CN215331178U

CN215331178U - Assembly sound insulation underfloor heating system

Info

Publication number: CN215331178U
Application number: CN202121358557.4U
Authority: CN
Inventors: 李斌
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-18
Filing date: 2021-06-18
Publication date: 2021-12-28
Anticipated expiration: 2031-06-18

Abstract

The utility model discloses an assembled sound-insulation floor heating system which comprises a heat-insulation layer, wherein the heat-insulation layer is of a square structure, pipe grooves are formed in the upper surface of the heat-insulation layer and used for winding and installing floor heating pipes, each pipe groove comprises a circular pipe groove, a semicircular pipe groove, a quarter circular pipe groove and a straight pipe groove, the axis of each circular pipe groove is arranged in a collinear manner with the central line of the heat-insulation layer, the semicircular pipe grooves are symmetrically formed in the four directions of the circular pipe groove in the front, back, left and right directions, and the quarter circular pipe groove is formed between every two adjacent semicircular pipe grooves; the number of the straight pipe grooves is four, and two straight pipe grooves are crossed horizontally and vertically to form a # -shaped structure. According to the assembly sound-insulation floor heating system provided by the utility model, the heat-insulation layer can be assembled and quickly installed, the quick and efficient installation of the floor heating pipes is realized, the construction quality of the floor heating pipes is ensured, and the follow-up maintenance of the floor heating pipes can be facilitated.

Description

Assembly sound insulation underfloor heating system

Technical Field

The utility model relates to an assembled sound insulation floor heating system, and belongs to the technical field of assembled buildings.

Background

The floor heating is a mainstream heating mode due to the comfort and the energy saving performance of the floor heating, the floor heating is adopted in the building heating of China at present, the traditional floor heating is that a heat insulation layer is firstly paved on a structural layer of a room, the heat insulation layer is generally a polyphenyl or extruded sheet, a floor heating pipeline is paved on the heat insulation layer, then a concrete filling layer is poured on the heat insulation layer, a ground decoration material is paved on the filling layer, and the floor heating pipeline is internally circulated with low-temperature hot water to heat the ground for heating.

The traditional floor heating pipeline has the following defects in the laying construction process:

the floor heating pipeline is fixed on the heat insulation layer through the plastic staple in the installation process, and the installation mode wastes time and labor in the installation process and influences the construction efficiency;

in the laying process of the floor heating pipeline, the distance cannot be accurately controlled, so that the construction quality is uncontrollable;

when the ground heating pipeline breaks down and needs to be overhauled, the ground heating pipeline is poured together with concrete, so that the overhaul of the ground heating pipeline is very inconvenient.

In view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the background technology, the utility model provides the assembled sound-insulation floor heating system, the heat-insulation layer can realize the assembled quick installation, the quick and efficient installation of the floor heating pipes can be realized, the construction quality of the floor heating pipes is ensured, and the follow-up maintenance of the floor heating pipes can be facilitated.

In order to solve the technical problems, the utility model adopts the following technical scheme:

an assembled sound-insulation floor heating system comprises a heat-insulation layer, wherein the heat-insulation layer is of a square structure, and a pipe groove is formed in the upper surface of the heat-insulation layer and used for winding and installing a floor heating pipe; the pipe grooves comprise circular pipe grooves, semicircular pipe grooves, quarter circular pipe grooves and straight pipe grooves; the axis of the circular ring-shaped pipe groove is collinear with the central line of the heat preservation layer, semicircular pipe grooves are symmetrically arranged in the front, back, left and right directions of the circular ring-shaped pipe groove, and a quarter circular ring-shaped pipe groove is arranged between every two adjacent semicircular pipe grooves; the number of the straight pipe grooves is four, and two straight pipe grooves are crossed horizontally and vertically to form a # -shaped structure.

Furthermore, a structural layer is arranged at the bottom of the heat-insulating layer, and a cement substrate is arranged at the top of the heat-insulating layer; the thickness of the cement substrate is 1 cm.

Further, the depth of the pipe groove is smaller than the thickness of the heat preservation layer, and the depth of the pipe groove is equal to two thirds of the thickness of the heat preservation layer.

Further, the widths and the depths of the circular ring-shaped pipe groove, the semicircular ring-shaped pipe groove, the quarter circular ring-shaped pipe groove and the straight pipe groove are the same.

Furthermore, the inner ring of the semicircular pipe groove is tangent to the outer ring of the circular pipe groove, and the outer ring of the semicircular pipe groove is tangent to the inner ring of the circular pipe groove.

Furthermore, the inner ring of the quarter circular ring-shaped pipe groove is tangent to the outer ring of the semicircular pipe groove, and the outer ring of the quarter circular ring-shaped pipe groove is tangent to the inner ring of the semicircular pipe groove.

Furthermore, the straight pipe groove is positioned between the circular pipe groove and the semicircular pipe groove and between the semicircular pipe groove and the quarter circular pipe groove.

Furthermore, two end faces of the semicircular pipe groove are coplanar with one side end face of the heat-insulating layer; the end surface of the quarter-ring-shaped pipe groove is coplanar with the end surface of the heat-insulating layer; the end face of the straight pipe groove is coplanar with the end face of the heat preservation layer.

Further, the number of the circular ring-shaped pipe grooves is one; the number of the semicircular annular pipe grooves is four; the number of the quarter-ring-shaped pipe grooves is four.

After the technical scheme is adopted, compared with the prior art, the utility model has the following advantages:

the utility model can realize the assembled quick installation of the heat-insulating layer, the ground heating pipe is wound and installed in the pipe groove of the heat-insulating layer, the pipe distribution can be carried out in four directions of the heat-insulating layer, the straight line section of the ground heating pipe is installed in the straight pipe groove, the arc section of the ground heating pipe is installed in the circular pipe groove, the semicircular pipe groove or the quarter circular pipe groove in the pipe distribution process, the quick and efficient installation of the ground heating pipe can be realized, the distance between adjacent pipelines is constant in the pipe distribution process, the pipe distribution quality cannot be influenced by the operating skill of a constructor, and the construction quality is ensured; the floor heating pipe in the utility model can not be cast into a whole by concrete, thereby being convenient for subsequent overhaul; the heat-insulating layer has good sound-insulating property.

The present invention will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the structure of the present invention;

FIG. 3 is a top view of the structure of the insulation;

FIG. 4 is a schematic view of the piping installed in the insulation layer;

fig. 5 is a schematic view of the present invention after installation of the pipeline.

In the figure, 1-structural layer, 2-insulating layer, 21-pipe groove, 22-circular ring-shaped pipe groove, 23-semicircular ring-shaped pipe groove, 24-quarter circular ring-shaped pipe groove, 25-straight pipe groove, 3-cement substrate and 4-ground heating pipe.

Detailed Description

In order to more clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will now be described with reference to the accompanying drawings.

As shown in fig. 1-5, the utility model provides an assembled sound-insulation floor heating system, which comprises an insulation layer 2, wherein a structural layer 1 is arranged at the bottom of the insulation layer 2, and a cement substrate 3 is arranged at the top of the insulation layer 2.

The heat preservation 2 is the square structure, and the upper surface of heat preservation 2 is equipped with tube seat 21, and tube seat 21 is used for winding and establishes installation ground heating coil 4.

The depth of the pipe groove 21 is less than the thickness of the insulating layer 2, and the depth of the pipe groove 21 is equal to two thirds of the thickness of the insulating layer 2.

The pipe groove 21 comprises a circular pipe groove 22, a semicircular pipe groove 23, a quarter circular pipe groove 24 and a straight pipe groove 25, and the widths and the depths of the circular pipe groove 22, the semicircular pipe groove 23, the quarter circular pipe groove 24 and the straight pipe groove 25 are the same.

The axis of the circular ring-shaped pipe groove 22 is arranged in a collinear way with the central line of the heat-insulating layer 2; the number of the annular pipe grooves 22 is one.

The circular pipe groove 22 is symmetrically provided with semicircular pipe grooves 23 in four directions, namely, front, back, left and right directions, inner rings of the semicircular pipe grooves 23 are tangent to outer rings of the circular pipe groove 22, and outer rings of the semicircular pipe grooves 23 are tangent to inner rings of the circular pipe groove 22.

Two end faces of the semicircular pipe groove 23 are coplanar with one side end face of the heat preservation layer 2.

The number of the semicircular annular pipe grooves 23 is four.

A quarter circular pipe groove 24 is arranged between two adjacent semicircular pipe grooves 23, the inner ring of the quarter circular pipe groove 24 is tangent to the outer ring of the semicircular pipe groove 23, and the outer ring of the quarter circular pipe groove 24 is tangent to the inner ring of the semicircular pipe groove 23.

The end surface of the quarter circular ring-shaped pipe groove 24 is coplanar with the end surface of the heat preservation layer 2.

The number of the quarter-ring-shaped pipe grooves 24 is four.

The number of the straight pipe grooves 25 is four, two horizontal ends and two vertical ends of the straight pipe grooves 25 are crossed into a # -shaped structure, and the straight pipe grooves 25 are positioned between the circular pipe groove 22 and the semicircular pipe groove 23 and between the semicircular pipe groove 23 and the quarter circular pipe groove 24.

The end surface of the straight pipe groove 25 is coplanar with the end surface of the heat preservation layer 2.

The thickness of the cement substrate 3 is 1 cm.

The specific working principle of the utility model is as follows:

after the structural layer 1 is formed, the heat preservation layers 2 are arranged on the surface of the structural layer 1 in order, the heat preservation layers 2 are installed in an assembly mode, the floor heating pipes 4 are wound and installed in pipe slots 21 of the heat preservation layers 2, pipe distribution can be conducted in four directions of the heat preservation layers 2, the floor heating pipes 4 are installed in straight pipe slots 25 in the pipe distribution process, arc sections of the floor heating pipes 4 are installed in circular pipe slots 22, semicircular pipe slots 23 or quarter circular pipe slots 24, and the installation process of the floor heating pipes 4 is rapid and efficient; the distance between adjacent pipelines is fixed in the pipe arrangement process, so that the pipe arrangement quality is not influenced by the operating skills of constructors, and the construction quality is ensured; and after the ground heating pipe 4 is installed, the cement substrate 3 is installed above the heat-insulating layer 2.

The foregoing is illustrative of the best mode of the utility model and details not described herein are within the common general knowledge of a person of ordinary skill in the art. The scope of the present invention is defined by the appended claims, and any equivalent modifications based on the technical teaching of the present invention are also within the scope of the present invention.

Claims

1. The utility model provides an assembly underfloor heating system that gives sound insulation, includes heat preservation (2), its characterized in that: the heat-insulating layer (2) is of a square structure, a pipe groove (21) is formed in the upper surface of the heat-insulating layer (2), and the pipe groove (21) is used for winding and installing the ground heating pipe (4); the pipe groove (21) comprises a circular pipe groove (22), a semicircular pipe groove (23), a quarter circular pipe groove (24) and a straight pipe groove (25); the axis of the circular ring-shaped pipe groove (22) is arranged in a collinear way with the central line of the heat preservation layer (2), semicircular ring-shaped pipe grooves (23) are symmetrically arranged in the front, back, left and right directions of the circular ring-shaped pipe groove (22), and a quarter circular ring-shaped pipe groove (24) is arranged between every two adjacent semicircular ring-shaped pipe grooves (23); the number of the straight pipe grooves (25) is four, and two transverse ends and two vertical ends of the straight pipe grooves (25) are crossed into a # -shaped structure.

2. The assembled soundproof floor heating system of claim 1, wherein: the bottom of the heat-insulating layer (2) is provided with a structural layer (1), and the top of the heat-insulating layer (2) is provided with a cement substrate (3); the thickness of the cement substrate (3) is 1 cm.

3. The assembled soundproof floor heating system of claim 1, wherein: the depth of the pipe groove (21) is smaller than the thickness of the heat preservation layer (2), and the depth of the pipe groove (21) is equal to two thirds of the thickness of the heat preservation layer (2).

4. The assembled soundproof floor heating system of claim 1, wherein: the widths and the depths of the circular ring-shaped pipe groove (22), the semicircular ring-shaped pipe groove (23), the quarter circular ring-shaped pipe groove (24) and the straight pipe groove (25) are the same.

5. The assembled soundproof floor heating system of claim 1, wherein: the inner ring of the semicircular annular pipe groove (23) is tangent to the outer ring of the annular pipe groove (22), and the outer ring of the semicircular annular pipe groove (23) is tangent to the inner ring of the annular pipe groove (22).

6. The assembled soundproof floor heating system of claim 1, wherein: the inner ring of the quarter circular pipe groove (24) is tangent to the outer ring of the semicircular pipe groove (23), and the outer ring of the quarter circular pipe groove (24) is tangent to the inner ring of the semicircular pipe groove (23).

7. The assembled soundproof floor heating system of claim 1, wherein: the straight pipe groove (25) is positioned between the circular pipe groove (22) and the semicircular pipe groove (23) and between the semicircular pipe groove (23) and the quarter circular pipe groove (24).

8. The assembled soundproof floor heating system of claim 1, wherein: two end faces of the semicircular pipe groove (23) are coplanar with one side end face of the heat-insulating layer (2); the end surface of the quarter circular ring-shaped pipe groove (24) is coplanar with the end surface of the heat preservation layer (2); the end face of the straight pipe groove (25) is coplanar with the end face of the heat preservation layer (2).

9. The assembled soundproof floor heating system of claim 1, wherein: the number of the circular ring-shaped pipe grooves (22) is one; the number of the semicircular annular pipe grooves (23) is four; the number of the quarter-ring-shaped pipe grooves (24) is four.