CN209799247U - Ground structure for low-temperature hot water ground radiation heating - Google Patents

Abstract

The utility model provides a low temperature hot water ground radiation heating ground structure, including outer wall and floor, the plastering layer is paintd to the outer wall inboard, be equipped with the dampproof course on the floor, the dampproof course is bent along the plastering layer surface and is laid, lay the heat insulation layer on the dampproof course, lay composite protection layer on the heat insulation layer, be equipped with a plurality of heating pipes on the composite protection layer, the heating pipe is outside by laying the filling layer parcel on composite protection layer, lay the waterproof layer on the filling layer, be equipped with the screed-coat on the waterproof layer, lay the ground decorative layer on the screed-coat. The utility model discloses be equipped with expansion joint between the gasket in the filling layer, and be equipped with the boundary expansion joint in leaning on the wall position, prevent that ground from producing the crack or warping, and done water repellent to the position on wall limit, can prevent that water from permeating the floor along the wall limit on, cause the floor seepage.

Description

Ground structure for low-temperature hot water ground radiation heating

Technical Field

The utility model relates to a low temperature hot water ground radiation heating ground structure belongs to construction technical field.

Background

Along with the development of society, people also have the demand of different degrees to the heating demand, the first radiator is all installed in each room that needs the heating, later along with the development of building trade, what now adopts is that install the heating pipe in ground, increase the area of heating, not place several groups of radiators in a simple room, but distribute the radiator in the room, but traditional technique is just buried the heating pipe through the concrete, this kind of mode does not do water-proof treatment in the gap department of wall limit, will have a small amount of water along the gap infiltration on the floor when dragging ground at ordinary times, long-term accumulation easily causes the destruction to the structure of floor, forms the seepage.

SUMMERY OF THE UTILITY MODEL

The utility model is provided for solving the problems in the prior art, and the technical proposal is as follows,

Low temperature hot water ground radiation heating ground structure, including outer wall and floor, the plastering layer is paintd to the outer wall inboard, be equipped with the dampproof course on the floor, the dampproof course is bent along the plastering layer surface and is laid, lay the heat insulation layer on the dampproof course, lay composite protection layer on the heat insulation layer, be equipped with a plurality of heating pipes on the composite protection layer, the heating pipe is outside by laying the filling layer parcel on composite protection layer, lay the waterproof layer on the filling layer, be equipped with the screed-coat on the waterproof layer, lay the ground decorative layer on the screed-coat.

Preferably, the filling layer is divided into a plurality of sections by the expansion joints between the filling layers.

Preferably, boundary expansion joints are arranged between the heat insulation layer, the composite protective layer, the filling layer, the waterproof layer, the leveling layer and the ground decorative layer and the moisture-proof layer on the surface of the plastering layer.

preferably, the height of the moisture-proof layer on the surface of the plastering layer is larger than the distance between the ground decoration layer and the floor slab.

Preferably, the heating pipe is fixed on the composite protective layer through a U-shaped staple, and the tail end of the U-shaped staple penetrates through the composite protective layer and is fixedly connected with the heat insulating layer.

Preferably, the moisture barrier is replaced with a water barrier.

Preferably, the distance between the heating pipe close to the plastering layer and the plastering layer is more than 100 mm.

Further, the distance between the top end of the moisture-proof layer on the surface of the plastering layer and the ground decoration layer is less than 20 mm.

The utility model discloses be equipped with expansion joint between the gasket in the filling layer, and be equipped with the boundary expansion joint in leaning on the wall position, prevent that ground from producing the crack or warping, and done water repellent to the position on wall limit, can prevent that water from permeating the floor along the wall limit on, cause the floor seepage.

Drawings

Fig. 1 is a schematic structural view of the low-temperature hot water floor radiant heating floor structure of the present invention.

In the figure: 1. an outer wall; 2. a floor slab; 3. plastering layer; 4. a moisture barrier; 5. a heat insulating layer; 6. compounding a protective layer; 7. heating a tube; 8. a filling layer; 9. a waterproof layer; 10. leveling layer; 11. a ground decoration layer; 12. filling the interlayer expansion joints; 13. a boundary expansion joint; 14. and a U-shaped staple.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, low temperature hot water ground radiation heating ground structure, including outer wall 1 and floor 2, plastering layer 3 is paintd to outer wall 1 inboard, be equipped with dampproof course 4 on the floor 2, dampproof course 4 is bent along plastering layer 3 surface and is laid, prevents to permeate the floor along the gap on wall limit because of the water that operation such as mopping produced, and long-term accumulation causes the seepage of floor 2 structure, lay heat insulation layer 5 on dampproof course 4, lay composite protection layer 6 on the heat insulation layer 5, be equipped with a plurality of heating pipes 7 on the composite protection layer 6, heating pipe 7 is outer by laying the packing layer 8 parcel on composite protection layer 6, lay waterproof layer 9 on the packing layer 8, be equipped with screed-coat 10 on the waterproof layer 9, lay ground decorative layer 11 on screed-coat 10. The insulating layer 5 serves to prevent heat loss to the lower layer. The double-deck water proof protection of dampproof course 4 and waterproof layer 9 strengthens the protection dynamics to floor 2.

The height of the moisture-proof layer 4 on the surface of the plastering layer 3 is larger than the distance between the ground decoration layer 11 and the floor slab 2. The distance from the top end of the moisture-proof layer 4 on the surface of the plastering layer 3 to the ground decoration layer 11 is less than 20mm, so that the distance is not too high, and the purpose that water such as conventional mopping and the like cannot flow into a gap between the moisture-proof layer 4 and the plastering layer 3 is achieved.

The filling layer 8 is divided into a plurality of sections by the expansion joints 12 between the filling layers. And boundary expansion joints 13 are arranged between the heat insulation layer 5, the composite protective layer 6, the filling layer 8, the waterproof layer 9, the leveling layer 10, the ground decoration layer 11 and the moisture-proof layer 4 on the surface of the plastering layer 3, the expansion joints 12 between the filling layers and the boundary expansion joints 13 are filled with foaming materials, and the top ends of the boundary expansion joints 13 are sealed by adopting sealant. The arrangement of the filling interlayer expansion joint 12 and the boundary expansion joint 13 can prevent the ground from cracking or deforming due to expansion and contraction. The waterproof layer 9 extends to the moisture-proof layer 4 on the surface of the plastering layer 3 and is connected with the moisture-proof layer, so that water can be effectively prevented from permeating the ground decorative layer 11 through the boundary deformation joint 13 to damage the internal structure.

The heating pipe 7 is fixed on the composite protective layer 6 through a U-shaped clamp 14, and the tail end of the U-shaped clamp 14 penetrates through the composite protective layer 6 to be fixedly connected with the heat insulating layer 5.

The moisture barrier 4 may be replaced by a waterproof layer 9. The moisture-proof layer 4 of the toilet is changed into the waterproof layer 9, so that the waterproof performance is stronger.

The distance between heating pipe 7 and the plastering layer 3 that is close to the plastering layer 3 is greater than 100mm, sets up certain distance with the dampproof course 4 on plastering layer 3 surface, prevents that heating pipe 7 temperature from dispelling heat to dampproof course 4, causes the damage.

The utility model discloses be suitable for the ground adjacent with soil, dampproof course 4 can prevent the anti-tide of ground soil moisture.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (8)

1. Low temperature hot water ground radiation heating ground structure, its characterized in that: including outer wall (1) and floor (2), plastering layer (3) is paintd to outer wall (1) inboard, be equipped with dampproof course (4) on floor (2), dampproof course (4) are bent along plastering layer (3) surface and are laid, lay heat insulation layer (5) on dampproof course (4), lay composite protection layer (6) on heat insulation layer (5), be equipped with a plurality of heating pipes (7) on composite protection layer (6), heating pipe (7) are outer by filling layer (8) the parcel of laying on composite protection layer (6), lay waterproof layer (9) on filling layer (8), be equipped with screed-coat (10) on waterproof layer (9), screed-coat (10) are laid ground decorative layer (11).

2. The low-temperature hot-water floor radiant heating floor structure as set forth in claim 1, wherein: the filling layer (8) is divided into a plurality of sections by the expansion joints (12) between the filling layers.

3. The low-temperature hot-water floor radiant heating floor structure as set forth in claim 1, wherein: and a boundary expansion joint (13) is arranged between the heat insulation layer (5), the composite protective layer (6), the filling layer (8), the waterproof layer (9), the leveling layer (10) and the ground decoration layer (11) and the moisture-proof layer (4) on the surface of the plastering layer (3).

4. The low-temperature hot-water floor radiant heating floor structure as set forth in claim 1, wherein: the height of the moisture-proof layer (4) on the surface of the plastering layer (3) is larger than the distance between the ground decoration layer (11) and the floor slab (2).

5. The low-temperature hot-water floor radiant heating floor structure as set forth in claim 1, wherein: the heating pipe (7) is fixed on the composite protective layer (6) through a U-shaped staple (14), and the tail end of the U-shaped staple (14) penetrates through the composite protective layer (6) to be fixedly connected with the heat insulating layer (5).

6. The low-temperature hot-water floor radiant heating floor structure as set forth in claim 1, wherein: the moisture-proof layer (4) can be replaced by a waterproof layer.

7. The low-temperature hot-water floor radiant heating floor structure as set forth in claim 1, wherein: the distance between the heating pipe (7) close to the plastering layer (3) and the plastering layer (3) is more than 100 mm.

8. The low-temperature hot-water floor radiant heating floor structure as set forth in claim 4, wherein: the distance from the top end of the moisture-proof layer (4) on the surface of the plastering layer (3) to the ground decoration layer (11) is less than 20 mm.