CN214658496U - Dry paving module for ceramic tile floor heating pipe and dry paving structure for ceramic tile floor heating pipe - Google Patents

Abstract

The utility model discloses a ceramic tile ground heating coil dry-laying module and ceramic tile ground heating coil dry-laying structure, including the module body, the module body is flat upper berth wainscot including whole, be equipped with the tube seat that is used for installing the ground heating coil on the upper berth wainscot, the below of upper berth wainscot is equipped with a plurality of vertical ribs, and a plurality of vertical ribs encloses into a plurality of openings cavity down with the upper berth wainscot, and the lower part parallel and level of a plurality of vertical rib forms whole lower installation face that is the flat, the cavity intussuseption is filled with insulation material, be equipped with the reflectance coating unanimous with module body area on the installation face down. The utility model discloses a pack the heat preservation material and set up the reflectance coating in the cavity, the heat that makes ground heating coil produce has energy-conserving heat retaining effect to indoor one-way transmission. The floor heating pipeline facility is convenient to maintain, and the restoration degree after maintenance is high. The floor heating pipeline can be maintained only after the ceramic tile is dismantled by the vacuum chuck, and no dismantling noise, no dust pollution and no building rubbish are generated.

Description

Dry paving module for ceramic tile floor heating pipe and dry paving structure for ceramic tile floor heating pipe

Technical Field

The utility model relates to a construction or decoration technical field, concretely relates to ceramic tile ground heating coil dry laying module and ceramic tile ground heating coil dry laying structure.

Background

The traditional tile paving process generally adopts a cement mortar process, so that the resource waste is more, the dust pollution is heavier, the construction difficulty is high, the construction period is long, the cost is high, the maintenance needs to dismantle permanent tiles and mortar, the engineering quantity is large, and the pollution is serious.

In the literature for laying the floor heating pipes, chinese patent CN2019220919271 discloses a leveling cement-free sand tile-sticking device for laying the floor heating pipes. It is including the module body, the both sides of module body are provided with slot and inserted sheet respectively, two adjacent module bodies pass through the inserted sheet, the slot equipment, the back of module body is provided with netted strengthening rib, netted strengthening rib separates the module body for a plurality of boards and the installation through-hole of laying, it is provided with a plurality of through-holes that run through its upper and lower surface to lay on the board, crossing strengthening rib junction is provided with the mount pad that runs through its upper and lower surface, it has the nut to inlay in the mount pad, nut threaded connection has the support footing, the front of module body is provided with the recess that is used for installing the ground heating coil, two adjacent module bodies have the screw at two installation through-holes interlude of pressing close to, through the screw with two adjacent module body fastening connection. This patent can reduce constructor to the requirement of concrete formula tiling technique, striden air-dry time, realized that the dress is used promptly, reduced and spread the cost of pasting.

However, in this technical solution, although the ground heating pipe can be laid on the dry-laying module, it does not have the heat preservation and heat-reflecting functions.

Disclosure of Invention

To the above-mentioned prior art, an object of the utility model is to provide a ceramic tile ground heating coil dry laying module and ceramic tile ground heating coil dry laying structure.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the dry-laying module for the ceramic tile floor heating pipes comprises a module body, wherein the module body comprises an upper laying veneering which is flat integrally, a pipe groove for mounting the floor heating pipes is formed in the upper laying veneering, a plurality of longitudinal ribs are arranged below the upper laying veneering, a plurality of cavities with downward openings are formed by the longitudinal ribs and the upper laying veneering in a surrounding mode, the lower parallel and level portions of the longitudinal ribs form a lower mounting face which is flat integrally, heat-insulating materials are filled in the cavities, and a reflecting film which is consistent with the area of the module body is arranged on the lower mounting face.

Optionally, the module body further includes a side surface, and a connection structure for connecting adjacent module bodies is provided on the side surface.

Optionally, the connecting structure includes at least one pair of a clamping strip and a clamping groove, which are matched with each other, wherein the clamping strip is arranged on one side surface, and the clamping groove is arranged on the other corresponding side surface.

Optionally, a plurality of adjustable support structures are further arranged below the module body and used for adjusting the levelness of the upper paving surface.

Optionally, the adjustable support structure is a bolt connection hole.

Optionally, the bolt connecting hole includes an adjusting hole connected to the upper paving attaching surface and a threaded hole connected to the lower mounting surface, and the adjusting hole corresponds to the threaded hole.

Optionally, the plurality of longitudinal ribs intersect to form a plurality of intersection points, all or part of the plurality of intersection points form a bearing support seat, and the bolt connecting hole is located in the bearing support seat.

Optionally, the threaded hole is formed by machining the module body, or is formed by embedding a threaded sleeve into the module body.

Optionally, the upper paving overlay is provided with a plurality of through holes communicated with the cavity.

Ceramic tile ground heating coil dry-laying structure includes:

the ceramic tile ground heating pipe dry-laying modules are spliced together;

the floor heating pipes are laid in pipe grooves of the ceramic tile floor heating pipe dry laying modules;

the adjustable supporting pieces are connected below the ceramic tile floor heating pipe dry laying module;

the ceramic tiles are laid on the upper laying veneers of the ceramic tile ground heating pipe dry laying module;

and the adhesive layer is positioned between the upper paving veneer and the ceramic tile.

Optionally, the adjustable supporting member is an adjustable bolt, the adjustable bolt includes a bolt column, one end of the bolt column is provided with a supporting support, and the end head part of the other end of the bolt column is provided with an adjusting counter bore or an adjusting boss; the adjustable bolt penetrates through the ceramic tile ground heating pipe dry laying module;

optionally, the adjusting counter bore is an inner hexagonal counter bore, an inner four-corner counter bore, a straight-line counter bore or a cross counter bore; the adjusting lug boss is an outer hexagonal lug boss or an outer four-corner lug boss.

Optionally, the method further includes:

the L-shaped installation pieces comprise side panels and flat panels, wherein the side panels are provided with screw installation holes, and the flat panels are provided with shooting nail through holes;

the screws penetrate through the mounting holes and are connected to the side face of the tile floor heating pipe dry laying module;

a plurality of shooting nails which pass through the shooting nail through holes and are connected to the ground.

The utility model has the advantages that:

(1) the contact area between the ceramic tile and the module body is increased by the integrally flat upper paving veneers, the bearing capacity is larger, and the stress is more uniform.

(2) Through pack the heat preservation material in the cavity and set up the reflectance coating, make the heat that ground heating coil produced to indoor one-way transmission, have energy-conserving heat retaining effect. Meanwhile, the thickness of the ground decoration heat-insulation layer can be effectively reduced, and the indoor high effective space is increased.

(3) The through holes can play a role in weight reduction and also have a heat exchange function; when the tile is laid by adopting the glue (foaming glue), the foaming glue can permeate into the through holes to play a role in firmly locking.

(4) The floor heating pipeline facility is convenient to maintain, and the restoration degree after maintenance is high. The floor heating pipeline can be maintained only after the ceramic tile is dismantled by the vacuum chuck, and no dismantling noise, no dust pollution and no building rubbish are generated.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a structural diagram of a dry laying module of a ceramic tile floor heating pipe of the present invention;

FIG. 2 is a right side view of FIG. 1;

FIG. 3 is a sectional view taken along line A-A of FIG. 1;

FIG. 4 is a sectional view taken along line B-B of FIG. 1;

FIG. 5 is a perspective view of FIG. 1;

FIG. 6 is a rear view of FIG. 1;

FIG. 7 is a perspective view from another angle of FIG. 1;

FIG. 8 is a block diagram of FIG. 4 after installation of a shot pin and adjustable bolt;

FIG. 9 is an enlarged partial view of FIG. 8;

FIG. 10 is an enlarged partial view of the band thread insert;

FIG. 11 is a perspective view of FIG. 5 with the shoot bolt and adjustable bolt installed;

FIG. 12 is an enlarged partial view of FIG. 11;

FIG. 13 is a view showing the structure of FIG. 4 after the insulation and the reflective film are installed;

FIG. 14 is a schematic view of the construction of an adjustable bolt;

FIG. 15 is a perspective view of an adjustable bolt;

FIG. 16 is another perspective view of the adjustable bolt;

fig. 17 is the structural schematic diagram of the utility model of the ceramic tile ground heating coil after the module construction is laid futilely.

Description of reference numerals:

a module body 1; paving a veneer 11 on the upper part; a pipe groove 111; a through-hole 112; a lower mounting surface 12; a side surface 13; a clip strip 131; a card slot 132; ground fixing connection holes 133; bolt attachment holes 14; an adjustment hole 141; a threaded hole 142; a support base 143; a threaded sleeve 144; longitudinal ribs 15; a cavity 16; a heat insulating material 17; a reflective film 18.

An adjustable bolt 2; a bolt column 21; a support pedestal 22; an adjustment counterbore 23;

an L-shaped mounting member 3; the side panels 31; a flat plate 32; a screw 33; the nail 34 is shot.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar parts or parts having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Embodiment 1 Dry laying module for ceramic tile floor heating pipe

As shown in fig. 1-10, the dry-laying module for ceramic tile floor heating pipes comprises a formal module body 1, which is made of flame retardant material and can be 600 × 600mm in size. The module body 1 includes an upper paving surface 11, a lower mounting surface 12, and a side surface 13.

The upper paving overlay 11 is entirely flat to facilitate tile laying, increase bearing force and make stress more uniform. A plurality of longitudinal ribs 15 (or reinforcing ribs) extend downwards below the upper decking surface 11, and the longitudinal ribs 15 include side ribs around the periphery and longitudinal ribs, mold ribs and diagonal ribs in the middle. The longitudinal ribs 15 and the upper paving surface 11 enclose cavities 16 with downward openings. A plurality of longitudinal ribs 15 are flush with the lower portion to form an overall flat lower mounting surface 12. The junction of a plurality of longitudinal ribs 15 (the junction of a longitudinal rib, a transverse rib and an oblique rib) is expanded to form a bearing support seat 143, and a bolt connecting hole 14 is arranged in the bearing support seat 143. The bolt connecting hole 14 comprises an adjusting hole 141 for connecting the upper paving overlay 11 and a threaded hole 142 for connecting the lower mounting surface 12, and the adjusting hole 141 corresponds to the threaded hole 142. The threaded hole 142 is used for screwing in the adjustable bolt 2, and the adjusting hole 141 is used for adjusting the adjustable bolt 2 from above the module body 1 during installation, so that the adjustable bolt 2 is adjusted from above the module body 1. The threaded hole 142 is formed by machining the module body 1, or by embedding a threaded sleeve 144 in the module body 1.

And the side surface 13 is provided with a connecting structure for connecting the adjacent module bodies 1. The connecting structure comprises at least one pair of clamping strips 131 and clamping grooves 132 which are matched, wherein the clamping strips 131 are arranged on one side surface 13, and the clamping grooves 132 are arranged on the other corresponding side surface 13.

The upper paving overlay 11 is provided with a plurality of through holes 112 communicated with the cavity 16. It can play a role in weight reduction and also has a heat exchange function; when the tile is laid by using the glue (foaming glue), the foaming glue can permeate into the through holes 112 to play a role in firmly locking.

Advantageously, said side 13 is also provided with ground fixing connection holes 133 for fixing the module body 1 to the ground.

As shown in fig. 14, a pipe groove 111 for installing a floor heating pipe is provided on the upper mat 11. A clamping hole for mounting a ground heating pipe clamping nail is arranged in the pipe groove 111. The card hole may also form a through hole 112. In addition, the cavity 16 is filled with a heat insulating material 17, such as foamed polyurethane, and the lower mounting surface 12 is provided with a reflecting film 18 having an area consistent with that of the module body 1. The structure enables heat generated by the ground heating pipe to be transmitted to the indoor in a one-way mode by filling the cavity 16 with the heat insulation material and arranging the reflection film 18 such as aluminum foil, and has the effects of energy conservation and heat insulation.

Embodiment 2 ceramic tile ground heating coil dry laying structure

As shown in fig. 11-17, the tile floor heating pipe dry-laying structure comprises:

a plurality of the ceramic tile dry-laying modules of embodiment 1, wherein adjacent ceramic tile dry-laying modules are spliced through a connecting structure;

the ground heating pipes are laid in pipe grooves 111 of the ceramic tile ground heating pipe dry laying modules;

the adjustable bolts 2 comprise bolt columns 21, one ends of the bolt columns 21 are provided with bearing supports 22, and the end heads of the other ends of the bolt columns 21 are provided with adjusting counter bores 23 or adjusting bosses. The diameter of the backup support 22 is sized larger to provide greater support. The adjustable bolt 2 penetrates through the threaded hole 142, and the adjusting counter bore 23 corresponds to the adjusting hole 141;

a plurality of ceramic tiles, wherein the ceramic tiles are laid on the upper paving veneers 11 of the ceramic tile dry-paving modules;

and the adhesive layer is positioned between the upper paving surface 11 and the ceramic tile.

The adjusting counter bore 23 may be an inner hexagonal counter bore, an inner four-corner counter bore, a straight-line counter bore or a cross counter bore. The adjusting boss can be an outer hexagonal counter bore and an outer four-corner counter bore. The height of the adjustable bolt 2 can be adjusted by using a corresponding wrench or screwdriver, so that the leveling of the upper paving veneers 11 is realized.

The structure further includes: the L-shaped installation parts 3 comprise a side panel 31 and a plane panel 32, wherein the side panel 31 is provided with a screw 33 installation hole, and the plane panel 32 is provided with a nail shooting through hole; a plurality of screws 33, said screws 33 being connected to the side 13 of the tile dry-laying module through the mounting holes; a plurality of shot pins 34, said shot pins 34 being connected to the ground through the shot pin perforations.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (13)

1. The dry-paving module for the ceramic tile floor heating pipe comprises a module body and is characterized in that the module body comprises an upper paving veneering which is flat as a whole, a pipe groove for installing the floor heating pipe is formed in the upper paving veneering, a plurality of longitudinal ribs are arranged below the upper paving veneering, a plurality of cavities with downward openings are formed by the longitudinal ribs and the upper paving veneering in a surrounding mode, lower installing surfaces which are flat as a whole are formed by lower parallel and level parts of the longitudinal ribs, heat-insulating materials are filled in the cavities, and reflecting films with the areas consistent with the areas of the module body are arranged on the lower installing surfaces.

2. The dry-laying module for tile floor heating pipes according to claim 1, wherein the module body further comprises a side surface, and a connecting structure for connecting adjacent module bodies is provided on the side surface.

3. The dry-laying module for tile floor heating pipes according to claim 2, wherein the connecting structure comprises at least one pair of a clamping strip and a clamping groove which are matched, wherein the clamping strip is arranged on one side surface, and the clamping groove is arranged on the other corresponding side surface.

4. The dry-laying module for tile floor heating pipes according to claim 1, wherein a plurality of adjustable support structures are further provided below the module body for adjusting the levelness of the upper laying surface.

5. The dry-laying module for tile floor heating pipes of claim 4, wherein the adjustable support structure is a bolted connection hole.

6. The dry-laying module for tile floor heating pipes according to claim 5, wherein the bolt connection holes comprise adjustment holes connecting the upper laying veneers and threaded holes connecting the lower mounting surfaces, and the adjustment holes correspond to the threaded holes.

7. The dry-laying module for tile floor heating pipes according to claim 5, wherein the plurality of longitudinal ribs meet to form a plurality of meeting points, all or a portion of the plurality of meeting points forming a support pedestal, the bolt attachment hole being located in the support pedestal.

8. The dry-laying module for tile floor heating pipes as claimed in claim 6, wherein the threaded hole is formed by machining the module body or by embedding a threaded sleeve in the module body.

9. The dry-laying module for tile floor heating pipes according to claim 1, wherein the upper laying veneer is provided with a plurality of through holes communicating with the cavity.

10. Ceramic tile ground heating coil dry-laying structure, its characterized in that includes:

a plurality of tile floor heating pipe dry-laying modules as claimed in any one of claims 1 to 9, wherein adjacent tile floor heating pipe dry-laying modules are spliced together;

the floor heating pipes are laid in pipe grooves of the ceramic tile floor heating pipe dry laying modules;

the adjustable supporting pieces are connected below the ceramic tile floor heating pipe dry laying module;

the ceramic tiles are laid on the upper laying veneers of the ceramic tile ground heating pipe dry laying module;

and the adhesive layer is positioned between the upper paving veneer and the ceramic tile.

11. The dry-laying structure of the tile floor heating pipe as claimed in claim 10, wherein the adjustable supporting member is an adjustable bolt, the adjustable bolt comprises a bolt column, one end of the bolt column is provided with a supporting support, and the end head part of the other end is provided with an adjusting counter bore or an adjusting boss; the adjustable bolt penetrates through the ceramic tile ground heating pipe dry laying module.

12. The dry-laying structure of a tile floor heating pipe as claimed in claim 11, wherein the adjusting counter bore is an inner hexagonal counter bore, an inner quadrangular counter bore, a straight-line counter bore or a cross counter bore; the adjusting lug boss is an outer hexagonal lug boss or an outer four-corner lug boss.

13. The dry-laying structure of a ceramic tile floor heating pipe as claimed in claim 10, further comprising:

the L-shaped installation pieces comprise side panels and flat panels, wherein the side panels are provided with screw installation holes, and the flat panels are provided with shooting nail through holes;

the screws penetrate through the mounting holes and are connected to the side face of the tile floor heating pipe dry laying module;

a plurality of shooting nails which pass through the shooting nail through holes and are connected to the ground.

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