CN115013854A

CN115013854A - Prefabricated groove floor heating module

Info

Publication number: CN115013854A
Application number: CN202210771174.2A
Authority: CN
Inventors: 岳彦杰; 孙世枭
Original assignee: 8090 Prefabricated Construction Co ltd
Current assignee: 8090 Prefabricated Construction Co ltd
Priority date: 2022-06-30
Filing date: 2022-06-30
Publication date: 2022-09-06

Abstract

The invention discloses a prefabricated groove floor heating module which comprises a heat insulation layer, wherein hasp structures are arranged on two opposite sides of the heat insulation layer, the hasp structures on the two connected prefabricated groove floor heating modules can be embedded in a concave-convex mode, and a closed cavity is formed after the hasp structures are embedded; be equipped with the support of plastics material in the heat preservation, the support includes a plurality of support columns, is the rectangular array and arranges, and the height of support column is the same with the thickness of heat preservation, the support column is the top and seals, bottom open-ended hollow cylinder structure, connects as an organic wholely through the connecting piece between a plurality of support columns. The support is additionally arranged in the heat preservation layer, and a plurality of support columns arranged in a rectangular array form multi-point support on the heat preservation layer, so that the compression resistance of the floor heating module is improved, and the floor heating module is prevented from being depressed and damaged. In addition, the support column is internally of a hollow structure, a plurality of hollow breakpoints are formed in the heat insulation layer, and the heat insulation performance of the floor heating module is further improved because the heat conduction performance of gas is lower than that of solid.

Description

Prefabricated groove floor heating module

Technical Field

The invention relates to the field of buildings, in particular to a prefabricated groove floor heating module.

Background

The dry floor heating is thin floor heating which is laid by adopting a prefabricated groove heat-insulating module in a dry method and does not need cement backfilling, and the purpose of rapid and comfortable heating is achieved by supplying heat to the indoor in a radiation and convection mode. The dry floor heating effectively reduces the heat transfer loss downwards and improves the use convenience due to the fact that the heat preservation thickness and the soaking speed are improved, and the dry floor heating is the thin high-efficiency floor heating with the most energy-saving value at present, and floors or floor tiles can be paved on the surface of the dry floor heating. The heating medium is divided into a dry type water floor heating system and a dry type electric floor heating system according to the heat medium, and the heating medium is thin, so that the heating is fast, the energy can be saved, and the intermittent heating occasion with lower entrance threshold, high temperature requirement and energy saving needs to be realized is suitable.

Most of the existing floor heating modules in the market are made of polystyrene foam plastics, although the heat insulation performance of the materials is good, the compressive strength of the materials is too low, and furniture with large mass, such as a piano and a wardrobe, is arranged on a floor, and particularly when points or/and lines are stressed, the floor heating modules are warped upwards, cracked or inclined, the floor heating pipelines are cracked, the furniture and the like are inclined, and the maintenance is very troublesome. In addition, in the splicing construction, the splicing seam of the module is easy to be misplaced, and the heat insulation performance is influenced.

Disclosure of Invention

The invention aims to solve the technical problem of providing a prefabricated groove floor heating module with strong bearing capacity.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the prefabricated groove floor heating module comprises a heat insulation layer, wherein a groove for accommodating a heating part is formed in the heat insulation layer, and a heat equalizing layer is coated on the upper surface of the heat insulation layer; be equipped with the support of plastics material in the heat preservation, the support includes a plurality of support columns, is the rectangle array and arranges, the height of support column is the same with the thickness of heat preservation, the support column is the top and seals, bottom open-ended hollow cylinder structure, connects as an organic wholely through the connecting piece between a plurality of support columns.

The further technical scheme is that the connecting piece is provided with a plurality of connecting rings, and the heat equalizing layer is fixed with the bracket through screws penetrating through the connecting rings.

The further technical scheme is that the part of the connecting piece, which is positioned at the groove position, is exposed outside the heat-insulating layer and is flush with the surface of the heat-insulating layer, and the rest part is buried in the heat-insulating layer.

A further technical solution consists in that the connecting piece comprises:

the plurality of longitudinal connecting pieces are arranged along the length direction of the groove, and each longitudinal connecting piece is used for connecting and fixing the plurality of supporting columns positioned in the same column; and

the supporting columns are arranged on the same row in a staggered mode, and the supporting columns are arranged on the same row in a staggered mode.

The further technical scheme is that the distance between the two ends of the longitudinal connecting sheet and the transverse connecting sheet and the upper end and the lower end of the heat-insulating layer is 0.5-1 cm.

A further technical solution consists in that the connecting rods are flush with the top of the transverse connecting piece.

The further technical scheme is that the thickness of the transverse connecting rod is larger than that of the longitudinal connecting piece and the transverse connecting piece.

The further technical scheme is that the heat-insulating layer is made of one of an extruded polystyrene foam plastic plate, a molded polystyrene foam plastic plate, a polyurethane foam plastic plate or a polypropylene plastic foaming material.

A further technical solution is that the buckle structure comprises:

a first convex part bent downwards is arranged on one side of the heat-insulating layer, and a first concave part with a downward opening is formed between the first convex part and the heat-insulating layer main body;

a second convex part bent upwards is arranged on the other side of the heat-insulating layer, and a second concave part with an upward opening is formed between the second convex part and the heat-insulating layer main body;

the first convex part on the two connected prefabricated groove floor heating modules can be embedded into the second concave part, a space is formed between the bottom of the first convex part and the bottom of the second concave part, the second convex part can be embedded into the first concave part, and a space is formed between the top of the second convex part and the top of the first concave part.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in:

in this module warms up prefabricated slot, be provided with hasp structure in the module, fix a position when doing benefit to the concatenation, link together polylith module, can prevent effectively that the intermodule from taking place the dislocation and appear the crack and influence the heat preservation effect to be formed with the confined cavity behind the hasp structure gomphosis, the setting of cavity has increased the heat preservation effect of concatenation back heat preservation.

This module warms up prefabricated slot adds the support in the heat preservation, and a plurality of support columns that are the rectangular array and arrange form the multiple spot on the heat preservation and support, have improved the compressive capacity who warms up the module, have avoided warming up the module and have pressed the back sunken, damage. In addition, the support column is internally of a hollow structure, a plurality of hollow breakpoints are formed in the heat insulation layer, and the heat insulation performance of the floor heating module is further improved because the heat conduction performance of gas is lower than that of solid.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic top view of a prefabricated grooved floor heating module according to the present disclosure;

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the portion B-B of FIG. 1;

FIG. 4 is a schematic top view of the stand of the present disclosure;

FIG. 5 is a schematic view of a cross-link portion of a bracket of the present disclosure;

FIG. 6 is a schematic structural view of a portion of the transverse connection rod in the stent of the present disclosure;

fig. 7 is a schematic diagram of the spliced floor heating modules with multiple prefabricated grooves.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

As shown in fig. 1 to 6, the prefabricated grooved floor heating module includes a heat-insulating layer 10, wherein the heat-insulating layer 10 is made of one of an extruded polystyrene foam plastic board, a molded polystyrene foam plastic board, a polyurethane foam plastic board or a polypropylene foam material. Wherein, the preferred polypropylene plastics expanded material (EPP) that adopts, have higher mechanical strength, resistance to compression buffering, thermal-insulated heat preservation, nontoxic tasteless and can recycle. Offer the slot 11 that is used for holding the piece that generates heat on heat preservation 10, slot 11 is straight flute and curved groove for the slot 11 that forms after the concatenation of the module is warmed up to the polylith can satisfy the condition that the piece that generates heat was laid, makes the piece that generates heat to be covered with house ground, as shown in fig. 7. The heating element can be a hot water pipe or a heating cable. The heat-insulating layer 10 is covered with a uniform heating layer 30 on the upper surface thereof, the uniform heating layer 30 is attached to the surface of the heat-insulating layer 10 (including the grooves 11), and the uniform heating layer 30 is usually a metal material (preferably, an aluminum plate or a copper plate) or a graphene plate with good thermal conductivity. The heating element can dissipate heat through the heat equalizing layer 30, and the heat is transferred upwards more quickly, so that the ground temperature is more uniform.

In the prefabricated ditch warm-up module of this disclosure, be equipped with the support 20 of plastics material in heat preservation 10, support 20 includes a plurality of support columns 21, and a plurality of support columns 21 are the rectangle array and arrange, and the height of support column 21 is the same with the thickness of heat preservation 10 for the both ends of support column 21 expose outside heat preservation 10, and support column 21 is the top and seals, bottom open-ended hollow cylinder structure, connects as an organic wholely through the connecting piece between a plurality of support columns 21. Since the top ends of the supporting pillars 21 need to be in contact with the soaking layer 30, the top surfaces of the supporting pillars 21 need to be flat.

This module warms up prefabricated slot adds support 20 in heat preservation 10, and a plurality of support columns 21 that are the rectangular array and arrange form the multiple spot on heat preservation 10 and support, have improved the compressive capacity of module warms up, have avoided the module of warming up to cave in, damage after compressing. In addition, the support column 21 is internally of a hollow structure, a plurality of hollow breakpoints are formed in the heat insulation layer 10, and the heat insulation performance of the floor heating module is improved due to the fact that the heat conduction performance of gas is lower than that of solid.

In addition, the insulating layer 10 of the groove 11 part is thinner and has lower strength, so that the part of the connecting piece, which is positioned at the groove 11 part, is exposed out of the insulating layer 10 and is flush with the surface of the insulating layer 10, and the strength of the groove 11 part is ensured. The rest part of the connecting piece is buried in the heat-insulating layer 10 and is not in direct contact with the soaking layer 30.

The connector comprises a plurality of longitudinal connecting pieces 23, a plurality of transverse connecting pieces 24 and a plurality of transverse connecting rods 25. A plurality of longitudinal connecting pieces 23 are arranged along the length direction of the groove 11, and each longitudinal connecting piece 23 connects and fixes a plurality of supporting columns 21 in the same column. The plurality of transverse connecting pieces 24 and the plurality of transverse connecting rods 25 are arranged in a staggered manner along the width direction of the groove 11, and are used for connecting and fixing the plurality of supporting columns 21 in the same row. In the prefabricated groove floor heating module, the connecting piece adopts a connecting piece and connecting rod matched form, the two ends of the longitudinal connecting piece 23 and the transverse connecting piece 24 are 0.5-1 cm away from the upper end and the lower end of the heat preservation layer 10, and the connecting rod is flush with the top of the transverse connecting piece 24. The transverse connecting bar 25 has a thickness greater than the thickness of the longitudinal connecting piece 23 and the transverse connecting piece 24.

In the connecting piece of this form, because the intensity of connecting rod is great, and the connection piece has certain height, and the two cooperation is difficult for taking place decurrent deformation, has improved support 20's compressive property, has guaranteed support 20 and the holistic stability of heat preservation 10. And the setting of connecting rod has reduced the use of connection piece, has improved the setting of the interior solid of heat preservation 10 and the continuity of heat preservation 10, has guaranteed the thermal insulation performance of heat preservation 10.

The existing heat equalizing layer 30 is adhered to the heat insulating layer 10 by glue, and liquid or solid glue has pungent smell, so that the dry floor heating is constructed in the indoor field, and the indoor environment is polluted. In addition, the heat equalizing layer 30 after being bonded is likely to have abnormal noise due to hollowing. In the prefabricated groove floor heating module, the connecting pieces are provided with the connecting rings 22, and the soaking layer 30 can be fixed with the bracket 20 through screws penetrating through the connecting rings 22. In the go-between 22 that the screw passes and enters into in the heat preservation 10 behind the heat-uniforming layer 30, the screw in-process can radially extrude the go-between 22 inner wall to connect heat-uniforming layer 30, heat preservation 10 and go-between 22 as an organic wholely through the screw, abandoned conventional sticky mode, make heat-uniforming layer 30 more laminate with heat preservation 10, and the construction is more environmental protection.

In order to guarantee that prefabricated groove floor heating modules reduce the splicing seam size between the connected modules when the prefabricated groove floor heating modules are spliced during construction, and the modules are placed in a staggered mode, so that the heat insulation performance is guaranteed, hasp structures are arranged on two opposite sides of the heat insulation layer 10, the hasp structures on the two connected prefabricated groove floor heating modules can be embedded in a concave-convex mode, a closed cavity is formed after the hasp structures are embedded in the cavity, and the heat insulation effect of the spliced heat insulation layer is improved due to the arrangement of the cavity.

Specifically, a first convex part 12 which is bent downwards is arranged on one side of the heat insulation layer 10, and a first concave part 13 which is opened downwards is formed between the first convex part 12 and the main body of the heat insulation layer 10; a second convex part 14 bent upwards is arranged at the other side of the heat insulation layer 10, and a second concave part 15 opened upwards is formed between the second convex part 14 and the main body of the heat insulation layer 10; the first convex part 12 of the two connected prefabricated groove floor heating modules can be embedded into the second concave part 15, a space is reserved between the bottom of the first convex part 12 and the bottom of the second concave part 15, so that a closed cavity is formed, the second convex part 14 can be embedded into the first concave part 13, and a space is reserved between the top of the second convex part 14 and the top of the first concave part 13, so that a closed cavity is formed. The module dislocation can be prevented, the heat preservation performance is improved, and the construction efficiency is improved.

The above is only a preferred embodiment of the invention, and any simple modifications, variations and equivalents of the invention may be made by anyone in light of the above teachings and fall within the scope of the invention.

Claims

1. The prefabricated groove floor heating module comprises a heat insulation layer (10), a groove (11) for accommodating a heating part is formed in the heat insulation layer (10), and a heat equalizing layer (30) is covered on the upper surface of the heat insulation layer (10), and is characterized in that hasp structures are arranged on two opposite sides of the heat insulation layer (10), the hasp structures on the two connected prefabricated groove floor heating modules can be embedded in a concave-convex mode, and a closed cavity is formed after the hasp structures are embedded in the buckle structures; be equipped with support (20) of plastics material in heat preservation (10), support (20) include a plurality of support columns (21), are the rectangular array and arrange, the height of support column (21) is the same with the thickness of heat preservation (10), support column (21) are top closed, bottom open-ended hollow cylinder structure, connect as an organic wholely through the connecting piece between a plurality of support columns (21).

2. The prefabricated grooved floor heating module of claim 1, wherein the connecting member is provided with a plurality of connecting rings (22), and the heat equalizing layer (30) is fixed with the bracket (20) through screws arranged in the connecting rings (22).

3. The prefabricated groove floor heating module according to claim 1, wherein the part of the connecting piece, which is located at the groove (11), is exposed outside the heat-insulating layer (10) and is flush with the surface of the heat-insulating layer (10), and the rest part of the connecting piece is buried in the heat-insulating layer (10).

4. The pre-groove floor heating module of claim 1, wherein the connector comprises:

a plurality of longitudinal connecting pieces (23) which are arranged along the length direction of the groove (11), and each longitudinal connecting piece (23) is used for connecting and fixing a plurality of supporting columns (21) which are positioned in the same column; and

the supporting columns are characterized by comprising a plurality of transverse connecting pieces (24) and a plurality of transverse connecting rods (25), wherein the transverse connecting pieces (24) and the transverse connecting rods (25) are arranged in a staggered mode in the width direction of the groove (11) and are used for connecting and fixing a plurality of supporting columns (21) located on the same row.

5. The prefabricated groove floor heating module according to claim 4, wherein the distance between two ends of the longitudinal connecting sheet (23) and the transverse connecting sheet (24) and the upper end and the lower end of the heat-insulating layer (10) is 0.5-1 cm.

6. Prefabricated grooved floor heating module according to claim 4, characterized in that the connecting bar is flush with the top of the transverse connecting piece (24).

7. Prefabricated grooved floor heating module according to claim 4, characterized in that the thickness of the transverse connecting bar (25) is greater than the thickness of the longitudinal connecting pieces (23) and of the transverse connecting pieces (24).

8. The prefabricated grooved floor heating module of claim 1, wherein the insulation layer (10) is made of one of an extruded polystyrene foam board, a molded polystyrene foam board, a polyurethane foam board or a polypropylene plastic foam material.

9. The module warms up prefabricated groove of claim 1, characterized in that, hasp structure includes:

a first convex part (12) which is bent downwards is arranged on one side of the heat-insulating layer (10), and a first concave part (13) which is opened downwards is formed between the first convex part (12) and the main body of the heat-insulating layer (10);

a second convex part (14) which is bent upwards is arranged on the other side of the heat-insulating layer (10), and a second concave part (15) which is opened upwards is formed between the second convex part (14) and the heat-insulating layer (10) main body;

the first convex part (12) of the two connected prefabricated groove floor heating modules can be embedded into the second concave part (15), a space is reserved between the bottom of the first convex part (12) and the bottom of the second concave part (15), the second convex part (14) can be embedded into the first concave part (13), and a space is reserved between the top of the second convex part (14) and the top of the first concave part (13).