CN108149885B - Floor heating assembly and paving method thereof - Google Patents

Abstract

The invention discloses a floor heating assembly, which comprises a plurality of heat preservation boards, diamond-shaped connecting pieces and a plurality of panels, wherein the heat preservation boards are paved on the ground; any two adjacent heat-insulating boards are spliced together, a water pipe groove for placing a water pipe is formed in the upper surface of each heat-insulating board, and a water pipe is placed in each water pipe groove; and a connecting groove for placing the diamond-shaped connecting pieces is formed in the upper surface of each heat-insulating plate, each diamond-shaped connecting piece is correspondingly assembled in the connecting groove, and any two adjacent diamond-shaped connecting pieces are connected together. The invention also discloses a paving method of the floor heating assembly. The floor heating assembly has the advantages of light dead weight, reduction of bearing pressure of the floor slab, realization of industrialized production and rapid installation of the plate, improvement of construction efficiency, large heat dissipation capacity, rapid temperature rise and satisfaction of rapid heating requirements.

Description

Floor heating assembly and paving method thereof

Technical Field

The invention relates to the technical field of decoration, in particular to a floor heating assembly and a paving method thereof.

Background

Low-temperature floor heating radiation heating is a heating system using the floor inside a building as a heat sink. The existing floor heating paving method is wet paving, and the structure of the floor heating paving method is divided into a heat insulation layer, a filling layer and a balance layer. The heat insulating layer is located above the floor slab surface layer, and the water pipe coil is fixed on the heat insulating layer by using a plastic fastener. The filling layer is made of concrete, and is paved on the water pipe by stirring on site, and the thickness is 40-60 mm; the balancing layer is over the filling layer and has a thickness of between about 20-30 mm. The floor heating paved by adopting the wet method improves the floor by 80-110mm, so that the floor heating paved by adopting the wet method has the problems of higher occupied layer height, great self weight, high construction difficulty, poor maintainability and the like.

Disclosure of Invention

The invention aims to provide a floor heating assembly and a paving method thereof, which are convenient to pave, small in occupied layer height, convenient to maintain and good in heating effect.

The technical scheme of the invention provides a floor heating assembly, which comprises a plurality of heat preservation boards, diamond-shaped connecting pieces and a plurality of panels, wherein the heat preservation boards are paved on the ground;

any two adjacent heat-insulating boards are spliced together, a water pipe groove for placing a water pipe is formed in the upper surface of each heat-insulating board, and a water pipe is placed in each water pipe groove;

and a connecting groove for placing the diamond-shaped connecting pieces is formed in the upper surface of each heat-insulating plate, each diamond-shaped connecting piece is correspondingly assembled in the connecting groove, and any two adjacent diamond-shaped connecting pieces are connected together.

Further, the diamond-shaped connecting piece comprises a diamond-shaped connecting piece main body, and a male connector and a female connector which can be mutually matched;

the male connectors are respectively arranged at two end parts of the connecting piece main body, and the female connectors are respectively arranged at the other two end parts of the connecting piece main body;

wherein one male connector and one female connector are positioned on one diagonal line of the connecting piece main body, and the other male connector and the other female connector are positioned on the other diagonal line of the connecting piece main body;

the connecting piece main body is arranged in the connecting groove, and the two male connectors and the two female connectors are arranged around the heat insulation board;

in the two diamond-shaped connecting pieces on any two adjacent heat insulation boards, one female connector of one diamond-shaped connecting piece is connected with one male connector of the other diamond-shaped connecting piece.

Further, the heat-insulating plate is square, and the middle of each side of the heat-insulating plate is provided with a containing groove;

the two male connectors and the two female connectors of the diamond-shaped connecting piece on each heat insulation plate are respectively arranged in the corresponding accommodating grooves.

Further, the male connector comprises a male connector main body, the female connector comprises a female connector bottom plate, and a claw for clamping the male connector main body is arranged on the female connector bottom plate;

in any two adjacent diamond-shaped connecting pieces, the male connector main body of one diamond-shaped connecting piece is connected with the female connector bottom plate of the other diamond-shaped connecting piece through the clamping jaw.

Further, two connector clamping grooves are formed in the top surface of the male connector main body, and a buckle is respectively arranged in each connector clamping groove;

each panel is fixedly connected with the diamond-shaped connecting piece through the buckle.

Further, four edges of each panel are respectively and fixedly connected with the diamond-shaped connecting piece through the buckles.

Further, the panels are square, and clamping holes are formed in the middle of each side of each panel;

each clamping hole is aligned with one clamping groove of the connector, and the buckle penetrates through the clamping hole and is clamped in the clamping groove of the connector.

Further, two baffles which are oppositely arranged extend downwards in an inclined way at the notch of the connector clamping groove;

the buckle comprises a buckle main body and protruding parts oppositely arranged at two sides of the buckle main body;

the buckle main body is inserted into the connector clamping groove, and each protruding part is respectively clamped with one baffle plate.

Further, a through groove is formed in the middle of the buckle main body, and the two protruding portions are located on two sides of the through groove respectively.

Further, limiting plates used for limiting the male connector main body are arranged around the female connector bottom plate, and the clamping jaws are arranged on the limiting plates.

Further, a step part is arranged on the male connector main body, and a clamping end head matched with the step part is arranged on the clamping jaw.

Further, the interior of the male connector main body is of a hollow structure.

Further, the connecting piece main body comprises four connecting rods, and the four connecting rods are sequentially connected to form a diamond structure;

the connecting grooves are of diamond structures, and four connecting rods are sequentially arranged in the connecting grooves of the diamond structures.

Further, a reinforcing support rod is arranged between two adjacent connecting rods.

Further, the panel and the heat insulation board are square;

and each end of each of the panels is positioned directly intermediate one of the insulation panels.

Further, any two adjacent heat insulation boards are bonded through aluminum foil adhesive tapes.

Further, at least one aluminum foil tape layer is arranged above the water pipe.

Further, the panel comprises a plastic substrate fixedly connected with the diamond-shaped connecting piece and a surface decoration plate bonded with the plastic substrate.

The technical scheme of the invention also provides a paving method for paving the floor heating assembly according to any one of the technical schemes, which comprises the following steps:

s001: leveling the ground;

s002: sequentially paving heat-insulating plates at corresponding positions on the ground, splicing any two adjacent heat-insulating plates together, and simultaneously bonding the two adjacent heat-insulating plates through an aluminum foil tape;

s003: a diamond-shaped connecting piece is arranged in the connecting groove of each heat-insulating plate, and in any two adjacent diamond-shaped connecting pieces, the male connector of one diamond-shaped connecting piece is fastened with the female connector of the other diamond-shaped connecting piece;

s004: paving a water pipe in a water pipe groove of the heat-insulating plate, and arranging at least one aluminum foil tape layer above the water pipe;

s005: and paving a panel above the diamond-shaped connecting piece, and enabling the panel to be clamped with the male connector of the diamond-shaped connecting piece through a buckle.

By adopting the technical scheme, the method has the following beneficial effects:

the floor heating assembly provided by the invention has the advantages that the self weight is light, the bearing pressure of a floor slab is reduced, the industrialized generation and the rapid installation of plates are realized, and the construction efficiency is improved; because the concrete layer and the balance layer are not paved above the water pipe, the heat dissipation capacity is large, the temperature rise is quick, and the requirement of quick heating is met. The surface decorative plate can be selected as various floor materials such as floors, tiles, stones and the like, has high selectivity and meets different requirements. The paving method of the floor heating assembly is convenient to construct, improves the construction efficiency, is in modularized operation in the whole process, and can ensure that the working site is clean.

Drawings

FIG. 1 is a perspective view of a floor heating assembly according to an embodiment of the present invention;

FIG. 2 is an exploded view of the panels, diamond shaped connectors and insulation panels connected;

FIG. 3 is an exploded view of the panel, clasp, and diamond connector when connected;

FIG. 4 is a perspective view of a diamond shaped connector;

fig. 5 is a perspective view of the male connector from a first angle;

FIG. 6 is a perspective view of the male connector from a second perspective;

FIG. 7 is a perspective view of the female connector;

FIG. 8 is an exploded view of the diamond shaped connector assembled with the insulation board;

FIG. 9 is a schematic illustration of two diamond shaped connector connections;

fig. 10 is a perspective view of the clasp.

Detailed Description

Specific embodiments of the present invention will be further described below with reference to the accompanying drawings. Wherein like parts are designated by like reference numerals. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

As shown in fig. 1 to 3 and 8, an embodiment of the present invention provides a floor heating assembly including a plurality of insulation boards 1 for being laid on the ground, a diamond-shaped connector 2 provided on each insulation board 1, and a plurality of panels 3 connected above the diamond-shaped connector 2.

Two adjacent heat preservation boards 1 are spliced together, water pipe grooves 12 for placing water pipes are formed in the upper surface of each heat preservation board 1, and water pipes are placed in each water pipe groove 12.

A connection groove 11 for placing the diamond-shaped connection pieces 2 is provided on the upper surface of each heat insulation board 1, each diamond-shaped connection piece 2 is correspondingly assembled in the connection groove 11, and any adjacent two diamond-shaped connection pieces 2 are connected together.

That is, the floor heating assembly includes a plurality of insulation boards 1, a plurality of diamond-shaped connectors 2, and a plurality of panels 3.

The heat preservation board 1 is an insulating board, a water pipe groove 12 is arranged on the upper surface of the insulating board, a water pipe is arranged in the water pipe groove 12, hot water is supplied into the water pipe, and heat of the hot water is upwards conducted into a room, so that the effect of heating or supplying heat to the room is realized.

The water pipe groove 12 is arc-shaped or semicircular, so that the path of the water pipe in the heat insulation board 1 can be prolonged, the area of the water pipe in the heat insulation board 1 is increased, and the heat dissipation effect is improved.

The heat insulation board 1 can play a role in heat insulation, avoids downward conduction of heat of hot water in the water pipe, and is beneficial to improving the heat dissipation effect.

On the upper surface of each insulation board 1, a connection groove 11 is provided, and in each connection groove 11, a diamond-shaped connection member 2 is installed. The diamond shaped connector 2 may be a plastic piece.

Two adjacent heat preservation boards 1 are spliced together, and two adjacent diamond-shaped connecting pieces 2 are fastened together. The diamond-shaped connecting piece 2 plays a role in fastening and shaping the heat-insulating plates 1, so that the heat-insulating plates 1 are prevented from loosening or tilting or deforming, and the stability of connection between the heat-insulating plates 1 is improved.

The panel 3 is arranged on the diamond-shaped connecting piece 2, so that the floor heating assembly provided by the invention has the advantages that the concrete layer and the balance layer are not paved above the water pipe, the heat dissipation capacity is large, the temperature rise is quick, and the requirement of quick heating is met. The floor heating assembly provided by the invention has the advantages of light weight, reduced bearing pressure of the floor slab, realization of industrialized plate generation and rapid installation, and improved construction efficiency.

The diamond-shaped connecting piece, the heat-insulating plate and the panel are industrially produced in factories, only simple installation is needed on the decoration site, no skilled technical workers are needed on the site, too much construction time is not needed, quick construction is realized, and the condition that the traditional decoration operation site is dirty is avoided.

Preferably, as shown in fig. 4 and 9, the diamond-shaped connector 2 includes a diamond-shaped connector body 21 and male and female connectors 22 and 23 capable of being mated with each other.

A male connector 22 is provided at each of both end portions of the connector body 21, and a female connector 23 is provided at each of the other two end portions of the connector body 21.

Wherein one male connector 22 and one female connector 23 are located on one diagonal of the connector body 21, and the other male connector 22 and the other female connector 23 are located on the other diagonal of the connector body 21.

When in assembly, the connecting piece main body 21 is arranged in the connecting groove 11, and the two male connectors 22 and the two female connectors 23 are arranged around the heat insulation board 1.

Of the two diamond-shaped connectors 2 on any two adjacent heat insulation boards 1, one female connector 23 of one diamond-shaped connector 2 is connected with one male connector 22 of the other diamond-shaped connector 2.

That is, the diamond-shaped connecting piece is a diamond-shaped connecting piece, and the connecting piece main body 21 of the diamond-shaped connecting piece is diamond-shaped and is used for being placed in the connecting groove 11 of the heat insulation board 1, so that the function of supporting the heat insulation board 1 is achieved, and the deformation of the heat insulation board 1 is avoided.

The diamond-shaped connector body 21 has four ends, two of which are provided with male connectors 22, respectively, and the other two of which are provided with female connectors 23, respectively, the female connectors 23 being capable of mating with the male connectors 22.

The arrangement is such that one male connector 22 and one female connector 23 are on one diagonal of the connector body 1 and the other male connector 22 and the other female connector 23 are on the other diagonal of the connector body 1.

When needing the installation, female connector 23 on one diamond connecting piece 2 is connected with the public connector 22 on another diamond connecting piece 2 cooperation, and then fastens two adjacent diamond connecting pieces 2 together to can fix polylith heated board 1, easy to assemble, and improved the stability of heated board.

Preferably, as shown in fig. 2 and 8, the insulation board 1 is square, and the middle of each side of the insulation board 1 is provided with a containing groove 13.

Two male connectors 22 and two female connectors 23 of the diamond-shaped connecting pieces 2 on each heat insulation plate 1 are respectively arranged in the corresponding accommodating grooves 13.

The male connector 22 and the female connector 23 are prevented from protruding out of the upper surface and the lower surface of the heat insulation board 1, so that the surface of the upper side and the surface of the lower side of the heat insulation board 1 can be kept flat, assembly between the heat insulation boards 1 is facilitated, and installation between the heat insulation boards 1 and the upper panel 3 is facilitated.

Preferably, as shown in fig. 4 to 7, the male connector 22 includes a male connector body 221, the female connector 23 includes a female connector bottom plate 231, and a claw 233 for holding the male connector body 221 is provided on the female connector bottom plate 231.

In assembly, the male connector body 221 of one diamond-shaped connector 2 is connected with the female connector base 231 of the other diamond-shaped connector 2 by the claw 233 in any two adjacent diamond-shaped connectors 2.

When two adjacent diamond-shaped connection pieces 2 are connected, one male connector body 221 on one diamond-shaped connection piece 2 is positioned on one female connector bottom plate 231 on the other diamond-shaped connection piece 2, and the male connector body 221 is fastened on the female connector bottom plate 231 through a claw 233, so that the two diamond-shaped connection pieces 2 are fastened and connected together.

Preferably, as shown in fig. 2-6, two connector clamping grooves 222 are provided on the top surface of the male connector main body 221, and a buckle 33 is respectively configured in each connector clamping groove 222.

Each panel 3 is fixedly connected with the diamond-shaped connecting piece 2 through a buckle 33.

The panel 3 is snapped together with the diamond shaped connector 2 by means of the snap-in 33 and thereby the panel 3 is assembled over the water pipe. On one hand, the connection is realized through the buckle 33, so that the assembly is convenient, and the construction efficiency is improved; on the other hand, the water pipes are connected through the buckles 33, so that a concrete layer and a balance layer are not required to be arranged between the water pipes and the panel 3, heat in the water pipes can be quickly transferred to the panel, and the heat dissipation effect is improved.

Preferably, as shown in fig. 3, four edges of each panel 3 are respectively fastened and connected with the diamond-shaped connecting piece 2 through the fastener 33, so that the connection stability between the two is improved, the panels 3 and the insulation boards 1 below are arranged in a staggered manner, and damage to the insulation boards 1 below due to force application of four corners of the panels 3 is prevented, and the surface flatness is influenced.

Preferably, as shown in fig. 3-6, the panels 3 are square, and a clamping hole 34 is arranged in the middle of each side of each panel 3.

Each of the clamping holes 34 is aligned with one of the connector clamping grooves 222, and the clamping buckles 33 pass through the clamping holes 34 and are clamped in the connector clamping grooves 222, so that the panel 3 and the male connectors 22 on one of the diamond-shaped connecting pieces 2 are fastened together.

Preferably, as shown in fig. 3-6 and 10, two opposing baffles 2221 extend obliquely downward at the notch of the connector slot 222.

The buckle 33 includes a buckle body 331 and protrusions 332 oppositely disposed at both sides of the buckle body 331.

The buckle main body 331 is inserted into the connector clamping groove 222, and each protruding portion 332 is respectively clamped with one baffle 2221.

The protrusion 332 is restricted by the baffle 2221, and is prevented from being separated from the connector clamping groove 222, so that the fastener 33 is tightly fastened in the connector clamping groove 222, and the panel 3 and the male connector 22 are fastened together.

Preferably, as shown in fig. 10, a through slot 333 is provided in the middle of the buckle main body 331, and two protruding portions 332 are respectively located at two sides of the through slot 333. Through the through groove 333 provided in the middle of the buckle main body 331, the structure thickness between the two protruding portions 332 is reduced, so that the protruding portions 332 on two sides can be deformed respectively, and have elastic deformation capability, and are beneficial to being inserted into the connector clamping groove 222 to be matched with the baffle 2221.

Preferably, as shown in fig. 7, a limiting plate 232 for limiting the male connector main body 221 is disposed around the female connector bottom plate 231, and a claw 233 is disposed on the limiting plate 232.

The jaw 233, the limiting plate 232 and the female coupling head body 231 are integrally formed to improve structural strength thereof.

When two diamond-shaped connecting pieces 2 are assembled, one of the male connector main bodies 221 is positioned between the limiting plates 232 on one of the female connector bottom plates 231 and fixed by the clamping claws 233, so that the stability of connection between the male connector 22 and the female connector 23 is improved, and the male connector 22 is prevented from falling out of the female connector 23.

Preferably, as shown in fig. 5 to 7, a step 223 is provided on the male connector body 221, and a catch 233 has a catch end 2331 for engaging with the step 223. When the two diamond-shaped connectors 2 are assembled, the clamping end 2331 of each claw 233 on one female connector 23 is clamped with the step 223 on one male connector 22, so that the male connector 22 and the female connector 23 are fastened together.

Preferably, as shown in fig. 5 to 7, the stopper plate 232 includes a back side stopper plate 2322 near the connector body 21 side and a front side stopper plate 2321 far from the connector body 21 side, and the back side stopper plate 2322 is disposed in parallel with the front side stopper plate 2321.

One pawl 233 is provided on the back side stopper plate 2322, and two pawls 233 are provided on the front side stopper plate 2321.

Two stepped portions 223 are provided on the back side of the male connector main body 221 on the side close to the connector main body 21, and one stepped portion 223 is provided on the front side of the male connector main body 221 on the side away from the connector main body 21.

The three claws 233 are arranged in a triangle shape, and the three stepped portions 223 are also arranged in a triangle shape, so that when the three claws 233 and the three stepped portions 223 are clamped together, the stability of connection is improved.

Preferably, the inside of the male connector body 221 is a hollow structure, reducing the weight of the structure.

Preferably, as shown in fig. 4 and 8, the connector body 21 includes four connecting rods 211, and the four connecting rods 211 are sequentially connected to form a diamond structure.

The connecting groove 11 is of a diamond structure, and the four connecting rods 211 are sequentially arranged in the connecting groove 11 of the diamond structure, so that the function of supporting the heat insulation board 4 is achieved, and the deformation of the heat insulation board is avoided. The diamond structure has better supporting effect on the heat insulation board 1, and can better prevent the heat insulation board 1 from deforming. The connecting piece main body 21 is formed by four connecting rods 211, so that the structural weight is reduced, the connecting piece main body is beneficial to being installed with the heat insulation board 1, a large-area groove is not required to be formed in the heat insulation board 1, and the influence on the structural strength of the heat insulation board is avoided.

Preferably, a reinforcing support bar 212 is provided between two adjacent connection bars 211 to improve the structural strength of the connector body 1.

The male connector 22, the female connector 23, the connecting rod 211 and the reinforcing support rod 212 are integrally formed to improve the overall structural strength.

Preferably, the panels and the insulation panels are square. And each end of each panel 3 is positioned in the middle of one heat insulation board 1, so that the panels 3 and the heat insulation boards 1 below are arranged in a staggered manner, and damage to the heat insulation boards 1 on the lower layer caused by force application of four corners of the panels 3 is prevented, and the surface flatness is influenced.

Preferably, any two adjacent heat insulation boards 1 are bonded through aluminum foil adhesive tapes. The aluminum foil tape seals gaps between adjacent heat insulation boards 1, and plays roles in connecting the heat insulation boards 1 and avoiding heat loss.

Preferably, at least one aluminum foil tape layer is arranged above the water pipe to protect the water pipe.

Preferably, as shown in fig. 2-3 and 10, the panel 3 includes a plastic substrate 31 fixedly coupled to the diamond-shaped connector 2 and a surface decorative plate 32 bonded to the plastic substrate 31.

The clamping hole 34 is formed in the plastic substrate 31, a flat top plate 334 is arranged on the top of the clamping main body 331, the top plate 334 is fastened in the clamping hole 34, and the top surface of the top plate 334 is flush with the top surface of the plastic substrate 31.

The surface decorative plate 32 is bonded to the plastic substrate 31.

During assembly, the plastic substrate 31 is fastened on the diamond-shaped connecting piece 2 through the buckle 33, and then the surface decoration plate 32 and the plastic substrate 31 are bonded together through the adhesive or glue, so that the assembly is convenient.

And the surface decorative board 32 can be made of various floor materials such as floors, tiles, stones and the like, has high selectivity and meets different requirements.

An embodiment of the present invention further provides a paving method for paving the floor heating assembly described in any of the foregoing embodiments, with reference to fig. 1 to 10, including the following steps:

s001: leveling the ground.

S002: the heat insulation boards 1 are sequentially paved at corresponding positions on the ground, any two adjacent heat insulation boards 1 are spliced together, and meanwhile, the two adjacent heat insulation boards 1 are bonded through aluminum foil adhesive tapes.

S003: the diamond-shaped connecting pieces 2 are arranged in the connecting grooves 11 of each heat insulation plate 1, and in any two adjacent diamond-shaped connecting pieces 2, the male connector 22 of one diamond-shaped connecting piece 2 is fastened with the female connector 23 of the other diamond-shaped connecting piece 2.

S004: a water pipe is paved in the water pipe groove 12 of the heat insulation board 1, and at least one aluminum foil tape layer is arranged above the water pipe.

S005: the panel 3 is laid on the diamond-shaped connecting piece 2, and the panel 3 is clamped with the male connector 22 of the diamond-shaped connecting piece 2 through the buckle 33.

The paving method of the floor heating assembly mainly comprises the following steps:

the first step: leveling the ground, wherein the flatness is controlled within less than or equal to 2 mm.

And a second step of: paving the heat-insulating plates 1 according to the drawing, closely splicing the adjacent heat-insulating plates 1, and pasting the gaps between the heat-insulating plates 1 and the heat-insulating plates 1 by using aluminum foil adhesive tapes.

And a third step of: and installing the diamond-shaped connecting pieces 2, placing the diamond-shaped connecting pieces 2 in the connecting grooves 11 reserved for each heat insulation plate 1, clamping adjacent diamond-shaped connecting pieces 2 through male connectors and female connectors, and clamping the male connectors 22 in the female connectors 23 to connect the adjacent diamond-shaped connecting pieces 2 together and accommodate the adjacent diamond-shaped connecting pieces in the heat insulation plates 1. Specifically, the connector body 21 is immersed or accommodated in the connection groove 11, and the male connector 22 and the female connector 23 are immersed or accommodated in the accommodation groove 13.

Fourth step: according to the drawing, water pipes are paved in the water pipe grooves 12 of the heat-insulating plate 1. After the water pipe is paved, an aluminum foil tape is paved above the water pipe to protect the water pipe.

Fifth step: the panel 3 is installed, the plastic substrate 31 of the panel 3 and the diamond-shaped connecting piece 2 below are in dislocation buckling through the buckling 33, so that the damage to the lower heat insulation board 1 caused by the force applied to four corners of the panel 3 is prevented, and the surface smoothness is influenced.

Sixth step: and corresponding auxiliary facilities for water heating are regulated and set, so that the floor heating function is ensured.

The paving method of the floor heating assembly is convenient to construct and improves the construction efficiency. The diamond-shaped connecting piece, the heat-insulating plate and the panel are industrially produced in factories, only simple installation is needed on the decoration site, no skilled technical workers are needed on the site, too much construction time is not needed, quick construction is realized, and the condition that the traditional decoration operation site is dirty is avoided.

The above technical schemes can be combined according to the need to achieve the best technical effect.

What has been described above is merely illustrative of the principles and preferred embodiments of the present invention. It should be noted that several other variants are possible to those skilled in the art on the basis of the principle of the invention and should also be considered as the scope of protection of the present invention.

Claims (18)

1. The floor heating assembly is characterized by comprising a plurality of heat preservation boards, diamond-shaped connecting pieces and a plurality of panels, wherein the heat preservation boards are paved on the ground, the diamond-shaped connecting pieces are arranged on each heat preservation board, and the panels are connected above the diamond-shaped connecting pieces;

any two adjacent heat-insulating boards are spliced together, a water pipe groove for placing a water pipe is formed in the upper surface of each heat-insulating board, and a water pipe is placed in each water pipe groove;

a connecting groove for placing the diamond-shaped connecting pieces is formed in the upper surface of each heat-insulating plate, each diamond-shaped connecting piece is correspondingly assembled in the connecting groove, and any two adjacent diamond-shaped connecting pieces are connected together;

the diamond-shaped connecting piece comprises a diamond-shaped connecting piece main body, and a male connector and a female connector which can be mutually matched;

the male connectors are respectively arranged at two end parts of the connecting piece main body, and the female connectors are respectively arranged at the other two end parts of the connecting piece main body;

wherein one male connector and one female connector are positioned on one diagonal line of the connecting piece main body, and the other male connector and the other female connector are positioned on the other diagonal line of the connecting piece main body;

the connecting piece main body is arranged in the connecting groove, and the two male connectors and the two female connectors are arranged around the heat insulation board;

in the two diamond-shaped connecting pieces on any two adjacent heat insulation boards, one female connector of one diamond-shaped connecting piece is connected with one male connector of the other diamond-shaped connecting piece.

2. The floor heating assembly according to claim 1, wherein the heat preservation plate is square, and a containing groove is arranged in the middle of each side of the heat preservation plate;

the two male connectors and the two female connectors of the diamond-shaped connecting piece on each heat insulation plate are respectively arranged in the corresponding accommodating grooves.

3. The floor heating assembly according to claim 1, wherein the male connector comprises a male connector body, the female connector comprises a female connector bottom plate, and a claw for clamping the male connector body is arranged on the female connector bottom plate;

in any two adjacent diamond-shaped connecting pieces, the male connector main body of one diamond-shaped connecting piece is connected with the female connector bottom plate of the other diamond-shaped connecting piece through the clamping jaw.

4. The floor heating assembly according to claim 3, wherein two connector clamping grooves are formed in the top surface of the male connector main body, and a buckle is respectively arranged in each connector clamping groove;

each panel is fixedly connected with the diamond-shaped connecting piece through the buckle.

5. The floor heating assembly according to claim 4, wherein four edges of each panel are respectively fastened and connected with diamond-shaped connectors through the buckles.

6. The floor heating assembly according to claim 5, wherein the panels are square, and a clamping hole is formed in the middle of each side of each panel;

each clamping hole is aligned with one clamping groove of the connector, and the buckle penetrates through the clamping hole and is clamped in the clamping groove of the connector.

7. The floor heating assembly according to claim 6, wherein two opposing baffles extend obliquely downward at the notch of the connector slot;

the buckle comprises a buckle main body and protruding parts oppositely arranged at two sides of the buckle main body;

the buckle main body is inserted into the connector clamping groove, and each protruding part is respectively clamped with one baffle plate.

8. The floor heating assembly according to claim 7, wherein a through groove is provided in the middle of the buckle main body, and two protruding portions are respectively located at two sides of the through groove.

9. The floor heating assembly according to claim 3, wherein limiting plates for limiting the male connector main body are arranged on the periphery of the female connector bottom plate, and the clamping jaws are arranged on the limiting plates.

10. The floor heating assembly of claim 9, wherein a step is provided on the male connector body and the pawl has a retaining end thereon for mating with the step.

11. The floor heating assembly of claim 3, wherein the interior of the male connector body is hollow.

12. The floor heating assembly according to claim 1, wherein the connector body comprises four connecting rods, the four connecting rods being connected in sequence to form a diamond-shaped structure;

the connecting grooves are of diamond structures, and four connecting rods are sequentially arranged in the connecting grooves of the diamond structures.

13. The floor heating assembly of claim 12, wherein a reinforcing support bar is disposed between two adjacent said connecting bars.

14. The floor heating assembly of claim 1, wherein the face plate and the insulation plate are square;

and each end of each of the panels is positioned directly intermediate one of the insulation panels.

15. The floor heating assembly of claim 1, wherein any two adjacent heat preservation plates are bonded by aluminum foil tape.

16. The floor heating assembly of claim 15, wherein at least one aluminum foil tape layer is disposed over the water tubes.

17. The floor heating assembly of claim 1, wherein the panel comprises a plastic base plate securely connected to the diamond shaped connector and a surface fascia bonded to the plastic base plate.

18. A method of paving the floor heating assembly of any of claims 1-17, comprising the steps of:

s001: leveling the ground;

s002: sequentially paving heat-insulating plates at corresponding positions on the ground, splicing any two adjacent heat-insulating plates together, and simultaneously bonding the two adjacent heat-insulating plates through an aluminum foil tape;

s003: a diamond-shaped connecting piece is arranged in the connecting groove of each heat-insulating plate, and in any two adjacent diamond-shaped connecting pieces, the male connector of one diamond-shaped connecting piece is fastened with the female connector of the other diamond-shaped connecting piece;

s004: paving a water pipe in a water pipe groove of the heat-insulating plate, and arranging at least one aluminum foil tape layer above the water pipe;

s005: and paving a panel above the diamond-shaped connecting piece, and enabling the panel to be clamped with the male connector of the diamond-shaped connecting piece through a buckle.