JP2020070651A - Connection structure of radiation panels - Google Patents

Connection structure of radiation panels Download PDF

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JP2020070651A
JP2020070651A JP2018206293A JP2018206293A JP2020070651A JP 2020070651 A JP2020070651 A JP 2020070651A JP 2018206293 A JP2018206293 A JP 2018206293A JP 2018206293 A JP2018206293 A JP 2018206293A JP 2020070651 A JP2020070651 A JP 2020070651A
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panel
projecting piece
overlapping portion
connection structure
radiation
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JP7214186B2 (en
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誠 前羽
Makoto Maehane
誠 前羽
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Sasakura Engineering Co Ltd
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Sasakura Engineering Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]

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  • Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)
  • Steam Or Hot-Water Central Heating Systems (AREA)

Abstract

To provide a connection structure of radiation panels that has a good appearance and that can be made at low cost.SOLUTION: A connection structure of radiation panels connects in parallel, via a frame material 5, a plurality of panel bodies 4, on one face of which, rows of a pipe 3a through which heat medium fluid passes, are disposed. On one face of a first overlapping portion 23a of one of the panel bodies 4, a second overlapping portion 23b of another one of the panel bodies 4 are disposed so as to overlap. The frame material 5 is disposed along a parallel direction on the one face of each panel body 4, to cause an engaging portion 26A to engage with a first protruding piece 15a and a second protruding piece 15b, to connect each panel body 4 so as to restrict a relative movement of each panel body 4 in directions for the first protruding piece 15a and the second protruding piece 15b to move closer to each other on the one face side of the first overlapping portion 23a.SELECTED DRAWING: Figure 3

Description

本発明は、放射パネルの連結構造に関し、より詳しくは、建物の天井に設けられて室内の冷房または暖房を行う放射パネルの連結構造に関する。   The present invention relates to a radiation panel connection structure, and more particularly, to a radiation panel connection structure provided on a ceiling of a building for cooling or heating a room.

室内の冷暖房を行うため、天井に放射パネルを施工することが従来から行われている。例えば、特許文献1には、並列に配置された複数枚のパネルの群の片面側に、流体が通るパイプと各パネルを連結するためのフレーム材とが配置された、冷暖房装置用の熱交換ユニットが開示されている。フレーム材は各パネルを横切る方向に延びており、フレーム材と各パネルとは、各パネルの幅方向両端で、フレーム材と各パネルとを互いに重なる方向に相対動させると弾性変形して嵌まり合う連結手段によって連結されている。   Conventionally, radiation panels have been installed on the ceiling in order to cool and heat the room. For example, in Patent Document 1, heat exchange for a heating and cooling device, in which a pipe through which a fluid flows and a frame material for connecting the panels are arranged on one side of a group of a plurality of panels arranged in parallel A unit is disclosed. The frame material extends in a direction that traverses each panel, and the frame material and each panel are elastically deformed and fitted when the frame material and each panel are relatively moved in the overlapping direction at both ends in the width direction of each panel. They are connected by matching connecting means.

より詳細には、連結手段は、各パネルに形成された爪片と、フレーム材に形成された係合部とを備えており、隣接するパネル間で、各爪片に連接された水平な重合部同士が互い重なり合った状態で、各爪片が係合部に係合するように構成されている。互いに重なり合う際に上側となる重合部には段差部が形成されており、下側の重合部の端面が段差部の内面に当接することで、各パネルの位置決めが行われる。   More specifically, the connecting means includes a claw piece formed on each panel and an engagement portion formed on the frame member, and a horizontal overlapping member connected to each claw piece is provided between adjacent panels. Each of the claw pieces is configured to engage with the engaging portion in a state where the portions overlap each other. A stepped portion is formed in the upper overlapping portion when they overlap each other, and each panel is positioned by contacting the inner surface of the stepped portion with the end surface of the lower overlapping portion.

特許第5306843号公報Japanese Patent No. 5306843

上記従来の連結手段は、連結施工時に重合部の端面と段差部との間に隙間が生じると、この隙間が下方に露出するために、体裁が悪くなるおそれがある。このため、段差部の形成に高い寸法精度が要求されると共に、施工作業に熟練を要していた。   When a gap is formed between the end face of the overlapped portion and the step portion during connection construction, the above-mentioned conventional connecting means may be exposed to the lower side, which may deteriorate the appearance. For this reason, high dimensional accuracy is required for forming the stepped portion, and skill is required for the construction work.

また、段差部を設けることで、この段差に相当する分だけ爪片の長さが長くなることから、多数のパネルを使用する場合には、材料費用が高くなるおそれがあった。   Further, by providing the step portion, the length of the claw piece is increased by an amount corresponding to the step, and therefore, when using a large number of panels, the material cost may be increased.

そこで、本発明は、低コストで美観が良好な放射パネルの連結構造の提供を目的とする。   Therefore, an object of the present invention is to provide a connection structure for a radiation panel that is low in cost and has a good appearance.

本発明の前記目的は、熱媒流体が通過するパイプが一方面に配置されるパネル本体を複数並列してフレーム材により連結する放射パネルの連結構造であって、前記各パネル本体は、並列方向両側にそれぞれ設けられた第1の重畳部および第2の重畳部と、前記第1の重畳部および第2の重畳部の一方面からそれぞれ突出する第1の突片および第2の突片とを備えており、一の前記パネル本体の前記第1の重畳部の一方面に、他の前記パネル本体の前記第2の重畳部が重なり合うように配置され、前記フレーム材は、前記第1の突片および第2の突片と係合する係合部が形成されており、前記各パネル本体の一方面側に並列方向に沿って配置されることにより、前記係合部が前記第1の突片および第2の突片と係合して前記各パネル本体が連結され、前記第1の突片および第2の突片が互いに接近する方向への前記各パネル本体の相対移動が、前記第1の重畳部の一方面側で規制されるように構成された放射パネルの連結構造により達成される。   The object of the present invention is a radiating panel connecting structure in which a plurality of panel main bodies in which a pipe through which a heat transfer fluid passes is arranged in parallel are connected to each other by a frame member. A first overlapping portion and a second overlapping portion which are respectively provided on both sides, and a first protrusion and a second protrusion protruding from one surface of the first overlapping portion and the second overlapping portion, respectively. Is disposed so that the second overlapping portion of the other panel body is overlapped with one surface of the first overlapping portion of the one panel body, and the frame member is formed of the first overlapping portion. Engaging portions that engage with the projecting pieces and the second projecting pieces are formed, and the engaging portions are arranged on the one surface side of each of the panel main bodies along the parallel direction, so that the engaging portions have the first part The panel bodies are connected by engaging with the projecting piece and the second projecting piece. Radiation configured such that relative movement of each panel main body in a direction in which the first projecting piece and the second projecting piece approach each other is restricted on one surface side of the first overlapping portion. This is achieved by the connecting structure of the panels.

前記放射パネルの連結構造は、前記第1の突片および第2の突片の間に介在されて間隔を保持する介在部が、前記第1の突片および第2の突片の少なくとも一方に設けられていることが好ましい。前記介在部は、前記第1の突片および第2の突片の突出方向に間隔をあけて複数設けられていることが、より好ましい。   In the connection structure of the radiation panel, an intervening portion which is interposed between the first projecting piece and the second projecting piece and holds a space is provided on at least one of the first projecting piece and the second projecting piece. It is preferably provided. It is more preferable that the plurality of intervening portions are provided at intervals in the projecting direction of the first projecting piece and the second projecting piece.

また、前記放射パネルの連結構造は、前記第1の重畳部の一方面から突出して前記第2の突片または前記第2の重畳部と係合する係合突起を備える構成にすることもできる。   In addition, the connection structure of the radiation panel may be configured to include an engagement protrusion that protrudes from one surface of the first overlapping portion and engages with the second projecting piece or the second overlapping portion. ..

本発明によれば、低コストで美観が良好な放射パネルの連結構造を提供することができる。   ADVANTAGE OF THE INVENTION According to this invention, the connection structure of the radiation panel with a favorable appearance can be provided at low cost.

(A)本発明の一実施形態に係る放射パネルの連結構造が設置された天井部を下方から見た概略斜視図、および、(B)放射パネルの連結構造の底面図である。(A) It is the schematic perspective view which looked at the ceiling part where the connection structure of the radiation panel concerning one embodiment of the present invention was installed from below, and (B) the bottom view of the connection structure of the radiation panel. 放射パネルの連結構造の平面図である。It is a top view of the connection structure of a radiation panel. 図2のIII−III視断面図である。FIG. 3 is a sectional view taken along line III-III in FIG. 2. 図3の要部拡大図である。It is a principal part enlarged view of FIG. 放射パネルの連結構造の設置方法を説明するための図である。It is a figure for demonstrating the installation method of the connection structure of a radiation panel. 放射パネルの連結構造の要部を分離した状態で示す断面図である。It is sectional drawing shown in the state which isolate | separated the principal part of the connection structure of a radiation panel. 放射パネルの連結構造の要部を分離した状態で示す斜視図である。It is a perspective view which shows the state which isolate | separated the principal part of the connection structure of a radiation panel. 放射パネルの連結構造の変形例の要部を拡大して示す断面図である。It is sectional drawing which expands and shows the principal part of the modified example of the connection structure of a radiation panel. 放射パネルの連結構造の他の変形例の要部を拡大して示す断面図である。It is sectional drawing which expands and shows the principal part of the other modification of the connection structure of a radiation panel.

以下、本発明の一実施形態について添付図面を参照して説明する。図1(A)は、本発明の一実施形態に係る放射パネルの連結構造が設置された天井部を下方から見た概略斜視図である。図1(A)に示すように、室の天井部には、複数の放射パネルを連結したパネル連結体1が、パネル連結体1の長手方向(A方向)に沿って列状に配置されて複数列を構成しており、パネル連結体1の各列の間に照明部2が設けられている。図1(B)に底面図で示すように、各パネル連結体1は、長手方向(A方向)と直交方向に並列配置された複数のパネル本体4を連結して構成されている。   An embodiment of the present invention will be described below with reference to the accompanying drawings. FIG. 1 (A) is a schematic perspective view of a ceiling portion on which a connecting structure for a radiation panel according to an embodiment of the present invention is installed, as viewed from below. As shown in FIG. 1 (A), panel connecting bodies 1 in which a plurality of radiation panels are connected are arranged in a row along the longitudinal direction (A direction) of the panel connecting body 1 on the ceiling of the room. A plurality of rows are configured, and the lighting unit 2 is provided between each row of the panel assembly 1. As shown in the bottom view of FIG. 1B, each panel connecting body 1 is configured by connecting a plurality of panel bodies 4 arranged in parallel in the direction orthogonal to the longitudinal direction (direction A).

図2は、放射パネルの連結構造の平面図である。図2に示すように、各パネル本体4は、アルミニウム等からなる素材を押出加工することにより形成された平面視矩形状の部材であり、複数が並列配置されて、フレーム材5により連結される。フレーム材5は、本実施形態においては各パネル本体4の長手方向の中央部を横断するように配置されており、一のパネル連結体1に対して1つのみ設けられているが、複数のフレーム材5を各パネル本体4の長手方向に間隔をあけて配置して、パネル連結体1を構成することもできる。   FIG. 2 is a plan view of the connection structure of the radiation panel. As shown in FIG. 2, each panel body 4 is a rectangular member in plan view formed by extruding a material made of aluminum or the like, and a plurality of the panel bodies 4 are arranged in parallel and connected by a frame member 5. .. In the present embodiment, the frame member 5 is arranged so as to traverse the central portion in the longitudinal direction of each panel body 4, and only one frame member 5 is provided for one panel connection body 1, but a plurality of frame members 5 are provided. It is also possible to form the panel connection body 1 by arranging the frame members 5 at intervals in the longitudinal direction of each panel body 4.

パネル本体4の上面である一方面には、パイプ3が配置される。パイプ3は、互いに平行延びる複数の直線部3aを備えており、本実施形態では、1つのパネル本体4に対して1つの直線部3aが配置される。各直線部3aは、隣接同士が端部で折り返して流路が蛇行するように、Uターン部3bにより連結される。連結されたパイプ3の両端部には、継手7を介して配管8が接続される。このように、熱媒流体が通過するパイプ3がパネル本体4の一方面に配置されて、各パネル本体4が連結されることで、放射パネルの連結構造が構成される。   The pipe 3 is arranged on one surface, which is the upper surface of the panel body 4. The pipe 3 includes a plurality of straight line portions 3a extending parallel to each other, and in the present embodiment, one straight line portion 3a is arranged for one panel body 4. The straight portions 3a are connected by the U-turn portions 3b so that the adjacent portions are folded back at the ends and the flow path meanders. Pipes 8 are connected to both ends of the connected pipes 3 via joints 7. In this way, the pipe 3 through which the heat transfer fluid passes is disposed on one surface of the panel body 4, and the panel bodies 4 are coupled to each other, thereby forming a radiation panel coupling structure.

図3は、図2のIII−III視断面図である。図3に示すように、パネル本体4の短手方向(B方向)の中央部には、パイプ3の直線部3aを収容するパイプ受け部13が形成されている。パイプ受け部13は、パネル本体4の平坦部分を断面半円状に陥没させて形成されている。本実施形態のパネル本体4は、パイプ受け部13と同様に断面半円状に形成された複数の湾曲部22,22’が、パイプ受け部13と平行にそれぞれ間隔をあけて配置されている。湾曲部22,22’は、美粧目的で形成された一種のダミーであり、下方から見たときにパイプ受け部13と共に縞模様となって、装飾性が付与される。   FIG. 3 is a sectional view taken along line III-III in FIG. As shown in FIG. 3, a pipe receiving portion 13 for accommodating the straight portion 3a of the pipe 3 is formed in the center of the panel body 4 in the lateral direction (B direction). The pipe receiving portion 13 is formed by recessing a flat portion of the panel body 4 in a semicircular cross section. In the panel body 4 of the present embodiment, a plurality of curved portions 22 and 22 ′ each having a semicircular cross section, like the pipe receiving portion 13, are arranged in parallel with the pipe receiving portion 13 at intervals. .. The curved portions 22 and 22 'are a kind of dummy formed for cosmetic purposes, and when viewed from below, they form a striped pattern together with the pipe receiving portion 13 to impart decorativeness.

パネル本体4の並列方向(図3のB方向)の両側には、互いに平行な平坦状の第1の重畳部23aおよび第2の重畳部23bがそれぞれ設けられている。第1の重畳部23aは、湾曲部22’を並列方向に沿った内方に折り返すように形成されている。一方、第2の重畳部23bは、湾曲部22から並列方向に沿った外方に張り出すように形成されている。   Flat parallel first overlapping portions 23a and second overlapping portions 23b are provided on both sides of the panel body 4 in the parallel direction (direction B in FIG. 3). The first overlapping portion 23a is formed so that the curved portion 22 'is folded back inward along the parallel direction. On the other hand, the second overlapping portion 23b is formed so as to project outward from the bending portion 22 along the parallel direction.

図4は、図3の要部拡大図である。図3および図4に示すように、第1の重畳部23aおよび第2の重畳部23bの端部には、それぞれの一方面から直交方向に突出する第1の突片15aおよび第2の突片15bが設けられている。第1の突片15aおよび第2の突片15bは、パイプ受け部13に沿って延びる帯板状に形成されており、それぞれの先端部に鉤部15a1,15b1を備えている。   FIG. 4 is an enlarged view of a main part of FIG. As shown in FIG. 3 and FIG. 4, at the end portions of the first overlapping portion 23a and the second overlapping portion 23b, the first protruding piece 15a and the second protruding portion 15a protruding in the orthogonal direction from one surface of each are formed. A piece 15b is provided. The first projecting piece 15a and the second projecting piece 15b are formed in the shape of a strip plate extending along the pipe receiving portion 13, and are provided with hook portions 15a1 and 15b1 at their tip ends.

並列配置された複数のパネル本体4は、一のパネル本体4の第1の重畳部23aの一方面に、隣接する他のパネル本体4の第2の重畳部23bが重なり合うように配置され、第1の突片15aおよび第2の突片15bは、間隔をあけて互いに平行に配置される。第2の突片15bの基端部には、第2の重畳部23bと反対側に突出する介在部12が、第2の重畳部23bの下面である他方面と面一になるように設けられている。介在部12は、第1の重畳部23aと第2の重畳部23bとが重なり合った状態で、先端が第1の突片15aに当接することにより、第1の突片15aと第2の突片15bとの間に介在され、第1の突片15aおよび第2の突片15bの間隔を保持する。   The plurality of panel bodies 4 arranged in parallel are arranged such that one surface of the first overlapping portion 23a of one panel body 4 is overlapped with the second overlapping portion 23b of another adjacent panel body 4, The first projecting piece 15a and the second projecting piece 15b are arranged in parallel with each other with a space therebetween. At the base end of the second projecting piece 15b, the interposition part 12 projecting to the opposite side of the second overlapping part 23b is provided so as to be flush with the other surface which is the lower surface of the second overlapping part 23b. Has been. In the interposition part 12, when the first overlapping part 23a and the second overlapping part 23b are overlapped with each other, the tip end contacts the first protruding part 15a, so that the first protruding part 15a and the second protruding part 15a It is interposed between the first projecting piece 15a and the second projecting piece 15b and is interposed between the first projecting piece 15a and the second projecting piece 15b.

図3および図4に示すように、フレーム材5は、例えば溝型鋼を使用することができ、断面コ字状の開口がパネル本体4を向くように配置される。各フレーム材5の開口を形成する一対の側板5a(図3および図4では一方の側板のみを示している)には、切欠状の係合部26Aが形成されている。係合部26Aは、フレーム材5の長手方向両側に段部26a,26aを有しており、各段部26a,26aに対して、第1の突片15aおよび第2の突片15bの鉤部15a1,15b1が、それぞれ係合する。係合部26Aは、並列方向のパネル本体4の幅に合わせて複数形成されている。フレーム材5の両端部には、切欠状の係合部26B,26Cがそれぞれ形成されており、第1の突片15aおよび第2の突片15bの一方のみが、係合部26B,26Cの段部26b,26cにそれぞれ係合する。   As shown in FIGS. 3 and 4, the frame member 5 can be, for example, channel steel, and is arranged so that the opening having a U-shaped cross section faces the panel body 4. A pair of side plates 5a (only one side plate is shown in FIGS. 3 and 4) forming an opening of each frame member 5 is formed with a notch-shaped engaging portion 26A. The engaging portion 26A has step portions 26a, 26a on both sides in the longitudinal direction of the frame member 5, and the hooks of the first projecting piece 15a and the second projecting piece 15b are hooked with respect to each step portion 26a, 26a. The parts 15a1 and 15b1 engage with each other. A plurality of engaging portions 26A are formed in accordance with the width of the panel body 4 in the parallel direction. Notch-shaped engaging portions 26B and 26C are formed at both ends of the frame member 5, respectively, and only one of the first projecting piece 15a and the second projecting piece 15b is provided with the engaging portions 26B and 26C. The step portions 26b and 26c are engaged with each other.

各係合部26Aの間には、パイプ受け部13に収容されたパイプ3を保持する切欠状の保持部30が形成されている。保持部30の中央には押圧部30aが形成されており、第1の突片15aおよび第2の突片15bが係合部26Aに係合した状態で、押圧部30aが直線部3aを押圧することにより、直線部3aが固定される。本実施形態においては、保持部30が直線部3aに直接接触して保持するように構成しているが、保持部材30が押さえ部材等を介して直線部3aを保持するように構成することも可能である。   A notch-shaped holding portion 30 that holds the pipe 3 accommodated in the pipe receiving portion 13 is formed between the engagement portions 26A. A pressing portion 30a is formed in the center of the holding portion 30, and the pressing portion 30a presses the linear portion 3a in a state where the first protruding piece 15a and the second protruding piece 15b are engaged with the engaging portion 26A. By doing so, the linear portion 3a is fixed. In the present embodiment, the holding portion 30 is configured to directly contact and hold the linear portion 3a, but the holding member 30 may be configured to hold the linear portion 3a via a pressing member or the like. It is possible.

フレーム材5の上部は、ねじ止めや溶接等により野縁18に固定される。野縁18の支持方法は特に限定されないが、例えば、図5(A)に示すように、H型鋼等からなる横梁19の水平部19aに野縁18の端部を載置して金具等により固定する方法や、図5(B)に示すように、天井スラブ(図示せず)から垂下した吊りボルト20で野縁18を吊支ずる方法を挙げることができる。フレーム材5は、必ずしも野縁18に固定する必要はなく、建物の天井における他の位置に固定してもよい。   The upper portion of the frame member 5 is fixed to the field edge 18 by screwing or welding. The method of supporting the field edge 18 is not particularly limited, but, for example, as shown in FIG. 5 (A), the end of the field edge 18 is placed on the horizontal portion 19a of the horizontal beam 19 made of H-shaped steel or the like by means of metal fittings or the like. There are a method of fixing and a method of suspending and supporting the field edge 18 with a hanging bolt 20 hanging from a ceiling slab (not shown) as shown in FIG. 5B. The frame member 5 does not necessarily have to be fixed to the field edge 18, but may be fixed to another position on the ceiling of the building.

上記の構成を備える放射パネルの連結構造は、図6に断面図で示すように、各パネル本体4のパイプ受け部13に直線部3aを収容した後、各パネル本体4を、図5の右側から順にフレーム材5に押し当てて、第1の突片15aおよび第2の突片15bをそれぞれ係合部26A,26Aに係合させる。これにより、フレーム材5に対して先に取り付けられたパネル本体4の第2の重畳部23bに、後から取り付けるパネル本体4の第1の重畳部23aが重なると共に、第1の突片15aと第2の突片15bの間に介在部12が介在される。放射パネルの連結構造の組立手順は、特に限定されるものではなく、例えば図7に斜視図で示すように、2つのパネル本体4,4の第1の重畳部23aおよび第2の重畳部23bを互いに重なり合わせた状態で、第1の突片15aおよび第2の突片15bを係合部26Aに同時に係合させるようにしてもよい。   As shown in the cross-sectional view of FIG. 6, the radiating panel connecting structure having the above-described structure is arranged such that after the linear portion 3a is housed in the pipe receiving portion 13 of each panel body 4, each panel body 4 is moved to the right side of FIG. From then on, the first projecting piece 15a and the second projecting piece 15b are engaged with the engaging portions 26A and 26A, respectively, by sequentially pressing them against the frame member 5. As a result, the first overlapping portion 23a of the panel body 4 to be attached later overlaps with the second overlapping portion 23b of the panel body 4 attached to the frame member 5 first, and the first protrusion 15a and The interposition part 12 is interposed between the second protrusions 15b. The procedure for assembling the connection structure of the radiation panels is not particularly limited, and for example, as shown in a perspective view in FIG. 7, the first overlapping portion 23a and the second overlapping portion 23b of the two panel bodies 4 and 4 are provided. The first projecting piece 15a and the second projecting piece 15b may be simultaneously engaged with the engaging portion 26A in a state where they are overlapped with each other.

本実施形態の放射パネルの連結構造は、第1の重畳部23aの一方面側(図3の上面側)において、介在部12が第1の突片15aと第2の突片15bとの間に介在されることにより、第1の突片15aおよび第2の突片15bが互いに接近する方向への各パネル本体4の相対移動が規制されるため、第1の重畳部23aの他方面側(図3の下面側)において、従来のように段差部の隙間等が生じるおそれがない。したがって、若干の寸法誤差や組立誤差が生じた場合でも各パネル本体4の間で美観を損ねることがなく、更には、段差部が不要になることで材料費を低減できることから、美観が良好な放射パネルの連結構造を低コストで構成することができる。   In the coupling structure of the radiation panel of the present embodiment, the interposition part 12 is provided between the first projecting piece 15a and the second projecting piece 15b on the one surface side (the upper surface side in FIG. 3) of the first overlapping part 23a. Since the relative movement of each panel main body 4 in the direction in which the first projecting piece 15a and the second projecting piece 15b approach each other is regulated by being interposed in the, the other surface side of the first overlapping portion 23a. On the (lower surface side in FIG. 3), there is no possibility of forming a gap or the like in the stepped portion as in the conventional case. Therefore, even if some dimensional error or assembly error occurs, the aesthetic appearance is not impaired between the panel main bodies 4, and the material cost can be reduced by eliminating the stepped portion, so that the aesthetic appearance is good. The connection structure of the radiation panel can be constructed at low cost.

介在部12は、第1の突片15aと第2の突片15bとの間に介在されて間隔を保持できるものであればよく、その配置は特に限定されるものではない。例えば、本実施形態の介在部12は、第2の突片15bの基端部に設けられているが、図8(a)に示すように、介在部12を第2の突片15bの突出方向中央部に設けてもよい。介在部12は、第2の突片15bに設ける代わりに、図8(b)に示すように第1の突片15aに設けてもよい。   The interposition part 12 is only required to be interposed between the first projecting piece 15a and the second projecting piece 15b so as to be able to maintain a space, and the arrangement thereof is not particularly limited. For example, the intervening portion 12 of the present embodiment is provided at the base end portion of the second projecting piece 15b, but as shown in FIG. 8A, the intervening portion 12 projects from the second projecting piece 15b. You may provide in the center part of a direction. The interposition part 12 may be provided on the first projecting piece 15a as shown in FIG. 8B instead of being provided on the second projecting piece 15b.

また、図8(c)に示すように、複数の介在部12−1,12−2を、第2の突片15bの突出方向に間隔をあけて設けることも可能であり、これによって、第1の突片15aおよび第2の突片15bの間隔の保持を、低コストで確実に行うことができる。各介在部12−1,12−2は、必ずしも第1の突片15aまたは第2の突片15bのいずれか一方のみに設ける必要はなく、図8(d)に示すように、一方の介在部12−1を第1の突片15aに設け、他方の介在部12−2を第2の突片15bに設けてもよい。   Further, as shown in FIG. 8C, it is possible to provide a plurality of intervening portions 12-1 and 12-2 at intervals in the projecting direction of the second projecting piece 15b. The distance between the first projecting piece 15a and the second projecting piece 15b can be reliably maintained at low cost. Each intervening part 12-1 and 12-2 does not necessarily have to be provided on only one of the first projecting piece 15a and the second projecting piece 15b, and as shown in FIG. The part 12-1 may be provided on the first projecting piece 15a and the other intervening part 12-2 may be provided on the second projecting piece 15b.

各パネル本体4の相対移動の規制は、室内側から見えないように、第1の重畳部23aの一方面側(図3の上面側)で行われる構成であればよく、その具体的な構成は上記の各実施形態に限定されるものではない。例えば、図9(a)に示すように、第1の重畳部23aの一方面に係合突起16を設けて、この係合突起16が第2の突片15bと係合する構成にすることができる。係合突起16は、図9(b)に示すように、第2の重畳部23bの他方面に凹部23b1を形成することで、第2の重畳部23bと係合する構成にすることもできる。図9(a)および(b)に示す構成は、図8(a)〜(d)に示す構成と適宜組み合わせてもよい。   The relative movement of each panel body 4 may be restricted so long as it is configured to be performed on one surface side (the upper surface side in FIG. 3) of the first overlapping portion 23a so as not to be seen from the indoor side. Is not limited to the above embodiments. For example, as shown in FIG. 9A, the engaging protrusion 16 is provided on one surface of the first overlapping portion 23a, and the engaging protrusion 16 engages with the second projecting piece 15b. You can As shown in FIG. 9B, the engagement protrusion 16 may be configured to engage with the second overlapping portion 23b by forming a recess 23b1 on the other surface of the second overlapping portion 23b. .. The configurations shown in FIGS. 9A and 9B may be combined with the configurations shown in FIGS. 8A to 8D as appropriate.

1 パネル連結体
4 パネル本体
5 フレーム材
12 介在部
15a 第1の突片
15b 第2の突片
16 係合突起
23a 第1の重畳部
23b 第2の重畳部
26A 係合部 DESCRIPTION OF SYMBOLS 1 Panel connection body 4 Panel main body 5 Frame material 12 Interposition part 15a 1st projection piece 15b 2nd projection piece 16 Engagement projection 23a 1st overlapping part 23b 2nd overlapping part 26A Engaging part

Claims (4)

熱媒流体が通過するパイプが一方面に配置されるパネル本体を複数並列してフレーム材により連結する放射パネルの連結構造であって、
前記各パネル本体は、並列方向両側にそれぞれ設けられた第1の重畳部および第2の重畳部と、前記第1の重畳部および第2の重畳部の一方面からそれぞれ突出する第1の突片および第2の突片とを備えており、一の前記パネル本体の前記第1の重畳部の一方面に、他の前記パネル本体の前記第2の重畳部が重なり合うように配置され、
前記フレーム材は、前記第1の突片および第2の突片と係合する係合部が形成されており、前記各パネル本体の一方面側に並列方向に沿って配置されることにより、前記係合部が前記第1の突片および第2の突片と係合して前記各パネル本体が連結され、
前記第1の突片および第2の突片が互いに接近する方向への前記各パネル本体の相対移動が、前記第1の重畳部の一方面側で規制されるように構成された放射パネルの連結構造。 A connecting structure for a radiation panel, in which a plurality of panel bodies in which a pipe through which a heat transfer fluid is passed are arranged in parallel are connected by a frame material,
Each of the panel bodies includes a first overlapping portion and a second overlapping portion that are provided on both sides in the parallel direction, and a first protrusion that protrudes from one surface of the first overlapping portion and the second overlapping portion. One piece of the first overlapping portion of the one panel body, and the second overlapping portion of the other panel body is arranged so as to overlap with each other,
The frame member is formed with an engaging portion that engages with the first projecting piece and the second projecting piece, and by being arranged on one surface side of each panel body along the parallel direction, The panel main body is connected by engaging the engaging portion with the first projecting piece and the second projecting piece,
A radiation panel configured such that relative movement of each panel body in a direction in which the first protrusion and the second protrusion approach each other is restricted on one side of the first overlapping portion. Connection structure. 前記第1の突片および第2の突片の間に介在されて間隔を保持する介在部が、前記第1の突片および第2の突片の少なくとも一方に設けられている請求項1に記載の放射パネルの連結構造。   The intervening portion which is interposed between the first projecting piece and the second projecting piece and holds a space is provided on at least one of the first projecting piece and the second projecting piece. Connection structure of the radiation panel described. 前記介在部は、前記第1の突片および第2の突片の突出方向に間隔をあけて複数設けられている請求項2に記載の放射パネルの連結構造。   The radiation panel connection structure according to claim 2, wherein a plurality of the intervening portions are provided at intervals in the projecting direction of the first projecting piece and the second projecting piece. 前記第1の重畳部の一方面から突出して前記第2の突片または前記第2の重畳部と係合する係合突起を備える請求項1から3のいずれかに記載の放射パネルの連結構造。   4. The connection structure for a radiation panel according to claim 1, further comprising an engagement protrusion that projects from one surface of the first overlapping portion and engages with the second projecting piece or the second overlapping portion. ..
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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2008275227A (en) * 2007-04-27 2008-11-13 Sasakura Engineering Co Ltd Mounting structure and method of ceiling radiation panel unit
JP5306843B2 (en) * 2009-02-06 2013-10-02 株式会社ササクラ Air conditioner and heat exchange unit used therefor
JP2015021645A (en) * 2013-07-17 2015-02-02 株式会社ササクラ Ceiling panel
JP2018155436A (en) * 2017-03-16 2018-10-04 株式会社ササクラ Air conditioning radiant panel

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2008275227A (en) * 2007-04-27 2008-11-13 Sasakura Engineering Co Ltd Mounting structure and method of ceiling radiation panel unit
JP5306843B2 (en) * 2009-02-06 2013-10-02 株式会社ササクラ Air conditioner and heat exchange unit used therefor
JP2015021645A (en) * 2013-07-17 2015-02-02 株式会社ササクラ Ceiling panel
JP2018155436A (en) * 2017-03-16 2018-10-04 株式会社ササクラ Air conditioning radiant panel

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