CN113550532A - Film-coated heating ceramic tile floor structure and paving method thereof - Google Patents

Abstract

The invention relates to a film-coated heating ceramic tile floor structure and a paving method thereof, which comprise a heat-insulating module layer and an electric heating film layer arranged on the upper surface of the heat-insulating layer, wherein the upper surface of the electric heating film layer is covered with a ceramic tile surface layer, the bottom surface of the heat-insulating module layer is provided with fastening dovetail grooves which are beneficial to being glued with the floor, and the fastening dovetail grooves are arranged at the bottom side of the heat-insulating module layer at intervals.

Description

Film-coated heating ceramic tile floor structure and paving method thereof

Technical Field

The invention relates to a film-coated heating ceramic tile floor structure and a paving method thereof.

Background

The traditional floor tile pavement mode that generates heat does not have reasonable constructional measure between its ceramic tile surface course, the diaphragm layer that generates heat and the heat preservation, uses easily dislocation deformation and the hollowing delaminating phenomenon appears for a long time, and because heat preservation density lower lead to with ceramic tile between the support stability relatively poor, sink easily during the use, so can't satisfy the function.

Disclosure of Invention

In view of the defects of the prior art, the technical problem to be solved by the invention is to provide a film-coated heating ceramic tile floor structure and a paving method thereof, which not only have reasonable structure, but also have good connection stability.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a film-coated heating ceramic tile floor structure and a paving method thereof comprise a heat-insulating module layer and an electric heating coating layer arranged on the upper surface of the heat-insulating layer, wherein the upper surface of the electric heating coating layer is covered with a ceramic tile surface layer, the bottom surface of the heat-insulating module layer is provided with fastening dovetail grooves which are convenient to glue with the ground, the fastening dovetail grooves are arranged at the bottom side of the heat-insulating module layer at intervals, namely a binding layer which is fastened with the ground, the heat-insulating module layer, the electric heating coating layer with a conductive copper strip and the ceramic tile surface layer are sequentially arranged from bottom to top, the bottom end of the heat-insulating module layer is provided with a dovetail groove which is reliably connected with the ground through the binding layer, the top end of the heat-insulating module layer is provided with a plurality of mounting holes in a downward penetrating way, rubber cushion blocks are arranged in the mounting holes, the top end of the rubber is flush with the top end of the heat-insulating module layer, and the top end of the rubber cushion blocks is also provided with fastening dovetail grooves which are reliably connected with the ceramic tile surface layer through special glue for ceramic tiles, the two ends of the cushion block are respectively supported between the ground and the ceramic tile surface layer, and are fastened with the heat-insulation module layer, so that the heat-insulation module layer is not easy to deform, and the supporting stability of the ceramic tile surface layer is ensured; the dovetail grooves adjacent to the middle part of the top end of the heat-insulation module layer are communicated and butted to form a coating layer groove, the coating layer groove longitudinally extends out of the heat-insulation module layer and is communicated with the coating layer groove of the adjacent heat-insulation module layer, and the coating layer groove is not provided with a dovetail groove and is rough in electric heating coating layer.

Furthermore, conductive copper strips are laid at the bottom in the film coating layer groove, the conductive copper strips extend longitudinally, and the upper layer and the lower layer of the conductive copper strips are coated with film coating layers.

Furthermore, the cross section of the fastening dovetail groove is in an inverted isosceles trapezoid shape, the heat-insulation module layer is connected with the ground through special bonding layer glue, the special bonding layer glue can be beneficial daub, and the fastening dovetail groove can be immersed to ensure that the fastening dovetail groove is tightly connected with the ground and is not easy to delaminate.

Furthermore, the heat preservation and insulation module layer is rectangular, a convex part protrudes outwards from the left side surface of the heat preservation and insulation module layer, a concave part which is matched with and transversely spliced with an adjacent heat preservation and insulation module layer is arranged in a concave way towards the right side surface, a convex part protrudes outwards from the rear side surface of the heat preservation and insulation module layer, a concave part which is matched and longitudinally spliced with the adjacent heat preservation and insulation module layer is arranged in a concave way towards the front side surface, and the two convex parts extend along the length direction of the two convex parts and are butted into a whole.

Further, the mounting hole is equipped with 6 altogether, and wherein four divide and establish in heat preservation thermal-insulated module layer top four corners department, and remaining 2 are located heat preservation thermal-insulated module layer middle part, and the symmetry sets up in the middle part left and right sides respectively to avoid appearing cutting the unable stable problem that supports of ceramic tile when specifically using, and through vertical rubber cushion and the ceramic tile bottom contact support of inserting in the mounting hole.

A working method of a film-coating type heating ceramic tile floor structure is carried out according to the following steps: firstly, a heat-insulating module layer is laid on the ground through a special glue combining layer, the heat-insulating module layer is laid through the mutual matching of a convex part and a concave part, longitudinally adjacent coating film layers are communicated, then, one coating film is coated at the bottom of the coating film layer groove, a conductive copper strip is laid in the coating film layer groove, the top of the conductive copper strip is coated with the coating film layer again, a rubber cushion block in a reserved hole of the heat-insulating module is well installed before laying, and finally, a tile surface layer is laid by using a special glue spot laying or thin scraping method for tile special glue, so that the surface layer can be prevented from delaminating and hollowing, and the use requirement can be met.

Compared with the prior art, the invention has the following beneficial effects: through the setting of forked tail recess, guarantee that subaerial special gluing closes in the layer material dips in the heat preservation dovetail, guarantee ground and heat preservation thermal insulation module layer reliable connection and reach the mesh of not delaminating, unsmooth cooperation between heat preservation thermal insulation module layer has guaranteed more that it can not produce dislocation and deformation simultaneously, the rubber block through vertical setting carries out effective support to the ceramic tile surface course, thereby guarantee that heat preservation in use does not warp and guarantee the stability of ceramic tile surface course and prolong its life, through on the heat preservation aspect dovetail recess ceramic tile special glue point spread or thin scrape the special gluey method of one deck ceramic tile and lay the ceramic tile surface course mode and realize ceramic tile surface course and heat preservation thermal insulation module layer lay stable connection, and can effective reduce cost.

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic configuration diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of A in FIG. 1;

FIG. 3 is an enlarged view of B in FIG. 1;

FIG. 4 is a schematic top view of plane C-C;

FIG. 5 is a schematic side view of a thermal module layer according to an embodiment of the present invention;

fig. 6 is a schematic view of paving a heat preservation and insulation module layer in the embodiment of the invention.

In the figure: the manufacturing method comprises the following steps of 1-ground, 3-tile surface layer, 4-heat preservation and insulation module layer, 5-fastening dovetail groove, 6-binding layer, 7-mounting hole, 8-rubber cushion block, 9-coating film layer groove, 10-conductive copper strip, 12-convex part, 13-concave part and 14-electric heating coating film layer.

Detailed Description

In order to make the aforementioned and other features and advantages of the invention more comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1 to 6, a film-coated heating tile floor structure comprises a heat-insulating module layer and an electric heating coating layer arranged on the upper surface of the heat-insulating layer, wherein a tile surface layer covers the upper surface of the electric heating coating layer, fastening dovetail grooves which are easy to be bonded with the ground are arranged on the bottom surface of the heat-insulating module layer, the fastening dovetail grooves are arranged on the bottom side of the heat-insulating module layer at intervals, namely, a binding layer 6 which is fastened with the ground, a polyvinyl chloride foam heat-insulating module layer coated with a heating film and a tile surface layer 3 are sequentially arranged from bottom to top, the adjacent heat-insulating module layers 4 are horizontally spliced, the upper end and the lower end of the heat-insulating module layer are respectively provided with a fastening dovetail groove 5, and the fastening dovetail grooves are used for ensuring the ground to be reliably bonded with the heat-insulating layer through the binding layer; the fastening dovetail grooves are uniformly distributed at intervals along the transverse extension direction of the heat preservation and heat insulation module layer and longitudinally extend to penetrate through the heat preservation and heat insulation module layer, and the bottom end of the heat preservation and heat insulation module layer can be connected with the ground through special bonding layer glue due to the dovetail grooves, so that hollowing and delaminating cannot occur in the use stage; the bottom end of the heat-preservation and heat-insulation module layer is connected with the ground through a binding layer 6, a plurality of mounting holes 7 are formed in the top end of the heat-preservation and heat-insulation module layer in a downward penetrating mode, the mounting holes are circular or square, rubber cushion blocks 8 are arranged in the mounting holes, the top ends of the rubber cushion blocks are flush with the top end of the heat-preservation and heat-insulation module layer, and fastening dovetail grooves are formed in the top of the rubber cushion blocks and are in butt joint with the tile surface layer; the problem that the deformation is generated due to too small density of the heat-insulation module layer is that the pressure of the tile surface layer is transmitted to the ground in time to ensure that the ground does not lose the use function due to the deformation, so that the two ends of the cushion block are respectively supported between the ground and the tile surface layer, and meanwhile, the cushion block is fastened with the heat-insulation module layer, so that the position limitation of the heat-insulation module layer can be ensured, and the support stability of the tile surface layer is ensured; the thermal insulation module layer is characterized in that dovetail grooves adjacent to the middle of the top end of the thermal insulation module layer are communicated and combined to form a coating layer groove 9, the coating layer groove longitudinally extends out of the thermal insulation module layer and is communicated with coating layer grooves of the adjacent thermal insulation module layer, a ceramic tile surface layer cover is arranged on the thermal insulation module layer and is connected and fastened, a graphene heating coating is coated in the electric heating coating layer, namely the coating layer is a graphene heating coating, the ceramic tile surface layer cover is arranged on the thermal insulation module layer and is connected and fastened, and fastening dovetail grooves at the top of the thermal insulation module layer are arranged in a staggered mode with the coating layer grooves.

In the embodiment of the invention, the bottom in the coating layer groove is paved with the conductive copper strips 10 which extend longitudinally, the upper and lower layers of the conductive copper strips are coated with the electric heating coating layers 14, the width of the conductive copper strips is 30-50mm, the thickness of the conductive copper strips is 5-12mm, the conductive copper strips are all arranged in full length, and the end parts of the conductive copper strips are butted to form a power-on loop so as to finish the heating function when the conductive copper strips are powered on.

In the embodiment of the invention, the cross section of the fastening dovetail groove is in an inverted isosceles trapezoid shape, the length of the upper bottom (the width of the opening at the top of the fastening dovetail groove) is 10-15mm, the length of the lower bottom (the width of the bottom in the fastening dovetail groove) is 15-20mm, the distance between two adjacent fastening dovetail grooves is 25-30mm, and the heat-insulating and heat-insulating module layer is filled in the fastening dovetail groove through special glue of a bonding layer, fastened with the ground and limited transversely.

In the embodiment of the invention, the heat preservation and insulation module layer is rectangular, the left side surface of the heat preservation and insulation module layer protrudes outwards and is provided with a convex part 12, the right side surface of the heat preservation and insulation module layer is correspondingly inwards concavely provided with a concave part 13 which is matched with the adjacent heat preservation and insulation module layer and is transversely inserted, the rear side surface of the heat preservation and insulation module layer also protrudes outwards and is provided with a convex part, the front side surface of the heat preservation and insulation module layer is correspondingly inwards concavely provided with a concave part which is matched with the adjacent heat preservation and insulation module layer and is longitudinally inserted, namely, the heat preservation and insulation module layer and the concave part are matched in a male-female groove mode, and the two convex parts extend along the length direction and are butted into a whole.

In the embodiment of the invention, the end surface of the top end of the heat-insulating module layer can be arranged into a stripe-shaped rough surface so as to ensure the connection stability of the heat-insulating module layer and the ceramic tile surface layer.

In the embodiment of the invention, the heat-preservation and heat-insulation module layer is used as an EPS heat-preservation and heat-insulation layer, and the density of the heat-preservation and heat-insulation module layer is 25-30 kilograms per cubic meter; the rubber cushion block is made of hard rubber, the density of the hard rubber is greater than or equal to 0.85 kg/m and less than or equal to 1.0 kg/m, the hard rubber is in a cylindrical shape, and the end face diameter is 50 mm.

In the embodiment of the invention, the number of the mounting holes is 6, four of the mounting holes are respectively arranged at four corners of the top end of the heat preservation and heat insulation module layer, the rest 2 mounting holes are arranged in the middle of the heat preservation and heat insulation module layer, are symmetrically arranged in the middle of the heat preservation and heat insulation module layer in a left-right mode, and are in contact support with the bottom layer of the ceramic tile through the rubber cushion blocks vertically inserted into the mounting holes.

A working method of a film-coating type heating ceramic tile floor structure is carried out according to the following steps: firstly, paving a heat-insulating module layer on the ground through special bonding layer glue, wherein the special glue and the special bonding layer glue can be selected from beneficial daub, the heat-insulating module layer is paved through the mutual matching of a convex part and a concave part, the longitudinally adjacent coating layer grooves are communicated, then, a graphene heating coating is coated at the bottom in the coating layer groove, a conductive copper strip is paved in the coating layer groove, then, the graphene heating coating is coated on the upper surface, the periphery of the conductive copper strip is wrapped in the coating layer groove to protect the coating layer and avoid the electric leakage phenomenon, after the coating is dried, the heating effect is tested to be qualified through electrifying, and finally, a ceramic tile surface layer is paved on the heat-insulating module layer to be thinly scraped or a layer of special ceramic tile glue is paved for fixing.

The present invention is not limited to the above preferred embodiments, and any one can find other various forms of floor structures of the film-coated heat-generating ceramic tiles and methods of paving the same, according to the teaching of the present invention. All equivalent changes and modifications made according to the claims of the present invention should be covered by the present invention.

Claims (8)

1. A film coating type heating ceramic tile ground structure is characterized in that: including heat preservation and insulation module layer and set up in the electricity of heat preservation and insulation layer upper surface and generate heat and scribble the rete, electricity generates heat and scribbles the rete upper surface and cover and have the ceramic tile surface course, heat preservation and insulation module layer bottom surface is equipped with in order to be favorable to with the glued fastening forked tail recess in ground, this fastening forked tail recess interval arrangement in heat preservation and insulation module layer bottom side.

2. The film-coated heating tile floor construction of claim 1, wherein: the adjacent heat preservation and insulation module layers are horizontally spliced and combined, rubber cushion blocks and mounting holes thereof are distributed on the heat preservation and insulation module layers and used for supporting the surface layer of the ceramic tile, and fastening dovetail grooves which are beneficial to being glued with the ceramic tile are formed in the upper surfaces of the heat preservation and insulation module layers; the bottom end of the heat-insulating module layer is connected with the ground through a bonding layer.

3. The film-coated heating tile floor construction of claim 2, wherein: the fastening dovetail grooves are uniformly distributed at intervals along the transverse extension direction of the heat preservation and heat insulation module layer and longitudinally extend to penetrate through the heat preservation and heat insulation module layer, the adjacent fastening dovetail grooves in the middle of the top end of the heat preservation and heat insulation module layer are communicated and combined to form a coating layer groove, the coating layer groove longitudinally extends out of the heat preservation and heat insulation module layer and is communicated with the coating layer groove of the adjacent heat preservation and heat insulation module layer, and the ceramic tile surface layer is covered on the heat preservation and heat insulation module layer and is fixedly connected with the same through special glue; the equal vertical thermal-insulated module layer that runs through of this mounting hole, the rubber cushion top flushes and the top also is equipped with fastening forked tail recess and ceramic tile surface course butt joint with thermal-insulated module layer top that keeps warm.

4. A film-coated heat-generating tile floor construction as recited in claim 3, wherein: and conductive copper strips are paved at the bottom in the film coating layer groove, extend longitudinally, and are coated with film coating layers on the upper layer and the lower layer.

5. The film-coated heating tile floor construction of claim 2, wherein: the cross section of the fastening dovetail groove is in an inverted isosceles trapezoid shape, and the heat-insulation module layer is filled in the fastening dovetail groove through the binding layer and can be tightly and firmly connected with the ground to ensure that the hollowing deformation is not easy to occur in the use stage.

6. The film-coated heating tile floor construction of claim 1, wherein: the heat-insulation module layer is rectangular, a convex part protrudes outwards from the left side surface of the heat-insulation module layer, a concave part which is matched with and transversely spliced with an adjacent heat-insulation module layer is arranged inwards in a concave manner on the right side surface, a convex part protrudes outwards from the rear side surface of the heat-insulation module layer, a concave part which is matched with and longitudinally spliced with the adjacent heat-insulation module layer is arranged inwards in a concave manner on the front side surface, and the two convex parts extend along the length direction of the two convex parts and are butted into a whole.

7. The film-coated heating tile floor construction of claim 2, wherein: the mounting holes are respectively formed in the edges and the middle parts of four corners near the top end of the heat preservation and insulation module layer, two mounting holes are symmetrically formed in the middle parts of the heat preservation and insulation module layer in a bilateral mode, and the two mounting holes are vertically inserted into the rubber cushion blocks in the mounting holes to be in contact with the bottom of the ceramic tile surface layer for supporting.

8. A method of laying a film-coated heating tile floor structure, comprising the steps of: the method comprises the following steps of firstly, paving a special cementing material of a bonding layer on the ground below a heat-insulation module layer, wherein a dovetail groove is arranged below the heat-insulation layer, and the dovetail groove is relatively infiltrated by the cementing material, so that the reliable connection between the ground and the heat-insulation module layer is ensured, and the purpose of no delamination is achieved; because the dovetail groove is arranged at the upper part of the heat preservation layer, the ceramic tile surface layer is laid on the heat preservation and heat insulation module layer through special glue, so that the ceramic tile surface layer is not easy to delaminate and deform, and the service function is met.

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