JP4035327B2 - Thermal storage floor heating structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a heat storage floor heating structure, and more particularly to a heat storage floor heating structure that is suitable when applied to a wooden house.
[0002]
[Background]
Conventionally, there has been known a floor heating concept in which a radiator such as a hot water pipe and an electric heater is installed under the floor to warm the room from the floor (Japanese Patent Laid-Open No. 2001-20403).
Such a floor heating structure has a structure as shown in FIG. 4, for example.
That is, a base 32 is provided on the foundation 31 of the wooden house 30, and a large pulling material 33 is bridged between the bases in a direction orthogonal to the base 32. A heat insulating material 34 is provided between the large pulling members 33, and a dumping tension 35 is provided on the large pulling member 33 and the heat insulating material 34. A plurality of joists 36 are provided at predetermined intervals on the throwing tension 35, and a floor heating layer 37 is formed between these joists 36. The floor heating layer 37 includes a heater 40 and a heat storage material board 41 provided on the heater 40. And on this floor heating layer 37, the floor finishing material 43 is provided through the plywood 42 grade | etc.,.
Here, the heat insulating layer is formed by cutting the heat insulating material 34 having a predetermined size in accordance with the interval between the large drawing materials 33 and disposing the cut heat insulating material 34 between the large drawing materials 33.
Although not shown, a pillar is erected on the base 32, a predetermined outer wall 45 is provided on the outer side surface and supported by the pillar and the base 32, and an inner wall 46 is provided on the inner side of the pillar. Yes.
[0003]
[Problems to be solved by the invention]
However, in the conventional floor heating structure, in order to provide the heat insulating material, the heat insulating material must be cut in accordance with the interval of the large drawing material. Since a plurality of large draw materials are provided, there is a problem in that the heat insulating material needs to be cut a plurality of times in accordance with it, which requires a lot of work.
[0004]
The objective of this invention is providing the thermal storage floor heating structure which can form a heat insulation layer with little effort in a wooden house.
[0005]
[Means for Solving the Problems]
The invention according to claim 1 is a heat storage floor heating structure provided adjacent to the floor portion 8 formed on the large pulling member 39 as shown in FIG. A heat insulating layer provided on the large pulling material, a floor heating layer provided on the heat insulating layer to dissipate heat, and a floor finishing material 43 provided on the floor heating layer. The layer is composed of a plurality of heat insulation panels 24 provided with a heat insulating material 26, and the floor heating layer includes a pair of joist members 36 (see FIG. 1), a radiator 20 provided between the pair of joist members, and a pair. is composed of a planar heat storage layer 21 provided above and below the joist material between and radiator, a plurality of heat storage panel 28 having a, the insulating panel and the heat storage panel has the same width substantially each and, respectively provided at positions corresponding to each other, each of the thickness of the insulation panels and the heat storage panel Dimensions, when carrying the heat storage panel on the upper surface of the insulating panel, a thermal storage floor heating structure upper surface of the heat storage panel is characterized in that it is set to a dimension which is a top surface coplanar with the floor.
According to the present invention, the heat insulating layer may be formed only by providing the heat insulating layer on the large drawing material without cutting the heat insulating material in accordance with the interval between the large drawing material and the large drawing material. Therefore, the heat insulating layer can be easily provided, and the construction efficiency can be improved.
Since it is only necessary to sequentially install a plurality of heat insulation panels and heat storage panels, the construction efficiency of the heat insulation layer and the floor heating layer can be further improved.
Moreover, since the heat can be stored in the heat storage layer at night using midnight power and can be radiated from the daytime heat storage layer, the cost of the power used can be reduced.
[0009]
According to a second aspect of the invention, as shown in FIG. 3, the thermal storage floor heating structure of claim 1, wherein the radiator is characterized in that an electric heater. According to such this invention, compared with the case where a radiator is comprised with warm water piping, since the thickness of a radiator can be made thin, the thickness of a thermal storage layer is made thick and floor heating capability is improved. Can do.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Below, a reference example is demonstrated based on drawing.
In this reference example , the same members and the like as materials and structures used in the conventional wooden house 30 are denoted by the same reference numerals, and detailed description thereof is omitted or simplified.
As shown in FIG. 1, the heat storage floor heating structure in the wooden house 10 of the reference example is the heat insulating layer 14 provided on the large pulling material 33 and the floor heating provided on the heat insulating layer 14 to dissipate heat. The floor finishing material 43 provided on the layer 17 and the floor heating layer 17 is configured.
[0011]
As shown also in FIG. 2, the heat insulation layer 14 is comprised with the heat insulating material formed, for example with the polystyrene foam. As the heat insulating material, hard urethane foam, glass wool or the like may be used.
The heat insulating material is formed to have a predetermined width dimension, for example, a width extending between the joists 36, and has a length substantially equal to the length of the floor heating panel 18 described below.
[0012]
The floor heating layer 17 includes a plurality of floor heating panels 18, and each floor heating panel 18 includes a radiator 20 formed of an electric heater, and planar heat storage provided above and below the radiator 20. The radiator 21 and the heat storage layer 21 are arranged between two joists 36 facing each other at a predetermined interval.
[0013]
The upper and lower heat storage layers 21 are composed of two heat storage members 21A and 21B with the radiator 20 interposed therebetween. These heat storage members 21A and 21B are, for example, molded sintered bodies of magnesium / silicon oxide powder, those formed by a non-firing method mainly composed of iron oxide, sodium acetate, paraffin, etc. Any material can be used as long as it is planar and can obtain a predetermined heat storage effect.
[0014]
The floor finishing material 43 is provided on the upper surface of each floor heating panel 18 constituting the floor heating layer 17 via a calcium (calcium silicate) plate 22.
The electric heater 20 is configured to connect the electric heaters of the floor heating panels 18 adjacent to each other via a connector or the like (not shown) by wiring at the end. In addition, the electric heater 20 is connected to a distribution board (not shown) and is connected to a control unit.
And by this control unit, heat can be stored in the heat storage layer at night using midnight power and can be radiated from the daytime heat storage layer, thereby reducing the cost of power used. .
As shown in FIG. 2, the floor heating panel 18 and the heat insulating material 14 are integrated by bonding or the like with a throwing tension 15 interposed therebetween.
[0015]
Next, the operation of the reference example will be described.
In building the timber house 10, a base 32 is installed on the foundation 31, and a large draw material 33 is placed between the bases 32.
Next, a plurality of floor heating panels 18 are sequentially placed on the upper surface of the large pulling material 33, wiring is performed, and after a predetermined number of floor heating panels 18 have been installed, a floor finishing material 43 such as a particle board is placed thereon. Provide.
[0016]
Such a reference example has the following effects.
(1) The heat insulating layer 14 may be formed only by providing a predetermined heat insulating material on the large pulling material 33. As is conventional, the heat insulating material is provided in accordance with the interval between the large pulling material 33 and the large pulling material 33. Since it does not need to cut | disconnect, a heat insulation layer can be provided easily and construction efficiency can be improved.
[0017]
(2) Since the heat storage floor heating structure only needs to install a plurality of floor heating panels 18 in sequence, the construction efficiency of the floor heating layer can be improved. Moreover, since the heat can be stored in the heat storage layer at night using midnight power and can be radiated from the daytime heat storage layer, the cost of the power used can be reduced.
[0018]
(3) Since the floor heating panel 18 includes the joist member 36, the joist member 36 can ensure the strength of the floor heating panel 18 and can handle and handle the joist member 36. The handleability of 18 can be improved. In addition, as a result of the joist member 36 being integrated with the floor heating panel 18, labor for the joist member 36 can be omitted, and the work efficiency can be improved.
[0019]
(4) The floor heating panel 18 is integrated with the heat insulating layer 14, and the heat insulating layer 14 is formed on the large pulling material 33 only by placing a plurality of floor heating panels 18 on the large pulling material 33. Since it can provide, the effort of construction of a heat insulation layer can be omitted, and construction efficiency can be further improved by this.
[0020]
(5) Since the radiator 20 is composed of an electric heater, the thickness of the radiator 20 can be reduced as compared with the case where the radiator is composed of hot water piping. As a result, the thickness of the heat storage layer 21 can be reduced. The floor heating capacity can be improved by increasing the thickness.
[0021]
FIG. 3 shows an embodiment of the present invention.
In the present embodiment , the same members and structures as those in the reference example are denoted by the same reference numerals, and detailed description thereof is omitted or simplified.
In the present embodiment, the heat storage floor portion 1 provided with the heat insulation panel 24 and the heat storage panel 28 provided on the large pulling material 33 is removed from the normal floor portion 8 without these panels 24 and 28 by removing a step. It is arranged.
[0022]
That is, the floor portion 8 is formed by providing a predetermined heat insulating material 7 or the like between the joists 6 provided at predetermined intervals on the large pulling material 33, and the upper surface of the joists 6 is, for example, the calcium plate A floor finish 43 is provided via 22.
On the other hand, the heat insulating panel 24 is formed by providing the heat insulating material 26 for forming the heat insulating layer 14 in the frame material 25 and is provided on the large pulling material 33 as described above. The heat storage panel 28 is formed by incorporating the heat storage members 21 </ b> A and 21 </ b> B and the radiator 20 into the joist member 36, and is provided on the heat insulating panel 24. A floor finishing material 43 is provided on the upper surface of the heat storage panel 28 via a calcium plate 22.
[0023]
Here, although the structure of the heat insulation panel 24 is substantially the same as the structure which provided the heat insulating material 7 between the joists 6 which the floor part 8 opposes, height differs. The heat storage panel 28 has the same structure as the floor heating panel 18 except for the heat insulation layer 14. When the heat storage panel 28 is placed on the upper surface of the heat insulation panel 24, the heat storage panel 28 and the floor 8 Each is dimensioned so that the top surface is at the same height. Therefore, when the floor finishing material 43 is provided on the upper surface of the heat storage panel 28 and the upper surface of the floor portion 8 via the calcium plate 22, a floor surface without a step is obtained.
[0024]
According to this embodiment , in addition to the same effects as the above (1) to (5), there are the following effects.
(6) When the heat storage panel is placed on the upper surface of the heat insulating panel 24, the dimensions are set so that the upper surface of the heat storage panel 28 and the upper surface of the floor 8 are the same height. When the finishing material 43 is provided, the level difference between the floor heating part and the floor that occurs when heat storage and floor heating are provided on a normal floor part can be eliminated, and a floor surface without a level difference can be obtained.
[0025]
The present invention is not limited to the before you facilities embodiment, have good long as it can achieve the object of the present invention.
[0026]
【The invention's effect】
As described above, according to the first aspect of the present invention, the heat insulating layer may be formed only by providing the heat insulating layer on the large drawing material, and the heat insulating material in accordance with the distance between the large drawing material and the large drawing material. Therefore, the heat insulation layer can be easily provided, and the construction efficiency can be improved.
Since it is only necessary to sequentially install a plurality of heat insulation panels and heat storage panels, the construction efficiency of the heat insulation layer and the floor heating layer can be improved. Moreover, since the heat can be stored in the heat storage layer at night using midnight power and can be radiated from the daytime heat storage layer, the cost of the power used can be reduced.
[0030]
According to invention of Claim 2, since the thickness of a radiator can be made thin compared with the case where a radiator is comprised with warm water piping, the thickness of a thermal storage layer is made thick and floor heating capability is improved. Can do.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing a heat storage floor heating structure of a reference example .
FIG. 2 is a perspective view showing a main part of the reference example .
FIG. 3 is a longitudinal sectional view showing an embodiment of a heat storage floor heating structure according to the present invention.
FIG. 4 is a perspective view showing a conventional heat storage floor heating structure.
[Explanation of symbols]
8 Floor 10 Wooden house 14 Insulation (insulation layer)
DESCRIPTION OF SYMBOLS 17 Floor heating layer 18 Floor heating panel 20 Heat radiator comprised with electric heater 21 Heat storage layer 21A, 21B Upper and lower heat storage material which forms a heat storage layer 24 Heat insulation panel 28 Heat storage panel

Claims (2)

A heat storage floor heating structure of a heat storage floor portion provided adjacent to a floor portion formed on a large pulling material,
A heat insulating layer provided on the large pulling material, a floor heating layer provided on the heat insulating layer to dissipate heat, and a floor finish provided on the floor heating layer,
The heat insulating layer is composed of a plurality of heat insulating panels provided with a heat insulating material,
The floor heating layer includes a pair of joists material, a radiator disposed between the pair of joists member, and the planar heat storage layer provided on the upper and lower and the radiator between the pair of joists material, the It is composed of a plurality of heat storage panels
The heat insulation panel and the heat storage panel each have substantially the same width dimension, and are provided at positions corresponding to each other,
Each thickness dimension of the said heat insulation panel and the said heat storage panel is set to the dimension from which the upper surface of the said heat storage panel becomes the same height as the upper surface of the said floor part, when the said heat storage panel is mounted on the upper surface of the said heat insulation panel. Thermal storage floor heating structure characterized by that. In the thermal storage floor heating structure according to claim 1,
Thermal storage floor heating structure, wherein the radiator is a electric heater.

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