columns (64), the adhesion layer (62) is arranged at the top end of the half-wrapping frame (61), the side-wrapping plates (63) are fixedly connected to two sides of the half-wrapping frame (61), and the balance columns (64) are arranged between the two side-wrapping plates (63).

7. The graphene electric heating tile according to claim 6, wherein the balance post (64) comprises a connecting frame (641), a balance plate (642), a polyurethane balance pad (643), a connecting post (644), a bottom frame (645) and a balance pad (646), the balance plate (642) is arranged inside the connecting frame (641), the polyurethane balance pad (643) is fixedly installed at the top end of the balance plate (642), the top end of the polyurethane balance pad (643) is fixedly installed on the inner wall of the connecting frame (641), the connecting post (644) is fixedly connected to the bottom end of the balance plate (642), the bottom frame (645) is fixedly connected to the bottom end of the connecting post (644), and the balance pad (646) is fixedly connected to the bottom end of the bottom frame (645).

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