JP2006169755A - Construction material element and construction method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide construction material elements and construction direction capable of obtaining a building equipped with a required air-conditioning function by simple work. <P>SOLUTION: The construction material elements are constituted by having construction material element bodies and the piping section integrally molded in the construction material element bodies, the piping section integrally molded in advance is connected thereto by only consecutively coming into contact with the construction material elements to form a required heat transfer medium course, and a building equipped with the air conditioning function making use of radiant heat can thereby be easily provided. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a building material element used as a roofing material, a flooring material, a wall material, a ceiling material, etc. of various buildings and a building method using the building material element, and in particular, a piping part for circulating a heat transfer medium. Are integrated in advance, and for example, it is devised so that a building having a configuration capable of performing cooling and heating by radiant heat by circulating a heat transfer medium can be easily obtained.

  Conventionally, for example, there has been a proposal to enhance the indoor air-conditioning effect by providing a heat insulating structure on the roofing material, and examples thereof include Patent Document 1 and Patent Document 2.

Japanese Patent Laid-Open No. 08-277597 JP 2004-36313 A

  In addition, for example, a configuration has been proposed in which not only a heat insulating structure is provided on the roof material but also the air conditioning is actively performed using the structure of the roof. As such a thing, there exist patent document 3, patent document 4, etc., for example.

JP-A-10-132301 Japanese Patent Application Laid-Open No. 06-201183

  The conventional configuration has the following problems. As described above, there are proposals to actively carry out cooling and heating using the structure of the roof, but there is a problem that the construction of such a roof is troublesome. This is because it is necessary to separately lay various ducts and pipes for circulating the heat transfer medium in addition to the usual roofing work, which requires a lot of labor and a long working time. Because it ends up.

  The present invention has been made on the basis of the above points. The object of the present invention is a building material element capable of obtaining a building having a desired air conditioning function using, for example, radiant heat by a simple operation. And to provide architectural direction.

In order to achieve the above object, a building material element according to claim 1 of the present invention comprises a building material element main body and a piping part integrally formed in the building material element main body. .
The building material element according to claim 2 is the building material element according to claim 1, wherein the building material element main body is composed of a plurality of layers, a transparent plate is attached to the outermost layer, and the other layers. The above-mentioned piping part is integrally molded, and is used as a roofing material.
A building material element according to claim 3 is the building material element according to claim 2, wherein a heat transfer medium is circulated through the pipe portion to collect heat.
According to a fourth aspect of the present invention, there is provided a building material element according to the second aspect, wherein a heat transfer medium is circulated through the pipe portion to perform cooling and heating by radiant heat.
The building material element according to claim 5 is the building material element according to claim 1, wherein the building material element main body is composed of a plurality of layers, and a solar cell module is attached to the outermost layer. In other layers, the above-mentioned piping portion is integrally formed and used as a roofing material.
The building material element according to claim 6 is characterized in that, in the building material element according to claim 1, the building material element body is used for a flooring material, a wall material or a ceiling material. .
Further, the building material element according to claim 7 is the building material element according to claim 6, wherein a heat transfer medium is circulated through the piping portion in the building material element main body to perform cooling and heating by radiant heat. To do.
Moreover, the construction method according to claim 8 prepares a plurality of building material elements according to any one of claims 1 to 7, connects the plurality of building material elements, and is necessary for the piping section. A desired roofing material, flooring material, ceiling material or wall material is constructed by performing an appropriate connecting operation.

Therefore, according to the building material element according to the present invention, since the construction material element main body and the piping part integrally formed in the building material element main body are provided, the building material elements are simply connected. In addition, a desired heat transfer medium path is configured by a pipe portion that is integrally formed therewith in advance, and thereby, for example, a building having a cooling / heating function using radiant heat can be easily provided. it can.
In addition, when the building material element body is composed of a plurality of layers, a transparent plate is attached to the outermost layer, and a piping part is integrally formed with the other layers to be used as a roofing material, It is possible to easily provide a roof having an air conditioning function using radiant heat.
In addition, when the building material element body is composed of a plurality of layers, a solar cell module is attached to the outermost layer, and the piping part is integrally formed with the other layers to be used as a roofing material. Can easily build a roof with a photovoltaic system.
In addition, when the building material element main body is used for a flooring material, a wall material, or a ceiling material, it is possible to easily provide a flooring material, a wall material, or a ceiling material having a cooling / heating function using radiant heat. it can.
According to the construction method of the eighth aspect, a roof, a floor, a ceiling and a wall having a desired configuration can be easily provided.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a flowchart showing a configuration of an air conditioning / hot water supply system in a house constructed using a building material element according to the present embodiment, and FIG. 2 is a side view showing an end face structure of a roof building material element, FIG. 3 is a side view showing an end surface structure of a building material element for floors.
First, there is a heat collecting layer panel 1, and this heat collecting layer panel 1 is a unit having a structure in which a plurality of roof building material elements 3 as shown in FIG. 2 are connected in advance (three in this embodiment). 4 is connected. Further, a water flow layer panel 5 is provided separately from the heat collection layer panel 1. This water-permeable layer panel 5 also has a configuration in which a plurality of units 4 having a configuration in which a plurality of roof building material elements 3 as shown in FIG. 2 are connected in advance (three in this embodiment) are connected. Yes.
In FIG. 1, four units 4 each used in the heat collecting layer panel 1 and the water flow layer panel 5 are illustrated, but this is only schematically shown. The number is not particularly limited. In the present embodiment, as described above, the three roof building material elements 3 are connected in advance to form the unit 4, but the number is not particularly limited.

Further, a floor heating panel 7 is installed, and this floor heating panel 7 has a structure in which a plurality of floor building material elements 9 as shown in FIG. 3 are connected in advance (three in this embodiment). A plurality of units 10 are connected.
In FIG. 1, only four units 10 used in the floor heating panel 7 are illustrated, but this is only schematically illustrated, and the number is not particularly limited. In the present embodiment, the three floor building material elements 9 are connected in advance to form the unit 10, but the number is not particularly limited.

  A water tank 11 is provided, and a pump 13 is installed in the water tank 11. A well water tank 15 is provided, and well water pumped up by a pump 17 is stored in the well water tank 15. Pumps 19 and 21 are connected to the well tank 15. In addition, heat exchangers 23 and 25 are installed. A hot water tank 27 is installed, and a pump 29 is connected to the hot water tank 27. A heat exchanger 31 is installed.

Also, a heat transfer medium inflow branch pipe 33 is connected to each roof building material element 3 constituting each unit 4 of the heat collecting tank panel 1 described above, and each of these heat transfer medium inflow branch pipes 33 is heated. Collected in the transmission medium inflow rod 35. Further, a heat transfer medium outflow branch pipe 37 is connected to each roof building material element 3 constituting each unit 4 of the heat collecting tank panel 1, and each of these heat transfer medium outflow branch pipes 37 is connected to the heat transfer medium outflow pipe 37. It is gathered at 菅 39.
Although one heat transfer medium inflow branch pipe 33 and one heat transfer medium outflow branch pipe 37 are shown in each unit 4, this is for convenience and each building material element 3 for roof that constitutes each unit 4. Various configurations are conceivable as to how to connect to, and the configuration is not limited to a specific configuration.

The heat transfer medium inlet 35 and the heat transfer medium outlet pipe 39 are connected to the primary side of the heat exchanger 31. A pipe 40 is installed on the secondary side of the heat exchanger 31, and the hot water tank 27 and the pump 29 already described are inserted into the pipe 40. The heat collected on the heat collecting layer panel 1 side is transmitted to the secondary side via the heat exchanger 31 and stored in the hot water storage tank 27 as hot water.

  A hot water heater 41 is connected to the hot water storage tank 27 and is used for various purposes while being appropriately heated through the hot water heater 41. Examples of the various applications include use through the shower 43, use through the faucets 45 and 45, use through the bathtub 47, and the like.

A heat transfer medium inflow branch pipe 51 is connected to each roof building material element 3 constituting each unit 4 of the water tank panel 5, and each of these heat transfer medium inflow branch rods 51 is a heat transfer medium inflow rod 53. Are gathered. An opening / closing valve 52 is inserted in each of the heat transfer medium inflow branching rods 51. Further, a heat transfer medium outflow branch pipe 55 is connected to each roof building material element 3 constituting each unit 4 of the water tank panel 5, and each of these heat transfer medium outflow branch pipes 55 is connected to the heat transfer medium outflow pipe 55. 57.
In addition, although the said heat transfer medium inflow branch pipe 51 and the said heat transfer medium outflow branch pipe 55 are shown in each unit 4 one each, this is for convenience and each building material element 3 for roofs which comprises the unit 4 is shown. Various configurations are conceivable as to how to connect to, and the configuration is not limited to a specific configuration.

The heat transfer medium inlet 53 and the heat transfer medium outlet pipe 57 are connected to the primary side of the heat exchanger 23. Further, a pipe 59 is installed on the secondary side of the heat exchanger 23, and the pump 19 already described is inserted into the pipe 59 and an on-off valve 60 is connected thereto. A pump 61 is inserted in the heat medium inflow pipe 53. A flat valve 58 is interposed between the heat transfer medium inlet 53 and the heat transfer medium outlet pipe 57.

  Well water stored in the well tank 15 is circulated by the pump 19 on the pipe 59 side. The heat transfer medium circulating on the water tank panel 5 side is cooled or heated by the well water through the heat exchanger 23. For example, since the temperature of the well water is constant throughout the year, it exhibits a cooling effect in summer and a heating effect in winter.

Further, a heat transfer medium inflow branch pipe 71 is connected to each floor building material element 9 constituting each unit 10 of the floor heating panel 7, and each of these heat transfer medium inflow branch pipes 71 is inflow of the heat transfer medium. It is gathered in 菅 73. Further, a heat transfer medium outflow branch pipe 75 is connected to each floor building material element 9 constituting each unit 10 of the floor heating panel 7, and each of these heat transfer medium outflow branch pipes 75 is connected to the heat transfer medium outflow pipe 75. 77.
The heat transfer medium inflow branch pipe 71 and the heat transfer medium outflow branch pipe 75 are shown one by one in each unit 10, but this is for convenience and each floor building material element 9 constituting the unit 10 is shown. Various configurations are conceivable as to how to connect to, and the configuration is not limited to a specific configuration.

An opening / closing valve 76 is inserted in each heat transfer medium outflow branch pipe 75. The heat transfer medium inlet 73 and the heat transfer medium outlet pipe 77 are connected to the primary side of the heat exchanger 79. A pipe 81 is installed on the secondary side of the heat exchanger 79, and a pump 83 is inserted into the pipe 81. A pump 85 is inserted in the heat medium outlet pipe 77.

  And the heat transfer medium which distribute | circulates the said floor heating panel 7 side is heated with the hot water by the side of the hot water heater 41 through the heat exchanger 79. FIG. The heated warm water exhibits a floor heating function by circulating through the floor heating panel 7 side.

The heat transfer medium inflow rod 35 and the heat transfer medium outflow pipe 39 already described are also connected to the primary side of the heat exchanger 25. A pipe 26 is provided on the secondary side of the heat exchanger 25, and the already-described pump 21 and on-off valve 28 are connected to the pipe 26.
In FIG. 1, reference numerals 91, 92, 93, 94, 95, 96, 97, and 98 are on-off valves, and reference numeral 99 is a pump.

  Further, the primary side of the heat exchanger 23, that is, each heat transfer medium outflow branch rod 55 is in a state in which water can be supplied to the heat transfer medium outflow rod 57 from the water tank 11 side. Similarly, the primary side of the heat exchanges 25 and 31 can be supplied with water from the water tank 11 side.

  Next, the structure of the roof building material element 3 and the structure of the floor building material element 9 will be described in detail. First, the building material element 3 for roof has a structure as shown in FIG. First, there is a building material element main body 101. This building material element 101 has a three-layer structure, and includes a lower layer portion 103, a middle layer portion 105, and an upper layer portion 107 from the bottom. The lower layer portion 103 is composed of plate materials 109 and 111 and side plates 113 and 115. A pipe portion 117 is integrally formed with the plate members 109 and 111.

The middle layer portion 105 includes a plate material 111, a plate material 119, and side plates 121 and 123. A pipe portion 125 is formed integrally with the plate material 119. The upper layer portion 107 includes the plate material 119, a transparent glass plate 127, side plates 129 and 131, and an edge member 133.
In the present embodiment, except for the glass plate 127, it is made of aluminum.

  In the case shown in FIG. 2, two roof building material elements 3 are connected. In this connection procedure, the constituent members of the lower layer portion 103, the plate material 111 and the side plates 121 and 123 of the middle layer portion 105 are integrally formed in advance. Such integrally molded portions are connected to the left and right, and connected to the through holes 124 and 122 through fastening bolts and nuts (not shown). A plurality of the through holes 124 and 122 are provided at a predetermined pitch along a direction orthogonal to the plane of the drawing, so that the fastening with the bolts and nuts is performed at a plurality of locations.

Further, locking portions 121a, 123a are bent and formed at the upper ends of the side plates 121, 123, and the cross-sectional shape of these locking portions 121a, 123a is substantially “C-shaped”.
An engaging member 126 is formed and disposed. In this state, an integrally molded product on the upper layer 107 side, that is, a component in which the plate material 119 and the side plates 129 and 131 are integrally molded in advance is installed. At that time, the packing 134 is inserted between the side plates 131 and 129 which are opposed and arranged. Also, the edge member 133 is crowned / arranged from above. Left and right clip portions 133a and 133b are provided at the lower end of the edge member 133, and the side plates 131 and 129 and the packing 134 are sandwiched between the clip portions 133a and 133b.

The edge member 133 is provided with bolts 136 and nuts 138 at a plurality of locations in a direction perpendicular to the paper surface. Further, a taper portion 138a is provided on the upper surface side of the nut 138. On the other hand, the opposing surface on the edge member 133 side is also a taper portion 133c. Therefore, when the bolt 136 and the nut 138 are screwed together, the upper portion of the edge member 133 in the figure spreads outward in the left-right direction due to the action of the tapered portion 138a of the nut 138 and the tapered portion 133c on the edge member 133 side. To go. As a result, the clip portions 133a and 133b provided in the lower portion are urged in the approaching direction. Accordingly, the side plates 131 and 129 and the packing 134 are fastened.

The two roof building material elements 3 and 3 are connected by the above procedure. In the case of the present embodiment, as already described, three roof building material elements 3 are connected in advance, and are carried into the site as one unit 4. And the whole heat collection layer panel 1 and the water flow layer panel 5 are constructed | assembled by further connecting the some unit 4. FIG. In addition, piping is connected to the piping parts 117 and 125 to constitute a flow path of a heat transfer medium (well water, tap water) as shown in FIG.

  Next, although it is the said building material element 9 for floors, it has a structure as shown in FIG. First, there is a building material element main body 141. The building material element main body 141 has a single-layer structure, and is composed of plate members 143 and 145, side plates 147 and 149, and a pipe portion 151 formed integrally with the plate member 145. Has been. Stepped flange portions 143a and 143b are extended and formed on the left and right sides of the plate member 143, respectively. The unit 10 is configured by connecting three floor building material elements 9 having the above configuration in the left-right direction. In addition, the heat transfer medium flows through the piping part 151.

The above-described building material elements for floor 9 are connected to each other using a cap 161. That is, the locking portions 147a and 149a are formed on the side plates 147 and 149 of the floor building material element 9. On the other hand, locking portions 161a and 161b are formed on the cap 161 side. First, the floor building material elements 9 and 9 are arranged adjacent to each other, and fixing screws (not shown) are screwed into the overlapped stepped flange portions 143a and 143b to be fixed to the floor. Then, the cap 161 is inserted between the floor building material elements 9 adjacent to each other. Accordingly, the locking portions 147a and 149a and the locking portions 161a and 161b are engaged. Thus, the portion of the fixing screw is hidden and a flat floor structure is obtained as a whole. Moreover, piping is connected to the piping part 151, and the distribution | circulation path | route of a heat transfer medium as shown in FIG. 1 is comprised.

As described above, according to the present embodiment, the following effects can be obtained.
First, in the case of the present embodiment, since the roof building material element 3 has a configuration in which the piping portions 117 and 125 are integrally provided in advance, the roof building material element 3 is simply connected. It is possible to build a roof having a desired structure. Therefore, it is possible to reduce the labor required for construction of the roof and shorten the work time.
Further, in the case of the present embodiment, three roof building material elements 3 are connected in advance to form a unit 4 and carry it into the field, so that the work efficiency is further increased.
This also applies to the floor building material element 9. Since the building material element for floor 9 has a configuration in which the piping part 151 is integrally provided in advance, it is possible to construct a floor having a desired structure simply by connecting the building material element for floor 9. It can be done. Therefore, it is possible to reduce the labor required to construct the floor and shorten the work time.
Further, in the case of the present embodiment, three floor building material elements 9 are connected in advance to form the unit 10 and carry it into the field, so that the work efficiency is further increased.
In the case of this embodiment, the room can be cooled and heated by radiant heat through the water tank panel 5, and similarly, the floor heating panel 5 can be heated by radiant heat, thus providing comfortable cooling and heating. It is something that can be done.
In the case of this embodiment, since well water is used effectively, energy consumption can be reduced.

The present invention is not limited to the one embodiment.
First, in the case of the one embodiment, the roof material and the floor material have been described as examples. However, the present invention can also be applied as a ceiling material and a wall material.
Moreover, in the said one Embodiment, when comprised as a roofing material, although the transparent plate was attached to the outermost layer, you may make it install solar cell module instead and make it generate solar power. In this case, necessary wirings are passed through the upper layer space below the solar cell module.
Further, the number of tanks is not particularly limited.
Moreover, about the piping part, the usage example which uses a heat transfer medium as a mere air layer, without exhibiting a heat insulation effect, for example is assumed. It is also conceivable to exert a heat insulating effect in a state where the heat transfer medium is circulated.
In addition, as for the material of each component, the case of aluminum is given as an example, but this is not particularly limited.

The present invention relates to a building material element used as a roofing material, a flooring material, a wall material, a ceiling material, etc. of various buildings and a building method. For example, it is suitable for a house or the like that can be cooled and heated via a roofing material, for example, with regard to a device that can be easily obtained a building that can be cooled and heated by radiant heat by circulating a heat transfer medium. is there.

It is a figure which shows one embodiment of this invention, and is a flowchart which shows the structure of the air-conditioning and hot-water supply system of a house. It is a figure which shows one embodiment of this invention, and is a side view which shows the end surface structure of the building material element used as a roofing material. It is a figure which shows one embodiment of this invention, and is a side view which shows the end surface structure of the building material element used as a flooring.

Explanation of symbols

3 Building material element for roof 4 Unit 101 Building material element main body 117 Piping part 125 Piping part 9 Building material element for floor 10 Unit 141 Building material element main body 151 Piping part

Claims (8)

A building material element body;
A piping part integrally molded in the building material element body;
A building material element characterized by comprising: The building material element of claim 1,
The building material element main body is composed of a plurality of layers, a transparent plate is attached to the outermost layer, and the piping portion is integrally formed with the other layers, and is used as a roofing material. Building material element. The building material element according to claim 2,
A building material element characterized in that a heat transfer medium is circulated through the pipe section to collect heat. The building material element according to claim 2,
A building material element characterized in that a heat transfer medium is circulated through the pipe part to perform cooling and heating by radiant heat. In the building material element according to claim 1,
The building material element body is composed of a plurality of layers, the outermost layer is attached with a solar cell module, and the other layers are integrally molded with the piping part, and used as a roofing material. Characteristic building material element. The building material element of claim 1,
The building material element body is used as a flooring material, a wall material, or a ceiling material. The building material element according to claim 6,
A building material element characterized in that a heat transfer medium is circulated through a piping portion in the building material element main body to perform cooling and heating by radiant heat. By preparing a plurality of building material elements according to any one of claims 1 to 7, connecting the plurality of building material elements together and performing necessary connection work on the piping part, a desired Construction method characterized by constructing roofing material, flooring material, ceiling material or wall material.

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