CN219261624U - Polypropylene heat preservation module radiation heating ground structure - Google Patents

Abstract

The utility model discloses a radiation heating ground structure of a polypropylene heat preservation module, which comprises a structural bottom layer, wherein a cement mortar leveling layer is arranged on the structural bottom layer, a heat insulation heat preservation layer is arranged on the upper part of the cement mortar leveling layer, an aluminum foil is arranged at the top of the heat insulation heat preservation layer, a gravel concrete layer is arranged on the upper part of the aluminum foil, the top of the gravel concrete layer is connected with a bottom surface decorative layer, pipe grooves are uniformly formed in the gravel concrete layer, a geothermal pipe is arranged in the pipe grooves and is fixed through fixing staples, and expansion gaps are formed between the geothermal pipe and the walls of the pipe grooves. The heating floor is composed of the multi-layer structure layers, a good heat preservation effect is formed, the pipe grooves are formed in the gravel concrete layer, the geothermal pipes are fixedly installed in the pipe grooves through the fixing staples, reasonable expansion gaps are formed between the pipe grooves and the geothermal pipes, the heat supply efficiency of the geothermal pipes is guaranteed, and meanwhile the service life of the geothermal pipes is prolonged.

Description

Polypropylene heat preservation module radiation heating ground structure

Technical Field

The utility model relates to a floor heating ground structure, in particular to a radiation heating ground structure of a polypropylene heat preservation module.

Background

With the rapid development of economy and society, the demands of people for household heating are diversified, the heating pipes are installed in the bottom surface in a centralized collective heating mode in the cold winter, the heating area is increased, the heating pipes are buried through concrete, the heating pipes can be in expansion and contraction states in different seasons in different use states, the heating pipes can be directly buried through concrete to enable the heating pipes to be worn and damaged in expansion and contraction processes, the heating efficiency of the heating pipes is reduced, and the service life of the heating pipes is greatly shortened.

Disclosure of Invention

In order to overcome the problems in the prior art, the utility model provides a radiation heating floor structure of a polypropylene heat preservation module.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a polypropylene heat preservation module radiation heating ground structure, includes the structure bottom, be provided with cement mortar screed-coat on the structure bottom, cement mortar screed-coat's upper portion is provided with adiabatic heat preservation, adiabatic heat preservation's top is provided with the aluminium foil, the upper portion of aluminium foil is provided with gravel concrete layer, the bottom surface decorative layer is connected at gravel concrete layer's top, evenly be provided with the pipe slot in the gravel concrete layer, the intraductal installation of pipe slot is provided with the geothermal pipe, the geothermal pipe is fixed through fixed staple, be provided with the inflation gap between the cell wall of geothermal pipe slot.

The polypropylene heat preservation module radiation heating ground structure comprises a structural bottom layer, wherein the structural bottom layer comprises a heat insulation layer and an isolation layer, and the heat insulation layer is arranged on the upper portion of the isolation layer.

According to the radiation heating ground structure of the polypropylene heat preservation module, the bottom decorative layer is a wood floor or a ceramic tile plate.

According to the radiation heating ground structure of the polypropylene heat preservation module, the heat insulation layer is made of polypropylene materials.

According to the radiation heating ground structure of the polypropylene heat preservation module, the gravel concrete layer is provided with the keels for supporting the grooves.

According to the radiation heating ground structure of the polypropylene heat preservation module, the keels are made of light steel materials.

Compared with the prior art, the utility model has the following beneficial technical effects:

the utility model provides a radiation heating ground structure of a polypropylene heat preservation module, wherein the heating ground is formed by multiple layers, a good heat preservation effect can be formed, a pipe groove is formed in a gravel concrete layer, a geothermal pipe is fixedly arranged in the pipe groove through a fixing clamp, a reasonable expansion gap is formed between the pipe groove and the geothermal pipe, the heating efficiency of the geothermal pipe is ensured, and meanwhile, the service life of the geothermal pipe is prolonged.

Drawings

The utility model will be further described with reference to the drawings and examples.

Fig. 1 is a schematic structural view of the present utility model.

In the figure, the bottom layer of the structure is 1, the leveling layer of cement mortar is 2, the heat insulation layer is 3, the gravel concrete layer is 4, the bottom surface decorative layer is 5, the geothermal pipe is 6, the pipe groove is 7, and the fixing clamp is 8.

Detailed Description

The present utility model will be described in detail below with reference to the drawings and detailed description to enable those skilled in the art to better understand the technical scheme of the present utility model.

[ example 1 ]

The utility model provides a polypropylene heat preservation module radiation heating ground structure, includes structure bottom 1, be provided with cement mortar screed-coat 2 on the structure bottom 1, cement mortar screed-coat 2's upper portion is provided with adiabatic heat preservation 3, adiabatic heat preservation 3's top is provided with the aluminium foil, the upper portion of aluminium foil is provided with gravel concrete layer 4, bottom surface decorative layer 5 is connected at gravel concrete layer 4's top, evenly be provided with pipe slot 7 in the gravel concrete layer 4, install in the pipe slot 7 and be provided with geothermal pipe 6, geothermal pipe 6 is fixed through fixed staple 8, be provided with expansion gap between geothermal pipe 6 and pipe slot 7's the cell wall.

Further, the structural backing layer 1 includes a heat insulating layer and an insulating layer, and the heat insulating layer is on an upper portion of the insulating layer.

Further, the heat insulation layer 3 is made of polypropylene material.

Further, the gravel concrete layer 4 is provided with keels for supporting the pipe grooves 7; the keels are made of light steel materials.

Further, the bottom decorative layer 5 is a wood floor.

[ example 2 ]

The utility model provides a polypropylene heat preservation module radiation heating ground structure, includes structure bottom 1, be provided with cement mortar screed-coat 2 on the structure bottom 1, cement mortar screed-coat 2's upper portion is provided with adiabatic heat preservation 3, adiabatic heat preservation 3's top is provided with the aluminium foil, the upper portion of aluminium foil is provided with gravel concrete layer 4, bottom surface decorative layer 5 is connected at gravel concrete layer 4's top, evenly be provided with pipe slot 7 in the gravel concrete layer 4, install in the pipe slot 7 and be provided with geothermal pipe 6, geothermal pipe 6 is fixed through fixed staple 8, be provided with expansion gap between geothermal pipe 6 and pipe slot 7's the cell wall.

Further, the structural backing layer 1 includes a heat insulating layer and an insulating layer, and the heat insulating layer is on an upper portion of the insulating layer.

Further, the heat insulation layer 3 is made of polypropylene material.

Further, the gravel concrete layer 4 is provided with keels for supporting the pipe grooves 7; the keels are made of light steel materials.

Further, the bottom decorative layer 5 is a tile plate.

The above embodiments are only exemplary embodiments of the present utility model and are not intended to limit the present utility model, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this utility model will occur to those skilled in the art, and are intended to be within the spirit and scope of the utility model.

Claims (6)

1. The utility model provides a polypropylene heat preservation module radiation heating ground structure, includes structure bottom layer (1), its characterized in that: be provided with cement mortar screed-coat (2) on structure bottom (1), the upper portion of cement mortar screed-coat (2) is provided with adiabatic heat preservation (3), the top of adiabatic heat preservation (3) is provided with the aluminium foil, the upper portion of aluminium foil is provided with gravel concrete layer (4), bottom surface decorative layer (5) are connected at the top of gravel concrete layer (4), evenly be provided with pipe slot (7) in gravel concrete layer (4), install in pipe slot (7) and be provided with geothermal pipe (6), geothermal pipe (6) are fixed through staple (8), be provided with the inflation gap between geothermal pipe (6) and the cell wall of pipe slot (7).

2. A radiant heating floor construction for a polypropylene insulation module according to claim 1, wherein the structural floor (1) comprises an insulation layer and an insulation layer, and the insulation layer is on top of the insulation layer.

3. A radiant heating floor construction for a polypropylene insulation module according to claim 1 or 2, wherein the insulation layer (3) is made of polypropylene material.

4. A radiant heating floor construction of a polypropylene insulation module according to claim 3, characterized in that the gravel concrete layer (4) is provided with keels for supporting the pipe channels (7).

5. The radiant heating floor construction of claim 4, wherein said keel is made of a light steel material.

6. A radiant heating floor construction for a polypropylene insulation module according to any one of claims 1, 2, 4, 5, wherein the bottom decorative layer (5) is a wood floor or a tile panel.

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