CN205153456U - Mounting structure warms up with spreading formula stone material futilely - Google Patents

Abstract

The utility model relates to a dry-paved stone floor heating installation structure, which comprises floor heating modules and floor heating water pipes. A number of floor heating modules are laid on the surface layer of a concrete floor. layer, and a composite isolation layer is laid between the stone surface layer and the floor heating module. The floor heating module of the utility model adopts integrated prefabricated production and modular installation. The floor heating water pipe can be accurately and quickly embedded in the U-shaped pipe groove of the floor heating module, and the laying is simple and convenient. On the other hand, the utility model lays a layer of composite material composed of polystyrene and glass fiber between the floor heating module and the stone surface layer, which solves the problem that the stone floor is prone to thermal expansion and contraction and cracks, and reduces the stone floor heating. The laying thickness of the floor improves the utilization rate of the indoor space.

Description

A dry-paved stone floor heating installation structure

technical field

The utility model belongs to the technical field of building decoration, and relates to a stone floor heating, in particular to a dry paving stone floor heating installation structure.

Background technique

Floor heating is the abbreviation of floor heating through radiation. At present, it is most commonly used as water floor heating. Water floor heating refers to the installation of thin hot water pipes under the floor, and the floor that continuously emits heat to the indoor space by injecting low-temperature hot water into the pipes and continuously circulating them back and forth. Compared with the air conditioner to adjust the room temperature, the room temperature of the room with floor heating is from bottom to top as the height increases, and the temperature gradually decreases, giving people a comfortable feeling of warming the feet and cooling the head, which is more in line with the physiological needs of the human body; In comparison, the radiator and its branch pipes are canceled in the room, which increases the net use area of the room, and is more convenient for indoor decoration and home furnishing.

At present, the stone floor heating floor mainly adopts wet paving method. The floor heating stone floor structure is composed of thermal insulation extruded board, reflective film, steel wire mesh, floor heating pipe, cement mortar, bonding layer and stone floor from bottom to top. This kind of floor heating laying is relatively complicated, and the laying structure is relatively thick. The fixing of the plumbing pipes and the accuracy of the laying path depend entirely on the construction skills of the on-site operators. Because stone is easy to expand with heat and contract with cold, it cannot be laid directly on the water floor heating. A layer of 3cm thick cement mortar is often laid between the floor heating pipe and the stone floor. The stone floor surface can only be laid after the cement mortar hardens and hardens to a certain strength. Construction progress is slow. In addition, in the heat transfer process, the heat is transferred to the stone floor through the 2-3cm thick cement mortar base, which is prone to local uneven heating and slow temperature rise.

The prior art needs to be further improved.

Contents of the invention

The purpose of this utility model is to solve the deficiencies in the background technology, and to provide a dry paved stone floor heating installation structure, which can improve the uneven heat transfer of the stone floor heating floor, slow the temperature rise of the floor heating, and at the same time reduce the laying of the floor heating structure layer. thickness.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a dry-paved stone floor heating installation structure, including floor heating modules and floor heating water pipes. Among them, a stone surface layer is laid on the floor heating module, and a composite isolation layer is laid between the stone surface layer and the floor heating module. The composite isolation layer is made of composite polystyrene and glass fiber.

For an optimization of the utility model, the floor heating module includes a thermal insulation layer and a heat transfer layer, the heat transfer layer is laid on the thermal insulation layer, and the heat transfer layer and the thermal insulation layer are bonded by an adhesive, and the thermal Several U-shaped pipe grooves are all embedded in the insulation layer, and the floor heating water pipes are distributed in the U-shaped pipe grooves.

For an optimization of the present utility model, the floor heating modules are bonded to each other by an adhesive.

For an optimization of the utility model, the heat transfer layer is a thin aluminum plate, aluminum foil or an aluminum-copper alloy plate.

For an optimization of the utility model, a number of fine holes are evenly distributed on the composite isolation layer.

For an optimization of the utility model, the thickness of the composite isolation layer is 3mm-6mm.

For an optimization of the utility model, the stone surface layer is bonded to the composite isolation layer by a stone adhesive.

Compared with the background technology, the utility model has the characteristics of simple and convenient laying. The floor heating module is an integrated prefabricated production, which adopts modular installation. Through the U-shaped pipe groove of the floor heating module, the floor heating water pipe can be accurately and quickly embedded in the pipe groove ; A layer of composite material composed of polystyrene and glass fiber is laid between the floor heating module and the stone surface layer, which solves the problem that the stone floor is prone to thermal expansion and contraction and cracks, reduces the laying thickness of the stone floor heating floor, and improves Indoor space utilization. At the same time, the stone floor heating floor can adopt dry laying method, which is suitable for indoor stone floor heating floor projects. It has uniform heat transfer, fast heat transfer speed, high heat utilization rate, simple and fast installation, and can significantly improve work efficiency; dry paving stone floor heating is both It can guarantee the decorative effect, meet the requirements of use, and can effectively improve the utilization rate of heat energy, and the structure is stable, and good economic benefits will be obtained.

Description of drawings

Figure 1 is a schematic diagram of a dry-paved stone floor heating installation structure.

Fig. 2 is a schematic diagram of the floor heating module.

Figure 3 is an enlarged view of A.

detailed description

Embodiment 1: Refer to Fig. 1-3. A dry-paved stone floor heating installation structure, including floor heating modules 1 and floor heating water pipes 2, several floor heating modules 1 are laid on the surface of a concrete floor 3, floor heating water pipes 2 are installed in each heating module 1, and floor heating modules 1 are laid There is a stone surface layer 5, and a composite isolation layer 4 is laid between the stone surface layer 5 and the floor heating module 1. The composite isolation layer is made of composite polystyrene and glass fiber. By laying a composite insulation layer composed of polystyrene and glass fiber between the floor heating module and the stone surface layer, it can absorb thermal stress and deformation, and prevent the deformation from being transmitted to the stone surface layer. The floor heating floor is prone to thermal expansion and contraction and cracks, which realizes the dry laying of the stone floor heating floor, reduces the laying thickness of the stone floor heating floor, effectively shortens the construction period, and has good thermal insulation and sound insulation performance. The local heating modules 1 are bonded to each other by an adhesive. The heat transfer layer 11 is thin aluminum plate, aluminum foil or aluminum-copper alloy plate. A number of fine holes are evenly distributed on the composite isolation layer 4 . The thickness of the composite isolation layer 4 is 3mm-6mm. The stone surface layer 5 is bonded to the composite isolation layer 4 by a stone adhesive. After the floor heating module 1 is bonded and fixed, the floor heating water pipe 2 is embedded in the U-shaped pipe groove. After fixing, the isolation layer 4 is directly laid. The thickness of the isolation layer 4 is about 4mm, which can be directly pasted, and then polymer cement is used Mortar leveling, the stone surface layer 5 is directly laid on the isolation layer 4 through the stone adhesive.

Embodiment 2: with reference to Fig. 2. The floor heating module 1 includes an insulation layer 12 and a heat transfer layer 11. The heat transfer layer 11 is laid on the insulation layer 12, and the heat transfer layer and the insulation layer 12 are bonded by an adhesive. The heat transfer layer 11 is provided with several U The floor heating water pipes 2 are distributed in the U-shaped pipe groove 1a, and are all embedded in the insulation layer 12, so that the floor heating water pipes 2 can be accurately and quickly embedded in the U-shaped pipe groove 1a.

It should be understood that: although the present embodiment has described the utility model in more detail, these explanations are only a simple description of the utility model, rather than a limitation of the utility model, and any content that does not exceed the essence of the utility model Inventions and creations all fall within the protection scope of the present utility model.

Claims (7)

1. a dry paving formula stone material floor heating mounting structure, comprise floor heating module (1), floor heating water pipe (2), some floor heating modules (1) are layed on the surface layer of concrete floor (3), floor heating water pipe (2) is arranged in each floor heating module (1), it is characterized in that: floor heating module (1) is equipped with stone material surface layer (5), between stone material surface layer (5) and floor heating module (1), be equipped with compound insulation layer (4).

2. dry paving formula stone material floor heating mounting structure according to claim 1, it is characterized in that: described floor heating module (1) comprises insulation layer (12) and heat transfer layer (11), heat transfer layer (11) is layed in above insulation layer (12), and heat transfer layer is bonding by cementing agent with insulation layer (12), heat transfer layer (11) is provided with some U-shaped tube seats (1a), and being all embedded in insulation layer (12), described floor heating water pipe (2) is distributed in U line pipe groove (1a).

3. dry paving formula stone material floor heating mounting structure according to claim 1, is characterized in that: each floor heating module (1) is bonding by bonding agent each other.

4. dry paving formula stone material floor heating mounting structure according to claim 2, is characterized in that: heat transfer layer (11) is thin aluminum sheet, aluminium foil or aluminium copper plate.

5. dry paving formula stone material floor heating mounting structure according to claim 1, is characterized in that: compound insulation layer (4) is evenly distributed with some trickle holes.

6. dry paving formula stone material floor heating mounting structure according to claim 1, is characterized in that: compound insulation layer (4) is thick is 3mm-6mm.

7. dry paving formula stone material floor heating mounting structure according to claim 1, is characterized in that: described stone material surface layer (5) is adhered on compound insulation layer (4) by stone material cementing agent.