CN212053556U

CN212053556U - Compound light energy-saving heat-insulating ceramic tile

Info

Publication number: CN212053556U
Application number: CN201821840836.2U
Authority: CN
Inventors: 尚小忠
Original assignee: Jiangxi Jinxuan Enterprise Consulting Group Co ltd
Current assignee: Jiangxi Jinxuan Enterprise Consulting Group Co ltd
Priority date: 2018-11-08
Filing date: 2018-11-08
Publication date: 2020-12-01
Anticipated expiration: 2028-11-08

Abstract

The utility model discloses a composite light energy-saving heat-insulating ceramic tile, which belongs to the technical field of ceramic tiles and comprises a ceramic tile body, a heat-conducting net, a first heat-insulating layer, a second heat-insulating layer and a concrete layer, wherein a holding cavity is arranged on the bottom surface of the ceramic tile, a plurality of reinforcing ribs which are longitudinally arranged are arranged on the top wall in the holding cavity, the first heat-insulating layer is coated on the inner wall of the holding cavity, the second heat-insulating layer is laid in the holding cavity and is contacted and laminated with the bottom surface of the reinforcing ribs, the heat-conducting net is positioned between the top surface of the second heat-insulating layer and the top surface of the; the structure strength of the ceramic tile is integrally improved by arranging the plurality of reinforcing ribs, heat can be stored in the accommodating cavity through the heat conducting net, so that a better heat insulation effect is achieved, and the first heat insulation layer and the second heat insulation layer are combined to achieve a better heat insulation effect; the whole structure is simple, energy-saving and environment-friendly, and the heat insulation performance and the structural stability are good.

Description

Compound light energy-saving heat-insulating ceramic tile

Technical Field

The utility model relates to a ceramic tile technical field, more specifically relates to a compound light energy-conserving heat preservation ceramic tile.

Background

When in interior decoration, the wall surface or the floor is stuck by common ceramic tiles; the traditional ceramic tile is generally used for decoration, has single function, heavy weight and poor environmental protection performance, and has certain limitation in use range; along with the continuous development of society, the economic foundation of people also continuously rises, the quality requirement on life is higher and higher, the selection of tiles for indoor decoration is not only simple and beautiful, but also tiles with heat preservation performance are often required, the indoor temperature is ensured to be relatively stable in winter and summer, so that the electric energy is saved, and the living comfort of people is improved; most of the existing heat-insulating ceramic tiles are provided with accommodating grooves directly on the back (rough surface) of the ceramic tile, and heat-insulating materials are filled in the accommodating grooves; the design mode still has some problems, and simple seting up the storage tank and filling, the structural strength of its ceramic tile is difficult to obtain fine assurance, and simple packing heat insulation material, its heat preservation heat insulation effect still is not enough moreover.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the technical problem to be solved by the utility model is to provide a composite light energy-saving heat-preservation ceramic tile, a plurality of longitudinal reinforcing ribs are arranged on the top surface in an accommodating cavity formed in the bottom surface of the ceramic tile, the structural strength of the ceramic tile is integrally improved, a heat conduction net is arranged by utilizing longitudinal gaps formed between the adjacent reinforcing ribs and inner grooves formed in the reinforcing ribs, heat can be stored in the accommodating cavity through the heat conduction net, so that the heat preservation effect is better realized, and the first heat insulation layer and the second heat insulation layer are combined to realize better heat insulation effect, so that the heat insulation effect is improved, and the ceramic tile is fixed through a concrete layer, so that the accommodating cavity is conveniently plugged to fix the second heat insulation layer and the heat conduction net, and the subsequent paving; the heat-insulating and heat-preserving integrated structure is simple in overall structure, energy-saving, environment-friendly, good in heat-insulating property and good in structural stability.

To achieve the purpose, the utility model adopts the following technical proposal: a composite light energy-saving heat-insulating ceramic tile, which comprises a ceramic tile body, a heat-conducting net, a first heat-insulating layer, a second heat-insulating layer and a concrete layer, the heat-conducting net is formed by interweaving a plurality of longitudinal heat-conducting wires and a plurality of transverse heat-conducting wires, the top surface of the ceramic tile is a decorative surface, the bottom surface of the ceramic tile is provided with an accommodating cavity, the top wall in the accommodating cavity is provided with a plurality of reinforcing ribs which are longitudinally arranged, two end surfaces of the reinforcing ribs are respectively contacted and attached with two symmetrical side walls in the accommodating cavity, the reinforcing ribs are uniformly distributed at equal intervals along the transverse direction, a longitudinal gap for avoiding the longitudinal heat conducting wires is formed between the adjacent reinforcing ribs, a plurality of inner grooves which are distributed at equal intervals and used for avoiding the transverse heat conducting wires are arranged on the reinforcing rib along the length direction of the reinforcing rib, the inner grooves are respectively communicated with the longitudinal gaps, and the heat conduction net is fixedly laid on the reinforcing ribs through the longitudinal gaps and the inner grooves;

first insulating layer coat in on the holding intracavity wall, the second insulating layer lay in the holding intracavity and with the bottom surface contact laminating of strengthening rib, second insulating layer top surface with form sealed thermal-insulated cavity between the holding chamber top surface, the heat conduction net is located in the thermal-insulated cavity, the second insulating layer four global respectively with the global contact laminating of four in the holding intracavity, concrete layer is fixed lay in the holding intracavity and with the laminating of second insulating layer bottom surface contact, concrete layer's global contact laminating with the global of four in holding chamber respectively, concrete layer bottom surface with the bottom surface parallel and level of ceramic tile body.

Optionally, the longitudinal heat-conducting wires and the transverse heat-conducting wires are aluminum wires.

Optionally, the first thermal insulation layer is a thermal insulation coating layer.

Optionally, the second thermal insulation layer is a rock wool thermal insulation layer.

Optionally, a plurality of uniformly distributed concave holes are formed in the inner wall of the accommodating cavity.

The utility model has the advantages that: the utility model discloses a top surface sets up a plurality of vertical strengthening ribs in the holding intracavity that the ceramic tile bottom surface was seted up, its structural strength who wholly promotes the ceramic tile, and utilize the vertical clearance that forms between the adjacent strengthening rib and the inner groovy that is equipped with on the strengthening rib to install the heat conduction net, can save the heat in the holding intracavity through the heat conduction net, thereby better play the heat preservation effect, and combine first insulating layer and second insulating layer to realize better heat insulation effect, improve thermal-insulated heat preservation effect, fix through concrete layer in addition, it makes things convenient for the shutoff holding chamber to fix second insulating layer and heat conduction net, and the follow-up of the ceramic tile of being convenient for is mated formation; the heat-insulating and heat-preserving integrated structure is simple in overall structure, energy-saving, environment-friendly, good in heat-insulating property and good in structural stability.

Drawings

Fig. 1 is a schematic view of the overall structure of a composite light energy-saving heat-insulating ceramic tile provided by the specific embodiment of the present invention.

Fig. 2 is a bottom view of the composite light energy-saving heat-insulating ceramic tile provided by the embodiment of the present invention without the second heat-insulating layer and the concrete layer.

In the figure: 1. a tile body; 10. an accommodating cavity; 11. reinforcing ribs; 111. an inner groove; 12. an inner concave hole; 21. a first insulating layer; 22. a second thermal insulation layer; 3. a thermally conductive mesh; 31. longitudinal heat-conducting wires; 32. transverse heat conducting wires; 4. and a concrete layer.

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 and 2, a composite light energy-saving heat-insulating ceramic tile comprises a ceramic tile body 1, a heat-conducting net 3, a first heat-insulating layer 21, a second heat-insulating layer 22 and a concrete layer 4, wherein the heat-conducting net 3 is formed by weaving a plurality of longitudinal heat-conducting wires 31 and a plurality of transverse heat-conducting wires 32 in a staggered manner, the top surface of the ceramic tile body 1 is a decorative surface, a containing cavity 10 is formed in the bottom surface of the ceramic tile body 1, a plurality of longitudinally-arranged reinforcing ribs 11 are arranged on the inner top wall of the containing cavity 10, two end surfaces of each reinforcing rib 11 are respectively contacted and attached to two symmetrical side walls in the containing cavity 10, the reinforcing ribs 11 are uniformly distributed at equal intervals in the transverse direction, a longitudinal gap avoiding the longitudinal heat-conducting wires 31 is formed between the adjacent reinforcing ribs 11, a plurality of inner grooves 111 which are distributed at equal, the heat-conducting net 3 is fixedly laid on the reinforcing ribs 11 through longitudinal gaps and inner grooves 111; particularly, ceramic tile body 1's top surface is the decorative cover, set up holding chamber 10 on the bottom surface that corresponds with the top surface, it can be through pouring machine-shaping, wherein strengthening rib 11 and ceramic tile body 1 structure as an organic whole, the degree of depth of strengthening rib 11 is less than the degree of depth in holding chamber 10, it guarantees to reserve and has sufficient space to install second insulating layer 22 and concrete fixed bed, and as shown in figure 1 and figure 2, be the interval setting between the strengthening rib 11, and evenly be equipped with inner groovy 111 along strengthening rib 11 length direction on the strengthening rib 11, come and form the netted installation station of installation heat conduction net 3 between the vertical clearance through inner groovy 111 with vertical clearance intercommunication, make things convenient for the installation location of heat conduction net 3.

As shown in fig. 1 and 2, a first heat insulation layer 21 is coated on the inner wall of the accommodating cavity 10, a second heat insulation layer 22 is laid in the accommodating cavity 10 and is in contact fit with the bottom surface of the reinforcing rib 11, a sealed heat insulation cavity is formed between the top surface of the second heat insulation layer 22 and the top surface of the accommodating cavity 10, the heat conduction net 3 is located in the heat insulation cavity, the four peripheral surfaces of the second heat insulation layer 22 are in contact fit with the four peripheral surfaces in the accommodating cavity 10 respectively, a concrete layer 4 is fixedly laid in the accommodating cavity 10 and is in contact fit with the bottom surface of the second heat insulation layer 22, the four peripheral surfaces of the concrete layer 4 are in contact fit with the four peripheral surfaces of the accommodating cavity 10 respectively, and the bottom surface of; specifically, the first thermal insulation layer 21 is a thermal insulation coating layer, and the thermal insulation coating is coated on the inner wall of the accommodating cavity 10, so as to improve the thermal insulation effect, and may be a nano reflection type thermal insulation coating; the second heat insulation layer 22 is a rock wool heat insulation layer, and rock wool materials have the characteristics of light weight, small heat conductivity coefficient and good sound insulation performance, and are the preferred embodiment of the utility model, and can also be replaced by rock wool materials, and can be specifically selected according to the needs of users; the first heat insulation layer 21 and the second heat insulation layer 22 form a sealed heat insulation space in the accommodating cavity 10, and the heat conduction net 3 is fixed in the heat insulation space, so that a better heat storage function can be achieved, and the heat insulation effect is further improved; the longitudinal heat-conducting wires 31 and the transverse heat-conducting wires 32 can be aluminum wires, that is to say, the heat-conducting net 3 can be formed by weaving aluminum wires, so that the heat-conducting performance is good, and the heat storage effect is obvious.

In addition, a plurality of uniformly distributed concave holes 12 are arranged on the inner wall of the accommodating cavity 10; specifically, as shown in fig. 1, a plurality of inner concave holes 12 are formed in the inner wall of the accommodating cavity 10, which can reduce the overall mass of the tile while ensuring the structural strength, so that the tile is more portable.

Generally speaking, the utility model discloses a top surface sets up a plurality of longitudinal strengthening ribs 11 in the holding chamber 10 that sets up in the ceramic tile bottom surface, its whole promotes the structural strength of ceramic tile, and utilize the longitudinal clearance that forms between the adjacent strengthening rib 11 and the inner groovy 111 that is equipped with on the strengthening rib 11 to install heat conduction net 3, can store the heat in holding chamber 10 through heat conduction net 3, thereby better play the heat preservation effect, and combine first insulating layer 21 and second insulating layer 22 to realize better heat insulation effect, improve thermal-insulated heat preservation effect, fix through concrete layer 4 in addition, it makes things convenient for shutoff holding chamber 10 to fix second insulating layer 22 and heat conduction net 3, and the follow-up of ceramic tile of being convenient for is mated formation; the integral structure is simple, energy-saving and environment-friendly, and the heat insulation performance and the structure stability are good; the utility model discloses a course of working can pour preparation ceramic tile body 1 earlier, and the second insulating layer 22 is laid again to the first insulating layer 21 of respray, place heat conduction net 3 again, pours concrete layer 4 again at last and fixes.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims

1. The utility model provides a compound light energy-conserving heat preservation ceramic tile which characterized in that:

the heat-conducting heat-insulating tile comprises a tile body (1), a heat-conducting net (3), a first heat-insulating layer (21), a second heat-insulating layer (22) and a concrete layer (4), wherein the heat-conducting net (3) is formed by weaving a plurality of longitudinal heat-conducting wires (31) and a plurality of transverse heat-conducting wires (32) in a staggered manner, the top surface of the tile body (1) is a decorative surface, a containing cavity (10) is formed in the bottom surface of the tile body (1), a plurality of longitudinally-arranged reinforcing ribs (11) are arranged on the inner top wall of the containing cavity (10), two end faces of each reinforcing rib (11) are respectively contacted and attached to two inner symmetrical side walls of the containing cavity (10), the reinforcing ribs (11) are uniformly distributed at equal intervals along the transverse direction, longitudinal gaps for avoiding the longitudinal heat-conducting wires (31) are formed between the adjacent reinforcing ribs (11), a plurality of inner grooves (111) which are distributed at equal intervals and are used for avoiding the transverse, the inner grooves (111) are respectively communicated with the longitudinal gaps, and the heat conduction net (3) is fixedly laid on the reinforcing ribs (11) through the longitudinal gaps and the inner grooves (111);

first insulating layer (21) coat in on holding chamber (10) inner wall, second insulating layer (22) lay in holding chamber (10) and with the bottom surface contact laminating of strengthening rib (11), second insulating layer (22) top surface with form sealed thermal-insulated cavity between holding chamber (10) top surface, heat conduction net (3) are located in the thermal-insulated cavity, the four global of second insulating layer (22) respectively with the four global contact laminating in holding chamber (10), concrete layer (4) are fixed lay in holding chamber (10) and with second insulating layer (22) bottom surface contact laminating, the four global of concrete layer (4) respectively with the four global contact laminating of holding chamber (10), concrete layer (4) bottom surface with the bottom surface parallel and level of ceramic tile body (1).

2. A composite light energy-saving heat-insulating tile as claimed in claim 1, wherein:

the longitudinal heat conducting wires (31) and the transverse heat conducting wires (32) are all aluminum wires.

3. A composite light energy-saving heat-insulating tile as claimed in claim 1, wherein:

the first heat insulation layer (21) is a heat insulation coating layer.

4. A composite light energy-saving heat-insulating tile as claimed in claim 1, wherein:

the second heat insulation layer (22) is a rock wool heat insulation layer.

5. A composite light energy-saving heat-insulating tile as claimed in claim 1, wherein:

the inner wall of the accommodating cavity (10) is provided with a plurality of uniformly distributed concave holes (12).