JP2010180564A - Structure for mounting building panel - Google Patents

Structure for mounting building panel Download PDF

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JP2010180564A
JP2010180564A JP2009023139A JP2009023139A JP2010180564A JP 2010180564 A JP2010180564 A JP 2010180564A JP 2009023139 A JP2009023139 A JP 2009023139A JP 2009023139 A JP2009023139 A JP 2009023139A JP 2010180564 A JP2010180564 A JP 2010180564A
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panel
wiring
adjacent
building
wiring space
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JP5193082B2 (en
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Shigeyuki Ueda
滋之 上田
Futoshi Maeda
太 前田
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Panasonic Electric Works Co Ltd
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Panasonic Electric Works Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a structure for mounting a building panel, capable of obtaining the fall prevention effect of the building panel, and excellent in safety and constructibility. <P>SOLUTION: In this structure for mounting the building panel, the plurality of building panels 1 with built-in electric equipment 3 are adjacently mounted on a ceiling or a wall. Wiring space portions 8, which are formed in such a shape as to continue on a straight line along the adjacent direction of the building panels 1, are provided at one-side ends 2a orthogonal to the adjacent direction of the building panels 1, respectively; electrical connecting portions 4 electrically connected to the electric equipment 3 are provided in such a manner as to face the wiring space portions 8, respectively; and the adjacent electrical connecting portions 4 are sequentially connected together by means of connecting wiring 18 arranged along the wiring space portions 8. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、電気機器を組み込んだ建築用パネルの取付構造に関するものである。   The present invention relates to a mounting structure for a building panel incorporating an electric device.

近年、天井面に暖房パネルヒータを取り付け、またそれらに電源電線を配線する天井輻射暖房構造が多用化されるようになっている(例えば、特許文献1参照)。   In recent years, a ceiling radiant heating structure in which a heating panel heater is attached to a ceiling surface and a power supply wire is wired to them is increasingly used (for example, see Patent Document 1).

ところで、天井面への暖房パネルヒータの施工途中で万が一外れると、暖房パネルヒータが脱落・落下して作業者に当たる可能性がある。そのため、作業者が複数人で暖房パネルヒータを支えながら取り付け工事や配線工事を行なう必要があり、施工に手間がかかるものであった。   By the way, if the heating panel heater is removed during the construction of the heating panel heater on the ceiling surface, the heating panel heater may fall off and fall and hit an operator. Therefore, it is necessary to perform installation work and wiring work while supporting a heating panel heater by a plurality of workers, which takes time and effort.

特開平9−242249号公報Japanese Patent Laid-Open No. 9-242249

本発明は上記の従来の問題点に鑑みて発明したものであって、その目的とするところは、建築用パネルの落下防止効果を得ることができ、安全性及び施工性に優れた建築用パネル取付構造を提供することにある。   The present invention has been invented in view of the above-described conventional problems, and the object of the present invention is to provide a building panel that can obtain the fall prevention effect of the building panel and is excellent in safety and workability. It is to provide a mounting structure.

前記の課題を解決するために、本発明は、電気機器3を組み込んだ建築用パネル1を複数枚、隣接して天井又は壁に取り付ける建築用パネル取付構造であって、各建築用パネル1の隣接方向と直交する一側端部2aに、各建築用パネル1の隣接方向に沿って直線上に連なるように形成される配線用空間部8をそれぞれ設けると共に、各配線用空間部8に臨ませて上記電気機器3に電気的に接続される電気的接続部4をそれぞれ設け、上記配線用空間部8に沿って配線される渡り配線18を用いて隣合う電気的接続部4同士を順次接続してなることを特徴としている。   In order to solve the above-described problems, the present invention provides a building panel mounting structure in which a plurality of building panels 1 incorporating electric devices 3 are attached to a ceiling or a wall adjacent to each other. A wiring space portion 8 formed so as to be connected in a straight line along the adjacent direction of each building panel 1 is provided at one side end portion 2a orthogonal to the adjacent direction, and the wiring space portion 8 is exposed to each wiring space portion 8. The electrical connection portions 4 that are electrically connected to the electrical equipment 3 are respectively provided, and the adjacent electrical connection portions 4 are sequentially connected to each other using the crossover wiring 18 that is routed along the wiring space portion 8. It is characterized by being connected.

このような構成とすることで、渡建築用パネル1の施工途中或いは施工後に渡建築用パネル1が万が一、天井又は壁から外れた場合でも、各建築用パネル1間にわたって直線上に連なる配線用空間部8に沿って渡り配線18が繋がっていることによって、渡り配線18が各建築用パネル1の荷重を支える形となり、建築用パネル1が落下してしまうことを防止でき、施工の安全性を確保できる。   By adopting such a configuration, even if the crossover construction panel 1 is removed from the ceiling or wall in the middle of or after the construction of the crossover construction panel 1, it is for wiring that continues in a straight line between the construction panels 1 By connecting the connecting wires 18 along the space 8, the connecting wires 18 can support the load of each building panel 1, and the building panel 1 can be prevented from dropping, and the construction safety. Can be secured.

また、上記各渡建築用パネル1は長方形状であり、各渡建築用パネル1を長辺2b同士が互いに隣接するように並列配置すると共に、各渡建築用パネル1の対向する両側の短辺2cにそれぞれ上記電気的接続部4及び配線用空間部8を設けるのが好ましく、この場合、渡建築用パネル1の長辺方向の両端2箇所でそれぞれ渡り配線18によるパネル落下防止効果が得られ、一層の安全化を図ることができると共に、各建築用パネル1の両側の短辺2cに電気的接続部4及び配線用空間部8を配置することで、隣合う電気的接続部4相互間の距離Hを短くでき、これに伴い、建築用パネル1の外れ時に渡り配線18に対して加わる荷重を軽減できるようになる。   Moreover, each said crossing construction panel 1 is rectangular shape, and arranges each crossing construction panel 1 in parallel so that the long sides 2b mutually adjoin each other, and the short side of the both sides which each crossing construction panel 1 opposes It is preferable to provide the electrical connection portion 4 and the wiring space portion 8 in 2c, respectively. In this case, the effect of preventing the panel from being dropped by the crossover wiring 18 is obtained at each of the two ends in the long side direction of the crossover construction panel 1. Further, it is possible to achieve further safety, and by arranging the electrical connection portion 4 and the wiring space portion 8 on the short sides 2c on both sides of each building panel 1, the adjacent electrical connection portions 4 can be connected to each other. Accordingly, the load H applied to the crossover wiring 18 when the building panel 1 is detached can be reduced.

本発明は、建築用パネルに組み込んだ電気機器に対して渡り配線を行なう際に、該渡り配線を利用して、建築用パネルの落下を防止できるものであり、安全性及び施工性向上を図ることができる。   The present invention can prevent falling of a building panel by using the connecting wire when performing crossover wiring with respect to an electric device incorporated in the building panel, thereby improving safety and workability. be able to.

(a)は本発明の一実施形態に用いる内装パネル(建築用パネル)の外れ状態を説明する側面図、(b)は他の外れ状態を説明する側面図である。(A) is a side view explaining the detached state of the interior panel (building panel) used for one embodiment of the present invention, and (b) is a side view explaining another detached state. (a)は同上の電気機器の電気的接続部に対する渡り配線構造を説明する斜視図、(b)は同上の電気的接続部を収納凹所に収納した状態を説明する斜視図、(c)は同上の電気的接続部を収納凹所から引き出した状態を説明する斜視図である。(A) is a perspective view explaining the crossover wiring structure with respect to the electrical connection part of an electrical apparatus same as the above, (b) is a perspective view explaining the state which accommodated the electrical connection part same as the above in a storage recess, (c). FIG. 4 is a perspective view for explaining a state in which the electrical connection portion is pulled out from the housing recess. 同上の電気的接続部に対する渡り配線の接続完了後の状態を説明する正面図である。It is a front view explaining the state after the connection of the crossover wiring with respect to the electrical connection part same as the above is completed. 同上の電気的接続部対する渡り配線の接続が不完全な状態の場合を説明する正面図である。It is a front view explaining the case where the connection of the crossover wiring to the electrical connection part same as the above is in an incomplete state. 同上の複数枚の内装パネルを互いに隣接して並列配置した状態で取付面の一部に取り付けた場合の斜視図である。It is a perspective view at the time of attaching to a part of attachment surface in the state which mutually arranged the several interior panel same as the above adjacently. (a)(b)(c)は同上の複数枚の内装パネルの取り付け手順を説明する斜視図である。(A) (b) (c) is a perspective view explaining the attachment procedure of the several interior panel same as the above. 同上のパネル本体の渡り配線構造を説明する正面図である。It is a front view explaining the transition wiring structure of a panel main body same as the above. 本発明の一実施形態に用いる内装パネル(建築用パネル)を構成するパネル本体と電気機器の分解斜視図である。It is a disassembled perspective view of the panel main body and electric equipment which comprise the interior panel (building panel) used for one Embodiment of this invention. 図7の変形例の説明図である。It is explanatory drawing of the modification of FIG.

以下、本発明を添付図面に示す実施形態に基いて説明する。   Hereinafter, the present invention will be described based on embodiments shown in the accompanying drawings.

本実施形態は、電気機器3として面状ヒータ3Aを内蔵した複数枚の建築用パネル(以下、「内装パネル1」と称する)を例示する。   This embodiment exemplifies a plurality of building panels (hereinafter referred to as “interior panel 1”) in which the planar heater 3 </ b> A is incorporated as the electrical device 3.

各内装パネル1は、それぞれ、長方形状のパネル本体2とこれに組み込まれる面状ヒータ3Aとで構成されている。   Each interior panel 1 is composed of a rectangular panel body 2 and a planar heater 3A incorporated therein.

パネル本体2は、図8に示すように、基材9と、基材9の表面側に設けられた凹み部11内に嵌め込まれる断熱材10a,10bと、基材9の表面を覆う木製又は樹脂製の表面板12とで構成される。上記基材9は、自己保形性を有する硬質発泡樹脂製或いは木製からなる枠体19とその背後に裏打ちされる背面板13とが一体、或いは、別体で構成されている。上記断熱材10a,10bのうち、背面側に位置する断熱材10aはウレタン等の補強用断熱層として機能し、表面側に位置する断熱材10bは、真空断熱材からなる軽量断熱層として機能する。なお、基材9と補強用の断熱材10aとを別体で構成する以外に、一体に構成することも可能である。   As shown in FIG. 8, the panel main body 2 is made of a base material 9, heat insulating materials 10 a and 10 b that are fitted in the recessed portions 11 provided on the surface side of the base material 9, and wooden or covering the surface of the base material 9. And a resin surface plate 12. The base material 9 is composed of a frame body 19 made of hard foamed resin or wood having self-retaining properties and a back plate 13 lined behind it, or a separate body. Of the heat insulating materials 10a and 10b, the heat insulating material 10a located on the back surface side functions as a reinforcing heat insulating layer such as urethane, and the heat insulating material 10b located on the front surface side functions as a lightweight heat insulating layer made of a vacuum heat insulating material. . In addition, the base material 9 and the reinforcing heat insulating material 10a can be configured integrally, in addition to being configured separately.

上記パネル本体2の短辺2c側の一側端部2aには、図2(a)に示すように、背面板13の側端部13aが基材9を構成する枠体19の側端部19aよりも外方に突出していると共に、表面板12の側端部12aは枠体19の側端部19aとほぼ重なるように配置されている。   As shown in FIG. 2 (a), the side end portion 13 a of the back plate 13 includes a side end portion of the frame body 19 constituting the base material 9, at one side end portion 2 a on the short side 2 c side of the panel body 2. The side end 12a of the surface plate 12 is disposed so as to substantially overlap the side end 19a of the frame body 19 while projecting outward from 19a.

さらに上記パネル本体2の短辺2c側の一側端部2aには、配線用空間部8が形成される。この配線用空間部8は、該一側端部2aと略直交する方向及び該一側端部2aと隣接する両側の長辺側の他側端部2b,2bにそれぞれ開放されている。図8中の矢印A、C、Cは一側端部2aの開放方向を示している。これにより、複数枚のパネル本体2の他側端部2b,2b同士を互いに隣接して並列配置した状態(図7)では、各パネル本体2の配線用空間部8が一直線上に連続するようになっている。   Further, a wiring space 8 is formed at one side end 2a of the panel body 2 on the short side 2c side. The wiring space portion 8 is opened to the other side end portions 2b and 2b on the long side on both sides adjacent to the one side end portion 2a and in a direction substantially orthogonal to the one side end portion 2a. Arrows A, C, and C in FIG. 8 indicate the opening direction of the one side end 2a. Thereby, in the state (FIG. 7) where the other end portions 2b, 2b of the plurality of panel main bodies 2 are arranged adjacent to each other in parallel (see FIG. 7), the wiring space portions 8 of each panel main body 2 are arranged in a straight line. It has become.

上記配線用空間部8には外部電源供給用の渡り配線18,18a,18bが納められる。本例の配線用空間部8の中央部には、パネル本体2の内側に向けて凹むように収納凹所5が形成されている。この収納凹所5は、後述する中継器4Aを出し入れ可能に収納するものであり、中継器4Aを収納凹所5と配線用空間部8との間で引き出し自在となっている。   In the wiring space 8, transition wires 18, 18 a, 18 b for supplying external power are stored. A storage recess 5 is formed at the center of the wiring space 8 of this example so as to be recessed toward the inside of the panel body 2. The storage recess 5 stores a repeater 4A, which will be described later, so that the relay 4A can be inserted and removed, and the relay 4A can be pulled out between the storage recess 5 and the wiring space 8.

さらに上記配線用空間部8における収納凹所5とは別の部位、本例では収納凹所5を挟んでその両側に、パネル本体2の内側に向けて凹むように余剰配線収納部20(図3)が設けられており、配線用空間部8に沿って配線される渡り配線18(18a,18b)の余剰部分18cが収納可能とされている。   Further, in the wiring space portion 8, the surplus wiring storage portion 20 (see FIG. 5) is recessed toward the inside of the panel body 2 on both sides of the storage recess 5 in this example, with the storage recess 5 interposed therebetween. 3) is provided, and the surplus portion 18c of the transition wiring 18 (18a, 18b) wired along the wiring space 8 can be stored.

一方、パネル本体2に組み込まれる面状ヒータ3Aは、図8に示すように、パネル本体2の断熱材10bと表面板12との間に介挿されている。面状ヒータ3Aは例えばPTCヒータからなり、風のない輻射方式で室温上昇を抑えつつ、人や布団等を直接暖めることができ、無駄な熱ロスをなくして節電が図られるものであり、しかも空気を過乾燥させず、ハウスダストを巻き上げず、安全でクリーンな輻射暖房を実現できる。本例では、2枚の面状ヒータ3A,3Aを備え、各面状ヒータ3Aが図7に示すパネル本体2の側端部2a,2aに各々配置される電気的接続部4を構成する中継器4Aに電気的に接続されている。なお、面状ヒータ3Aの数は2つに限らず、1つの大面積の面状ヒータ3A(図9)、或いは3つ以上の小面積の面状ヒータであってもよい。これら面状ヒータ3Aは室内に設けた操作器(図示せず)によって運転制御される。   On the other hand, the planar heater 3A incorporated in the panel body 2 is interposed between the heat insulating material 10b of the panel body 2 and the surface plate 12, as shown in FIG. The planar heater 3A is made of, for example, a PTC heater, which can directly warm a person or a futon while suppressing an increase in room temperature by a windless radiation method, and can save power without wasting heat loss. Safe and clean radiant heating can be realized without overdrying the air and rolling up house dust. In this example, two sheet heaters 3A and 3A are provided, and each sheet heater 3A is a relay that constitutes an electrical connection section 4 that is disposed at each of the side ends 2a and 2a of the panel body 2 shown in FIG. It is electrically connected to the device 4A. The number of planar heaters 3A is not limited to two, but may be one large area planar heater 3A (FIG. 9), or three or more small area planar heaters. These planar heaters 3A are controlled for operation by an operating device (not shown) provided in the room.

また、上記基材9を構成する枠体19の側端部19aに設けた配線溝31(図2(b)(c))を介して、基材9の面状ヒータ3A等を収納する凹み部11(図8)と上記収納凹所5とが互いに連通しており、この配線溝31に沿って面状ヒータ3Aからの給電線17が通線され、給電線17の先端に設けたコネクタ14が上記収納凹所5内に収納された中継器4Aの後端の接続部に接続されている。この給電線17は中継器4Aの引き出し時に追随して引き出され、中継器4Aの押し込み時には無理なく押し込まれるようにしてある。   Further, a recess for storing the planar heater 3A and the like of the base material 9 through the wiring groove 31 (FIGS. 2B and 2C) provided in the side end portion 19a of the frame body 19 constituting the base material 9 is provided. The connector 11 provided at the tip of the power supply line 17 is communicated with the storage recess 5 and the power supply line 17 from the planar heater 3A is connected along the wiring groove 31. 14 is connected to a connecting portion at the rear end of the relay 4A housed in the housing recess 5. The feeder line 17 is pulled out when the repeater 4A is pulled out, and is pushed in without difficulty when the repeater 4A is pushed in.

なお、電源側に最も近い配置される一段目のパネル本体2の中継器4A(図2)の片面には、電源供給用の渡り配線18(図2(a))が結線される接続部が設けられ、他面には渡り配線18aの一方のコネクタ15が接続される接続部が設けられる。二段目以降の中継器4A(図3、図4)の両面には、上記渡り配線18aの他方のコネクタ16が接続される接続部と、別の渡り配線18bの一方のコネクタ15が接続される接続部とが設けられる。最終段の中継器4Aの片面には、上記渡り配線18bの他方のコネクタ15(図7)が接続される接続部が設けられる。   In addition, on one side of the repeater 4A (FIG. 2) of the first-stage panel body 2 arranged closest to the power supply side, there is a connection portion to which the power supply connecting wiring 18 (FIG. 2 (a)) is connected. Provided on the other surface is a connecting portion to which one connector 15 of the crossover wiring 18a is connected. The connecting portion to which the other connector 16 of the above-mentioned transition wiring 18a is connected and one connector 15 of another transition wiring 18b are connected to both surfaces of the second-stage and subsequent repeater 4A (FIGS. 3 and 4). Connecting portion. A connection portion to which the other connector 15 (FIG. 7) of the crossover wiring 18b is connected is provided on one surface of the final-stage repeater 4A.

ここで本発明においては、上記隣合うパネル本体2の電気的接続部4同士を順次接続する電源供給用の渡り配線18,18a,18bが、パネル本体2が取付面30から外れた際のパネル落下防止部材を兼用するものである。そのため渡り配線18,18a,18bは、パネル本体2の外れ時に内装パネル1全体の荷重に対して、千切れや断線が生じない程度の電線コード、例えばVVF電線が用いられる。   Here, in the present invention, the power supply crossover wires 18, 18 a, 18 b that sequentially connect the electrical connection portions 4 of the adjacent panel main bodies 2 are the panels when the panel main body 2 is detached from the mounting surface 30. It also serves as a fall prevention member. For this reason, the crossover wires 18, 18a, 18b are made of a wire cord, for example, a VVF wire, that does not break or break with respect to the load of the entire interior panel 1 when the panel body 2 is detached.

さらに本例では収納凹所5近傍には、図2(b)(c)に示すように、中継器4Aに接続される渡り配線18a(18b)のコネクタ15(16)の外郭形状に合わせたコネクタ嵌合凹部6が凹設されている。このコネクタ嵌合凹部6は、中継器4Aに対してコネクタ15(16)を確実に接続した場合のみ該コネクタ15(16)がコネクタ嵌合凹部6に嵌合可能とするための不完全接続防止手段を構成する。   Further, in this example, in the vicinity of the storage recess 5, as shown in FIGS. 2B and 2C, the outer shape of the connector 15 (16) of the crossover wiring 18a (18b) connected to the relay 4A is matched. A connector fitting recess 6 is provided. This connector fitting recess 6 prevents incomplete connection so that the connector 15 (16) can be fitted into the connector fitting recess 6 only when the connector 15 (16) is securely connected to the relay 4A. Configure the means.

次に、上記構成の内装パネル1を図5に示すように住宅の天井の一部の取付面30に取り付ける場合の施工手順の一例を説明する。   Next, an example of a construction procedure in the case where the interior panel 1 having the above configuration is attached to a part of the attachment surface 30 of the ceiling of the house as shown in FIG. 5 will be described.

先ず、図6(a)のように配線前の複数枚のパネル本体2を互いに隣接して並列配置した状態で取付面30上に固定ビスで固定する。その後、各パネル本体2の中継器4Aに対して室内側から配線作業を行なう。つまり図2(c)に示すように配線用空間部8を介して中継器4Aを収納凹所5から引き出した状態で、中継器4Aの片面の接続部に渡り配線18aのコネクタ15を接続する。なお中継器4Aの他面の接続部には例えば、図2(a)に示す渡り配線18、或いは、図3に示す渡り配線18bのコネクタ16のいずれか一方を接続する。その後、図2(b)に示すように、中継器4Aを収納凹所5内に押し込む。このとき中継器4Aに対する渡り配線18a(18b)の結線が不完全な場合には、図4に示すように、中継器4Aとコネクタ15(16)との間に隙間Gが発生してコネクタ15(16)がコネクタ嵌合凹部6に嵌まらなくなり、結果、矢印dの方向に押し戻せなくなるため、作業途中で接続不良を容易に確認できる。この要領で、各パネル本体2のそれぞれの中継器4Aに対して渡り配線18,18a,18bを順次接続していく(図7)。最後に、図6(b)(c)に示すように各パネル本体2の側端部2aに廻り縁となる端部カバー21を装着して、配線用空間部7を覆って作業を完了する。   First, as shown in FIG. 6A, a plurality of panel main bodies 2 before wiring are fixed on the mounting surface 30 with fixing screws in a state where they are arranged adjacent to each other in parallel. Thereafter, wiring work is performed from the indoor side to the repeater 4 </ b> A of each panel body 2. That is, as shown in FIG. 2C, the connector 15 of the wiring 18a is connected to the connecting portion on one side of the relay 4A in a state where the relay 4A is pulled out from the storage recess 5 through the wiring space 8. . Note that, for example, either the transition wiring 18 shown in FIG. 2A or the connector 16 of the transition wiring 18b shown in FIG. Thereafter, as shown in FIG. 2 (b), the relay 4 </ b> A is pushed into the storage recess 5. At this time, if the connection of the transition wiring 18a (18b) to the relay 4A is incomplete, a gap G is generated between the relay 4A and the connector 15 (16) as shown in FIG. Since (16) does not fit into the connector fitting recess 6 and consequently cannot be pushed back in the direction of the arrow d, a connection failure can be easily confirmed during the work. In this way, the connecting wires 18, 18a, 18b are sequentially connected to the respective relays 4A of the panel bodies 2 (FIG. 7). Finally, as shown in FIGS. 6B and 6C, the end cover 21 serving as a peripheral edge is attached to the side end 2a of each panel body 2, and the wiring space 7 is covered to complete the work. .

しかして、上記構成のパネル本体2を取付面30に取り付け施工した後に、パネル本体2の配線用空間部7に沿わせて、渡り配線18,18a,18bの接続ができ、室内側からの配線作業が容易にできるものである。従って、パネル本体2の施工工事と面状ヒータ3Aの電気配線工事とを分離でき、それぞれの工事を取合いに関係なく行なえるものとなる。   Thus, after the panel body 2 having the above configuration is mounted on the mounting surface 30, the connecting wires 18, 18 a, 18 b can be connected along the wiring space 7 of the panel body 2. Work can be done easily. Therefore, the construction work of the panel body 2 and the electric wiring work of the planar heater 3A can be separated, and each work can be performed regardless of the relationship.

ここにおいて、取付面30に対する複数枚の内装パネル1の施工途中で、図1(a)のように端部に位置するパネル本体2が万が一外れた場合、或いは、図1(b)のように中央に位置するパネル本体2が万が一外れた場合は、これらいずれの場合も、各建築用パネル1間にわたって直線上に連なる配線用空間部8に沿って渡り配線18,18a,18bが繋がっているため、これら渡り配線18,18a,18bが、電気機器3付き内装パネル1全体の荷重を支える形となり、内装パネル1が落下して作業者に当たったりする心配がない。従って、施工の安全性を確保しながら一人作業が可能となり、作業能率が向上する。勿論、施工時のみに限らず、施工後の地震等によっても渡り配線18,18a,18bによる落下防止効果によって安全性を長期に亘って維持できるものである。   Here, in the middle of the construction of the plurality of interior panels 1 on the mounting surface 30, the panel body 2 located at the end as shown in FIG. 1 (a) should come off, or as shown in FIG. 1 (b). In the case where the panel body 2 located in the center is removed, in any of these cases, the crossover wirings 18, 18a, 18b are connected along the wiring space portions 8 connected in a straight line between the building panels 1. Therefore, these crossover wirings 18, 18a, 18b are configured to support the load of the entire interior panel 1 with the electric equipment 3, and there is no fear that the interior panel 1 falls and hits an operator. Therefore, one person can work while ensuring the safety of construction, and the work efficiency is improved. Of course, the safety can be maintained for a long time not only by the construction but also by the fall prevention effect by the crossover wires 18, 18a, 18b not only by the earthquake after the construction.

また本例の配線用空間部8は3方向A、C、Cだけでなく正面方向B(図2(a))にも開放されているので、パネル本体2を取付面30に取り付けた状態では配線用空間部8は横方向のみならず下方向にも開放された状態となるため、熟練工でなくても下からの配線作業がよりスムーズにできるようになる。しかも各パネル本体2の対向する両側の側端部2aの各中継器4A同士を、渡り配線18,18a,18bで順次接続することによって、各パネル本体2の両端2箇所で、それぞれ、渡り配線18,18a,18bによるパネル落下防止効果が得られ、一層の安全化を図ることができる。   In addition, since the wiring space portion 8 in this example is opened not only in the three directions A, C, and C but also in the front direction B (FIG. 2A), the panel body 2 is attached to the attachment surface 30 in the state. Since the wiring space portion 8 is opened not only in the horizontal direction but also in the downward direction, wiring work from below can be performed more smoothly even if not a skilled worker. In addition, by connecting the respective repeaters 4A on the opposite side end portions 2a of each panel body 2 with the transition wires 18, 18a, 18b in sequence, the transition wires are respectively connected at the two ends of each panel body 2. The panel fall prevention effect by 18, 18a, 18b is obtained, and further safety can be achieved.

しかも各パネル本体2の短辺2c側に中継器4Aを配置することで、隣合う中継器4A相互間の距離H(図1)が短くなり、これに伴い、パネル本体2の外れ時に渡り配線18,18a,18bに対して加わる荷重が小さくなる。そのうえパネル本体2に内蔵される面状ヒータ3Aや断熱材10a,10b等は比較的軽量であるため、渡り配線18,18a,18bにかかる負担をより軽減化でき、施工の安全をより確保できる。さらに薄型形状によって意匠性が向上するうえに、天井等の取付面30に対して後付け可能となるので、内装パネル1の移設や増設にも容易に対処できる利点もある。   Moreover, by disposing the repeater 4A on the short side 2c side of each panel body 2, the distance H (FIG. 1) between the adjacent repeaters 4A is shortened. The load applied to 18, 18a, 18b is reduced. In addition, since the planar heater 3A and the heat insulating materials 10a, 10b and the like built in the panel body 2 are relatively light, the burden on the crossover wires 18, 18a, 18b can be further reduced, and construction safety can be further secured. . Further, the design is improved by the thin shape, and it can be retrofitted to the mounting surface 30 such as the ceiling, so that there is an advantage that the interior panel 1 can be easily transferred and expanded.

さらに本例の渡り配線18,18a,18bには、図3に示す余剰部分18cが存在しているため、余裕をもって中継器4Aに対して配線作業ができると共に、配線後は配線用空間部8の途中に設けた余剰配線収納部20に収納できるので、配線用空間部8の外部に余剰部分18cがはみ出すこともない。さらに配線後は廻り縁となる端部カバー21によって配線用空間部7を覆うことにより、中継器4A及び渡り配線18,18a,18bがそれぞれ外部に露出しなくなる。そのうえパネル本体2の表面板12の一部に配線作業を行なうための作業用開口部を設けたりする必要もないため、内装パネル1全体の見栄えが一層良好となる。   Further, since the surplus portion 18c shown in FIG. 3 exists in the transition wires 18, 18a, 18b of this example, wiring work can be performed on the repeater 4A with a margin, and after wiring, the wiring space 8 Therefore, the surplus portion 18 c does not protrude outside the wiring space 8. Further, after the wiring, the wiring space portion 7 is covered with the end cover 21 serving as a peripheral edge, so that the relay 4A and the crossover wires 18, 18a, 18b are not exposed to the outside. In addition, since it is not necessary to provide a working opening for performing wiring work on a part of the surface plate 12 of the panel body 2, the appearance of the interior panel 1 as a whole is further improved.

なお図7に示すパネル本体2の対向する両側での渡り配線構造に限定されず、例えば図9に示すような片側渡り配線構造であってもよい。   It should be noted that the present invention is not limited to the crossover wiring structure on both opposite sides of the panel body 2 shown in FIG. 7, and may be a single side crossover wiring structure as shown in FIG.

また前記実施形態では、内装パネル1を天井面の一部の取付面30に天井輻射暖房パネルとして取り付けた場合を説明したが、壁面の一部に取り付けて壁輻射暖房パネルとしての使用も可能である。   Moreover, although the said embodiment demonstrated the case where the interior panel 1 was attached as a ceiling radiant heating panel to the attachment surface 30 of a part of ceiling surface, it can be used as a wall radiant heating panel by attaching to a part of wall surface. is there.

さらに電気機器3として、パネル本体2内部に組み込まれる面状ヒータ3Aに限らず、パネル本体2の外部に露出して設けられる電気暖房器具であってもよく、さらには照明、音響の各種設備を備えるものであってもよい。   Furthermore, the electric device 3 is not limited to the planar heater 3A incorporated in the panel body 2, but may be an electric heater provided to be exposed to the outside of the panel body 2, and further, various lighting and sound facilities are provided. It may be provided.

1 内装パネル(建築用パネル)
2 パネル本体
2a 側端部
2b 長辺
2c 短辺
3 電気機器
4 電気的接続部
18 渡り配線
30 取付面
1 Interior panel (construction panel)
2 Panel body 2a Side end 2b Long side 2c Short side 3 Electrical equipment 4 Electrical connection 18 Crossover wiring 30 Mounting surface

Claims (2)

電気機器を組み込んだ建築用パネルを複数枚、隣接して天井又は壁に取り付ける建築用パネル取付構造であって、各建築用パネルの隣接方向と直交する一側端部に、各建築用パネルの隣接方向に沿って直線上に連なるように形成される配線用空間部をそれぞれ設けると共に、各配線用空間部に臨ませて上記電気機器に電気的に接続される電気的接続部をそれぞれ設け、上記配線用空間部に沿って配線される渡り配線を用いて隣合う電気的接続部同士を順次接続してなることを特徴とする建築用パネル取付構造。   A construction panel mounting structure in which a plurality of building panels incorporating electric devices are attached to the ceiling or wall adjacent to each other, and at one side end perpendicular to the adjacent direction of each building panel, Each of the wiring space portions formed so as to be continuous on a straight line along the adjacent direction is provided, and each of the electrical connection portions that are electrically connected to the electrical devices facing each wiring space portion is provided, A building panel mounting structure, wherein adjacent electrical connection portions are sequentially connected using a crossover wiring routed along the wiring space portion. 上記各建築用パネルは長方形状であり、各建築用パネルを長辺同士が互いに隣接するように隣接配置すると共に、各パネル本体の対向する両側の短辺にそれぞれ上記電気的接続部及び配線用空間部を設けてなることを特徴とする請求項1記載の建築用パネル取付構造。   Each building panel has a rectangular shape, and the building panels are arranged adjacent to each other so that the long sides are adjacent to each other, and the electrical connection portion and wiring are respectively provided on the short sides on both sides of each panel body. The construction panel mounting structure according to claim 1, further comprising a space portion.
JP2009023139A 2009-02-03 2009-02-03 Construction panel mounting structure Expired - Fee Related JP5193082B2 (en)

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Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH09144287A (en) * 1995-11-27 1997-06-03 Matsushita Electric Works Ltd Indoor wiring structure

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH09144287A (en) * 1995-11-27 1997-06-03 Matsushita Electric Works Ltd Indoor wiring structure

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