JP3171868U - Floor heating structure - Google Patents

Abstract

A floor heating structure capable of easily fixing a heat storage sheet and a sheet heating element to a substrate is provided. A floor heating structure includes a heat storage sheet 2 and a sheet heating element including a heating unit 3-1 and a non-heating unit 3-2 on a substrate 1, and the sheet heating unit. And the heat storage sheet is penetrated and fixed by a fixture 4 having a needle shape. The fixture 4 has a needle shape, and examples thereof include a nail, a needle, a pin, and a screw. Furthermore, since the sheet heating element and the heat storage sheet 2 are in close contact with each other, the heat generated by the sheet heating element can be efficiently stored. [Selection] Figure 2

Description

  The present invention relates to a floor heating structure.

In recent years, floor heating systems having a heat storage body have appeared.
By storing a part of the heat from the heating element with the heat storage body, it is possible to maintain the temperature near a predetermined temperature for a long time even after the power is turned off.
Such a heat storage type floor heating system can reduce the power ON-OFF cycle and can also use heat storage by midnight power.
Therefore, the heat storage type floor heating system can reduce power consumption and can play a big role in an energy saving effect.

JP2007-139400 JP-A-2005-1555979

Such a heat storage type floor heating structure usually has a structure in which a floor material, a heating element, and a heat storage element are basically used and fixed using an adhesive, an adhesive tape, or the like.
However, it cannot be said that the adhesive, the adhesive tape, etc. have good construction efficiency because it is necessary to apply and paste each member in advance. Moreover, heat resistance etc. which can endure floor heating temperature are required, and it cannot be said that it is a preferable method.
In addition, as a technique for fixing, for example, in Patent Document 1, at least a soaking plate and a planar heating heater are arranged and wired on the back surface of the floor base material of the floor structure. A method is described in which a thick synthetic resin foam plate is disposed on the lower surface and the synthetic resin foam plate is fixed to joists.
Patent Document 2 describes a method of fixing a heat storage unit by providing a heat storage unit provided with a flat heater and a side wall that suspends the heat storage unit at a peripheral portion of the heat storage unit.

However, in the methods of Patent Documents 1 and 2, the heating element and the heat storage body are not directly fixed. Therefore, the contactability may be lacking, and the heat storage efficiency may be reduced. Moreover, there is a possibility that the heating element or the heat storage body may move due to vibration or the like, which may cause a decrease in heat storage efficiency.
Furthermore, it cannot be said that it is a simple method, such as a synthetic resin foam plate in Patent Document 1 and a suspended side wall in Patent Document 2.

  As a result of intensive studies to solve the above problems, the present invention has found a structure in which the heating element and the heat accumulator are in close contact with each other, has excellent heat storage efficiency, and can be fixed easily. It was.

That is, the present invention has the following features.
1. A floor heating structure having a heat storage sheet and a planar heating element on a base material,
A floor heating structure in which a sheet heating element and a heat storage sheet are penetrated and fixed by a fixture having a needle shape.
2. A floor heating structure having a heat storage sheet and a planar heating element on a base material,
The planar heating element includes a heating part and a non-heating part, and the non-heating part and the heat storage sheet of the planar heating element are penetrated and fixed by a fixing device having a needle shape. Floor heating structure.
3. A floor heating structure having a heat storage sheet, a planar heating element and a flooring material on a substrate,
A floor heating structure, wherein the floor material, the planar heating element and the heat storage sheet are penetrated and fixed by a fixture having a needle shape.
4). A floor heating structure having a heat storage sheet, a planar heating element and a flooring material on a substrate,
The sheet heating element is composed of a heating part and a non-heating part, and the floor material, the non-heating part of the sheet heating element and the heat storage sheet are penetrated and fixed by a fixture having a needle shape. Features a floor heating structure.
5). The heat storage sheet is obtained by dispersing a heat storage material in a polymer matrix having a three-dimensional cross-linking structure. To 4. The floor heating structure according to any one of the above.
6). The heat storage sheet is characterized in that a heat storage material is dispersed in a polymer matrix having a three-dimensional cross-linking structure formed from a polyol and an isocyanate. To 4. The floor heating structure according to any one of the above.
7). The fixing tool having a needle-like shape penetrates an arbitrary place of the planar heating element and the heat storage sheet. The floor heating structure described in 1.
8). 1. A fixing tool having a needle-like shape penetrates through a non-heating part of a planar heating element and an arbitrary place of a heat storage sheet. The floor heating structure described in 1.
9. 2. The fixing tool having a needle-like shape penetrates an arbitrary place of a flooring material, a planar heating element, and a heat storage sheet. The floor heating structure described in 1.
10. 3. The fixing tool having a needle-like shape penetrates an arbitrary place of a floor material, a non-heating part of a planar heating element, and a heat storage sheet. The floor heating structure described in 1.

  The floor heating structure of the present invention can easily fix a heat storage sheet and a planar heating element to a base material. Moreover, the heat storage sheet and the sheet heating element are in close contact with each other, and the heat generated by the sheet heating element can be efficiently stored by the heat storage sheet.

It is an example of the assembly drawing of this invention floor heating structure. It is an example of this invention floor heating structure. It is an example of the assembly drawing of this invention floor heating structure. It is an example of this invention floor heating structure. It is an example of the assembly drawing of this invention floor heating structure. It is an example of this invention floor heating structure.

1: Base material 2: Thermal storage sheet 3: Planar heating element 3-1: Exothermic part of planar heating element 2-2: Non-heating part of planar heating element 4: Fixing tool 5: Floor material

  Hereinafter, the form for implementing this invention is demonstrated.

  As shown in FIGS. 1 and 2, the floor heating structure according to the present invention is obtained by fixing a heat storage sheet 2 and a planar heating element 3 on a base material 1 with a fixture 4, The fixing tool 4 having a shape has a structure in which the planar heating element 3 and the heat storage sheet 2 are fixed through.

<Substrate 1>
The substrate 1 of the present invention is not particularly limited as long as it is normally used. Examples of the substrate 1 include concrete, mortar, plywood, or existing flooring.

<Heat storage sheet 2>
The heat storage sheet 2 of the present invention has a sheet shape containing a heat storage material.
As a heat storage material, an inorganic latent heat storage material, an organic latent heat storage material, etc. are mentioned, for example, 1 type (s) or 2 or more types can be used.
Examples of the inorganic latent heat material include hydrate salts such as sodium sulfate decahydrate, sodium carbonate decahydrate, sodium hydrogen phosphate dodecahydrate, sodium thiosulfate pentahydrate, calcium chloride hexahydrate, and the like. Etc.
Examples of the organic latent heat storage material include aliphatic hydrocarbons, long chain alcohols, long chain fatty acids, long chain fatty acid esters, fatty acid triglycerides, polyether compounds, and the like.
In the present invention, it is particularly preferable to use an organic latent heat storage material, and it is preferable to use an organic latent heat storage material having a phase change temperature (melting point) in a practical temperature range of 25 ° C. to 55 ° C. for floor heating.

As the heat storage sheet 2, for example, a heat storage sheet in which the heat storage material is directly enclosed in a film, a heat storage sheet in which the heat storage material is encapsulated in a film, and a granular material that has absorbed the heat storage material is enclosed in the film. Thermal storage sheet, thermal storage sheet in which the thermal storage material is dispersed in a polymer matrix, thermal storage sheet in which the thermal storage material is encapsulated is dispersed in a polymeric matrix, and powder particles that have absorbed the thermal storage material are polymerized A heat storage sheet or the like dispersed in a matrix can be used.
In the present invention, it is particularly preferable to use a heat storage sheet in which a heat storage material is dispersed in a polymer matrix. Among them, a heat storage sheet in which a heat storage material is dispersed microscopically in a polymer matrix having a three-dimensional cross-linking structure is used. It is preferable.
A heat storage sheet in which such a heat storage material is dispersed microscopically in a polymer matrix having a three-dimensional cross-linked structure does not leak out even if it is cut to an arbitrary size. Cheap. Further, even if the heat storage sheet is penetrated by the fixture 4, the heat storage material does not leak out. Therefore, the fixture 4 can penetrate to any place of the heat storage sheet.

The polymer matrix is not particularly limited as long as it is usually used. Acrylic resin, silicon resin, polyester resin, alkyd resin, epoxy resin, urethane resin, phenol resin, melamine resin, amino resin, polycarbonate resin, fluorine Resin, vinyl acetate resin, vinyl chloride resin, ABS resin, AS resin, and the like, and one or more of them can be used.
In particular, in the present invention, a polymer matrix having a three-dimensional crosslinked structure is preferable, and a polymer matrix having a three-dimensional crosslinked structure formed from polyol and isocyanate is preferable.

  The heat storage material content in the heat storage sheet 2 is preferably 40% by weight or more, more preferably 50% by weight or more, and further preferably 60% by weight or more. In particular, the heat storage material is a three-dimensional crosslinked structure formed from a polyol and an isocyanate. The content of the heat storage material can be further improved by microscopic dispersion in the polymer matrix having

<Surface heating element 3>
The planar heating element 3 of the present invention is not particularly limited, and a known planar heating element can be used. Examples of the planar heating element 3 include a meandering nichrome wire disposed on the surface of an insulator, a laminate of an electrical resistance heating element and an electrode, and a PTC planar heating element.
For example, as the sheet heating element 3, it is preferable to use a heating element composed of a heating part 3-1 and a non-heating part 3-2 as shown in FIG.
The exothermic part 3-1 is a part of an electric resistor such as a nichrome wire, and the non-exothermic part 3-2 is a part other than the exothermic part 3-1. Usually, the non-heat generating portion 3-2 is often provided in a relatively wide area at the edge of the planar heating element 3.

<Fixing tool 4>
The fixture 4 of the present invention has a needle shape, and examples thereof include a nail, a needle, a pin, and a screw.
The present invention is a structure in which the sheet heating element 3 and the heat storage sheet 2 are fixed on the substrate 1 using such a fixing tool 4, and the fixing tool 4 includes the sheet heating element 3 and the sheet heating element 3. It is characterized by being fixed through the heat storage sheet 2.
Such a structure is formed by laminating the heat storage sheet 2 and the planar heating element 3 on the base material 1, and then fixing the fixture 4 through the planar heating element 3 and the thermal storage sheet 2. It can be easily obtained in a short time.
Furthermore, since the sheet heating element 3 and the heat storage sheet 2 are in close contact with each other, the heat generated by the sheet heating element can be efficiently stored.

The position where the fixing tool 4 is penetrated is not particularly limited, and can be penetrated to an arbitrary place in the sheet heating element, the heat storage sheet, and the flooring.
In particular, in the present invention, as shown in FIGS. 1 and 2, it is preferable that the non-heat generating portion 3-2 of the planar heating element is penetrated. The heat storage sheet in contact with the non-heat generating part 3-2 of the sheet heating element is less likely to transfer heat than the heat storage sheet in contact with the heat generating part 3-1, and delays the time to reach the phase change temperature (melting point) of the heat storage material. Can do. Therefore, since the heat storage material exists in a solid state for a long time, the volume change due to the liquid-solid state change of the heat storage material is suppressed, and the possibility that the heat storage sheet is abnormal is further reduced.

<Floor 5>
The floor heating structure of the present invention is preferably a structure (FIGS. 3 and 4) in which a floor material 5 is further laminated.
As the flooring 5, for example, resin tiles and resin sheets such as vinyl chloride and polyolefin, single plate, flooring material, plywood, particle board, cork tile and other wood materials, fibrous materials, ceramic materials such as porcelain tiles, Stone materials such as marble, granite, and terrazzo, concrete materials such as mortar, natural resin tiles such as rubber and linoleum, natural resin sheets, and the like can be used. Tatami mats, carpets, carpets, etc. can also be used as flooring. In the present invention, those having heat resistance are particularly preferable.
For the lamination of the flooring 5, an adhesive or an adhesive tape may be used. In the present invention, the flooring 5, the sheet heating element, and the heat storage sheet are laminated and fixed by a fixture. (FIGS. 5 and 6).

<Floor heating structure>
As the thickness of the floor heating structure, the thickness of the heat storage sheet 2 is usually 1 mm to 20 mm, more preferably about 2 mm to 15 mm, and the thickness of the planar heating element 3 is usually 5 mm or less, further 0.5 mm to The thickness of the flooring 5 is about 1 mm to 20 mm, preferably about 2 mm to 15 mm. When the heat storage sheet is too thick, time is required until heat is stored in the heat storage sheet, which may lack immediate effect, and may require excessive power consumption.

The total thickness of the floor heating structure is usually 40 mm or less, and in the present invention, it is particularly preferably 25 mm or less, preferably 20 mm or less, more preferably 15 mm or less. By reducing the thickness of the floor heating structure, it can be reduced in weight and can be constructed easily. Especially in renovation, it is possible to maintain a comfortable living space without being compressed after construction. it can.
In addition, since the floor heating structure of the present invention has excellent heat storage performance, even a thin film suppresses the movement of heat under the floor during floor heating operation, and the temperature of the room temperature and floor temperature after the floor heating is stopped. Can be prevented. Therefore, the amount of power consumption can be suppressed and a comfortable living environment can be maintained.

  The floor heating structure of the present invention is composed of the base material 1, the heat storage sheet 2, the sheet heating element 3, the fixture 4, and the flooring 5. In addition, a heat-resistant layer (glass layer, Metal layers, heat-resistant resin layers, etc.), soaking layers (metal layers, etc.), heat insulation layers (urethane foam, styrene foam, etc.), and temperature sensors and temperature control devices for controlling heat generation by sheet heating elements What was comprised is preferable.

Example 1
As shown in FIG. 3 and FIG. 4, the following heat storage sheet and a sheet heating element are sequentially stacked on a base material (plywood: 300 × 180 mm, thickness 5 mm), and sheet heating is performed using a fixture. It was penetrated from the non-heating part of the body to the base material and fixed. Furthermore, a flooring was laminated thereon using an adhesive to obtain a floor heating structure. By the above method, the floor heating structure was able to be obtained simply. Moreover, no abnormality was found even when the floor heating structure was operated.
Thermal storage sheet: A thermal storage material (methyl stearate (phase change temperature 38 ° C., latent heat 220 kJ / kg)) dispersed in a polymer matrix having a polyol-isocyanate three-dimensional crosslinked structure (thickness 5 mm).
Planar heating element: Silicon rubber heater (300 x 180 mm, thickness 2 mm) with nichrome wire meandering in silicon rubber
Fixing tool: Nail (10mm)
Floor material: Heat-resistant flooring (300 x 180 mm, thickness 12 mm)

(Example 2)
As shown in FIGS. 5 and 6, a heat storage sheet, a sheet heating element, and a flooring material are sequentially stacked on a base material (plywood: 300 × 180 mm, thickness 5 mm), and a flooring material is used by using a fixture. The floor heating structure was obtained by penetrating from the non-heating part of the sheet heating element to the base material and fixing. By the above method, the floor heating structure was able to be obtained simply. Moreover, no abnormality was found even when the floor heating structure was operated.
In addition, the heat storage sheet, the planar heating element, and the flooring were the same as in Example 1.
A nail (22 mm) was used as a fixture.

(Comparative Example 1)
Instead of the fixture, an adhesive was used to laminate a base material and a heat storage sheet, a heat storage sheet and a sheet heating element, and a sheet heating element and a floor material to obtain a floor heating structure. It took time to bond the various layers.
In addition, the heat storage sheet, the planar heating element, and the flooring were the same as in Example 1.

Claims (10)

A floor heating structure having a heat storage sheet and a planar heating element on a base material,
A floor heating structure in which a sheet heating element and a heat storage sheet are penetrated and fixed by a fixture having a needle shape. A floor heating structure having a heat storage sheet and a planar heating element on a base material,
The planar heating element includes a heating part and a non-heating part, and the non-heating part and the heat storage sheet of the planar heating element are penetrated and fixed by a fixing device having a needle shape. Floor heating structure. A floor heating structure having a heat storage sheet, a planar heating element and a flooring material on a substrate,
A floor heating structure, wherein the floor material, the planar heating element and the heat storage sheet are penetrated and fixed by a fixture having a needle shape. A floor heating structure having a heat storage sheet, a planar heating element and a flooring material on a substrate,
The sheet heating element is composed of a heating part and a non-heating part, and the floor material, the non-heating part of the sheet heating element and the heat storage sheet are penetrated and fixed by a fixture having a needle shape. Features a floor heating structure.   The floor heating structure according to any one of claims 1 to 4, wherein the heat storage sheet is obtained by dispersing a heat storage material in a polymer matrix having a three-dimensional crosslinked structure.   5. The heat storage sheet according to claim 1, wherein the heat storage material is dispersed in a polymer matrix having a three-dimensional cross-linking structure formed from a polyol and an isocyanate. Floor heating structure.   The floor heating structure according to claim 1, wherein the fixing tool having a needle-like shape penetrates an arbitrary place of the planar heating element and the heat storage sheet.   The floor heating structure according to claim 2, wherein the fixing tool having a needle-like shape passes through a non-heating part of the planar heating element and an arbitrary place of the heat storage sheet.   The floor heating structure according to claim 3, wherein the fixture having a needle-like shape penetrates any place of the floor material, the planar heating element, and the heat storage sheet. 5. The floor heating structure according to claim 4, wherein the fixture having a needle-like shape penetrates an arbitrary place of the floor material, the non-heat generating portion of the planar heating element, and the heat storage sheet.

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