CN211058197U - Heating ceramic tile - Google Patents

Abstract

A heating ceramic tile comprises a ceramic tile layer, a heating layer and a heat-insulating layer; the tile layer, the heating layer and the heat insulation layer are sequentially laminated from top to bottom; the side wall of the heat preservation layer is provided with a groove, a clamping piece is arranged in the groove, and the clamping piece protrudes out of the side wall. The utility model provides a ceramic tile generates heat according to above-mentioned content, can effectively reduce the heat preservation and be heated for a long time and lead to the degree of its border perk to can guarantee that the whole of ceramic tile generates heat can not take place deformation in the use, simultaneously, the whole frivolous practicality of ceramic tile generates heat.

Description

Heating ceramic tile

Technical Field

The utility model relates to a ceramic tile technical field generates heat, especially relates to a ceramic tile generates heat.

Background

Traditional ceramic tile that generates heat is in the use, because the heat preservation is heated for a long time, can lead to the border perk of heat preservation to because traditional ceramic tile that generates heat is when spreading the subsides, every ceramic tile that generates heat is all spread the subsides relatively independently, consequently, do not have the structure restriction between the ceramic tile that generates heat because the heat preservation is heated for a long time and the heat preservation border perk that leads to, thereby can lead to the overall structure discovery deformation of ceramic tile that generates heat, not the use of using.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heating ceramic tile, can effectively reduce the heat preservation and be heated for a long time and lead to the degree of its border perk to can guarantee that heating ceramic tile's whole can not take place deformation in the use, simultaneously, heating ceramic tile is whole frivolous practical.

To achieve the purpose, the utility model adopts the following technical proposal:

a heating ceramic tile comprises a ceramic tile layer, a heating layer and a heat-insulating layer; the tile layer, the heating layer and the heat insulation layer are sequentially laminated from top to bottom;

the side wall of the heat preservation layer is provided with a groove, a clamping piece is arranged in the groove, and the clamping piece protrudes out of the side wall.

Further, the groove is a long strip-shaped groove, the groove extends from one end of the side wall of the heat insulation layer to the other end of the side wall of the heat insulation layer, and the clamping piece can horizontally move in the groove.

Further, the length of the groove is larger than that of the clamping piece.

Further, the number of the clamping pieces in each groove is at least two.

Furthermore, the bottom of the tile layer is bonded to the top of the heating layer, and the bottom of the heating layer is bonded to the top of the heat insulation layer.

Further, the ratio of the thickness of the clamping piece to the thickness of the heat-insulating layer is (1-1.5): (3-5).

Further, the groove is centrally disposed in the sidewall.

Further, the heating layer is a heating film.

Further, the heating film is a carbon fiber heating film.

Further, the heat-insulating layer is a polyurethane heat-insulating layer.

The utility model provides a ceramic tile generates heat according to above-mentioned content, can reduce the heat preservation and be heated for a long time and lead to the degree of its border perk to can guarantee that the whole of ceramic tile generates heat can not take place deformation in the use, simultaneously, the whole frivolous practicality of ceramic tile generates heat.

The utility model provides a pair of heating ceramic tile in the use, the layer that generates heat, can be extremely heat transfer the ceramic tile layer makes the ceramic tile layer generates heat, and, the heat preservation has the heat preservation effect, reduces as far as possible thermal loss when the layer that generates heat.

Because the lateral wall of heat preservation is provided with the recess, and be provided with the fastener in the recess, so, work as the utility model discloses a ceramic tile that generates heat when paving, because fastener protrusion in the lateral wall, it is adjacent the heat preservation of ceramic tile that generates heat can pass through the fastener joint together, that is to say, a part of fastener is located the recess of the heat preservation of one of them ceramic tile that generates heat, and the convex part of fastener inserts to the recess of the heat preservation of adjacent ceramic tile that generates heat in, like this, adjacent ceramic tile that generates heat can be a whole after paving, even the heat preservation is heated for a long time, nevertheless under the restriction of fastener, the degree of heat preservation perk can greatly reduced to can guarantee that the whole of ceramic tile that generates heat can not take place to influence its deformation of normal use.

And because the recess has been seted up to the heat preservation lateral wall, can alleviate the weight of heat preservation to can alleviate on the whole the utility model discloses a weight of the ceramic tile that generates heat makes it light practical more.

Drawings

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

FIG. 2 is a schematic structural view of an insulation layer according to an embodiment of the present invention;

fig. 3 is a schematic structural view of the adjacent heat-insulating layer passing through the clamping piece when two heating tiles are paved according to one embodiment of the present invention.

Wherein: tile layer 1, heating layer 2, heat preservation layer 3, lateral wall 31, recess 311, fastener 3111, lateral wall 31.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1-3, a heating ceramic tile comprises a ceramic tile layer 1, a heating layer 2 and an insulating layer 3; the tile layer 1, the heating layer 2 and the heat-insulating layer 3 are sequentially laminated from top to bottom;

the side wall 31 of the heat preservation layer 3 is provided with a groove 311, a clamping piece 3111 is arranged in the groove 311, and the clamping piece 3111 protrudes out of the side wall 31.

The utility model provides a pair of heating ceramic tile in the use, layer 2 generates heat, can be extremely heat transfer 1 makes on the ceramic tile layer generates heat, and, heat preservation 3 has the heat preservation effect, reduces as far as possible thermal loss when layer 2 generates heat.

As shown in fig. 2, because the lateral wall 31 of the heat preservation layer 3 is provided with the groove 311, and be provided with the fastener 3111 in the groove 311, then, when the utility model discloses a heating tile is paving, because the fastener 3111 protrudes in the lateral wall 31, it is adjacent heating tile's heat preservation layer 3 can be in the same place through the fastener 3111 joint, that is to say, a part of fastener 3111 is located the groove 311 of one of them heating tile's heat preservation layer 3, and the protruding part of fastener 3111 is inserted to the adjacent heating tile's groove 311 of heat preservation layer 3, like this, adjacent heating tile can be a whole after paving, even if heat preservation layer 3 is heated for a long time, nevertheless under the restriction of fastener 3111, the degree that heat preservation layer 3 perk can greatly reduced to can guarantee that heating tile's whole can not take place the deformation that influences its normal use.

It should be noted that, the side wall 31 of the insulating layer 3 is provided with the groove 311, which means that any side wall 31 of the insulating layer 3 can be provided with the groove 311 according to actual conditions; for example, if the position of laying one of the heat-generating tiles is exactly at the corner position, the two side walls 31 of the heat-generating tile are attached to the corner surface, so that the heat-generating tile only needs to be provided with the grooves 311 on the two adjacent side walls 31; for example, if the paving position of another heating tile is not close to a wall and does not need to be adhered to the wall surface, then the four side walls 31 of the heating tile are all required to be provided with the grooves 311, and the rest of the conditions for providing the side walls 31 are not described herein.

And because recess 311 has been seted up to heat preservation 3 lateral wall 31, can alleviate the weight of heat preservation 3 to can alleviate on the whole the utility model discloses a weight of the ceramic tile that generates heat makes it light more practical.

Further, the groove 311 is a long-strip-shaped groove, the groove 311 extends from one end of the side wall 31 of the insulating layer 3 to the other end thereof, the card 3111 can horizontally move along the groove 31, and the length of the groove 311 is greater than that of the card 3111.

Considering the problem that need dismantle the change ceramic tile that generates heat in the heat preservation 3 will recess 311 is the groove of rectangular shape, will recess 311 sets to follow the one end of the lateral wall 31 of heat preservation 3 extends to its other end, makes fastener 3111 can follow carry out unimpeded horizontal migration in the recess 31.

And, because the length of recess 311 is far greater than the length of fastener 3111, in this embodiment, a recess 311 can hold a plurality of fasteners 3111, consequently, when a certain heating tile was dismantled to needs, can with fastener 3111 horizontal migration to adjacent heating tile's the recess 31 of the heat preservation 3, like this, because fastener 3111 has shifted out the heat preservation 3 of the heating tile that needs to dismantle at present, can stretch into the recess 31 to the heat preservation 3 that needs to dismantle at present with extracting tool, utilize the roof of recess 31 to hook up heat preservation 3 in the same direction as the trend, thereby can dismantle monoblock heating tile, thereby can enough conveniently dismantle the heating tile that needs to dismantle at present, can not destroy the structure of other heating tiles that need not dismantle again.

Further, the number of the snaps 3111 in each of the recesses 311 is at least two.

By arranging at least two clamping pieces 3111, the heat-insulating layers 3 of the adjacent heating ceramic tiles can be clamped together through the clamping pieces 3111.

Further, the bottom of the tile layer 1 is bonded to the top of the heating layer 2, and the bottom of the heating layer 2 is bonded to the top of the heat-insulating layer 3.

The ceramic tile layer 1, the heating layer 2 and the heat preservation layer 3 are bonded together through the adhesive, and the ceramic tile layer 1, the heating layer 2 and the heat preservation layer 3 can be a whole in a bonding mode, so that subsequent use is facilitated.

Further, the ratio of the thickness of the clamping piece 3111 to the thickness of the heat-insulating layer 3 is (1-1.5): (3-5).

The engaging pieces 3111 within this thickness ratio range can effectively engage the heat insulating layers 3 of the adjacent heat generating tiles together through the engaging pieces 3111.

Further, the groove 311 is centrally disposed on the sidewall 31, so that the position of the insulating layer 3 where the groove 311 is disposed has sufficient structural strength.

Further, the heating layer 2 is a heating film.

The heating film can be a planar heating element formed by an electric insulating material and a heating resistance material packaged in the electric insulating material in the prior art, converts electric energy into heat energy during working, and transmits the heat energy outwards mainly in a radiation mode.

Further, this embodiment the heating film is carbon fiber heating film, and its heat conduction is fast, long service life, and electric energy conversion efficiency is high, and heat energy loss is little, more does benefit to the use.

Further, the heat preservation 3 of this embodiment is the polyurethane heat preservation, and it has good heat-proof quality, and consequently, it can keep warm effectually, reaches under the same heat preservation requirement, can make the structural thickness who reduces heat preservation 3, thereby makes the ceramic tile that generates heat is whole more light.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. A heating ceramic tile is characterized in that: comprises a ceramic tile layer, a heating layer and a heat-insulating layer; the tile layer, the heating layer and the heat insulation layer are sequentially laminated from top to bottom;

the side wall of the heat preservation layer is provided with a groove, a clamping piece is arranged in the groove, and the clamping piece protrudes out of the side wall.

2. A heating tile according to claim 1, wherein: the groove is a strip-shaped groove, the groove extends from one end of the side wall of the heat insulation layer to the other end of the side wall of the heat insulation layer, and the clamping piece can horizontally move in the groove.

3. A heat-generating tile as claimed in claim 2, wherein: the length of the groove is larger than that of the clamping piece.

4. A heat-generating tile as claimed in claim 3, wherein: the number of the clamping pieces in each groove is at least two.

5. A heating tile according to claim 1, wherein: the bottom of the tile layer is bonded to the top of the heating layer, and the bottom of the heating layer is bonded to the top of the heat insulation layer.

6. A heating tile according to claim 1, wherein: the ratio of the thickness of the clamping piece to the thickness of the heat-insulating layer is (1-2): (3-5).

7. A heating tile according to claim 1, wherein: the groove is centrally disposed in the sidewall.

8. A heating tile according to claim 1, wherein: the heating layer is a heating film.

9. A heat-generating tile as set forth in claim 8, wherein: the heating film is a carbon fiber heating film.

10. A heating tile according to claim 1, wherein: the heat-insulating layer is a polyurethane heat-insulating layer.

Images