JP2014163168A - Aseismatic device - Google Patents

Aseismatic device Download PDF

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JP2014163168A
JP2014163168A JP2013036545A JP2013036545A JP2014163168A JP 2014163168 A JP2014163168 A JP 2014163168A JP 2013036545 A JP2013036545 A JP 2013036545A JP 2013036545 A JP2013036545 A JP 2013036545A JP 2014163168 A JP2014163168 A JP 2014163168A
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ceiling
fixed
partition
earthquake
floor surface
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JP6339765B2 (en
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Hiroshi Tsujimoto
浩 辻本
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Comany Inc
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Comany Inc
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Abstract

PROBLEM TO BE SOLVED: To provide an aseismatic device that is prevented from toppling over due to swinging caused by a big earthquake and that prevents a ceiling from falling, and a partition apparatus into which the aseismatic device is incorporated.SOLUTION: An upper end of a partition apparatus is fixed to a ceiling surface 3; a lower end thereof is fixed to a floor surface 2; a retainer member 8 fixed to the floor surface 2 and a retainer member 12 fixed to the ceiling surface 3 are connected together by a wire 15; and a distance between the floor surface 2 and the ceiling surface 3 is kept constant via the wire 15 even on the occurrence of an earthquake.

Description

本発明は地震による建物の吊り天井、及び壁の揺れを抑制し、特に縦揺れに対して天井と床との距離を一定に保って間仕切りの装置の転倒を防止し、また横揺れを抑えて天井の落下を防止することが出来る耐震装置、及び該耐震装置を組み込んだ間仕切り装置に関するものである。   The present invention suppresses shaking of the suspended ceiling and walls of a building due to an earthquake, and in particular, keeps the distance between the ceiling and the floor constant against vertical shaking to prevent the partition device from overturning, and to suppress rolling. The present invention relates to a seismic device capable of preventing a ceiling from falling and a partition device incorporating the seismic device.

建物の大きな空間を仕切る為に間仕切り装置が用いられている。間仕切り装置にも色々な形態が存在しているが、基本的な構造は、床面に敷設した床レールにアジャスターを配置し、このアジャスターによって支持された巾木の上に間仕切りパネルを起立し、間仕切りパネルの上端は天井に取付けた天井レール(天井部材)に拘束し、そして、各間仕切りパネル間に起立したスタッドと連結した構造としている。   Partitioning devices are used to partition large spaces in buildings. Various forms exist in the partitioning device, but the basic structure is that the adjuster is placed on the floor rail laid on the floor, and the partition panel is erected on the baseboard supported by this adjuster. The upper end of the partition panel is constrained by a ceiling rail (ceiling member) attached to the ceiling, and is connected to a stud standing between the partition panels.

図9は従来の一般的な間仕切り装置の縦断面を示す具体例である。同図に示すように、床面(イ)には床レール(ロ)が敷設され、この床レール(ロ)の所々に配置したアジャスター(ハ)、(ハ)・・の上に載って適度な高さに巾木(ニ)が支持されている。そして、該巾木(ニ)には間仕切りパネル(ホ)、(ホ)が載って据え付けられ、該間仕切りパネル(ホ)、(ホ)の上端は天井パネル(ヘ)に取付けた天井レール(ト)に嵌って拘束されている。   FIG. 9 is a specific example showing a longitudinal section of a conventional general partition device. As shown in the figure, floor rails (b) are laid on the floor surface (b), and are placed on the adjusters (c), (c),. A baseboard (d) is supported at a high height. Then, partition panels (e) and (e) are mounted on the baseboard (d), and the upper ends of the partition panels (e) and (e) are ceiling rails (toe) attached to the ceiling panel (f). ) And is restrained.

また、隣り合う間仕切りパネル・・・の間にはスタッドが起立して間仕切りパネル(ホ)、(ホ)と連結し、しかも間仕切りパネル(ホ)、(ホ)は間に空間を設けて2枚が対を成して配置されている。ところで、天井レール(ト)が取付けられる天井は「つり天井」を構成しており、天井裏のコンクリート部に金属製のボルトを装着し、ハンガー、野縁受け、クリップ、野縁などを組み合せて格子状の骨組みを作り、該骨組みの下面に天井パネルを取付けた構造としている。   In addition, a stud stands between adjacent partition panels ... and is connected to the partition panels (e) and (e), and the partition panels (e) and (e) are provided with a space between them. Are arranged in pairs. By the way, the ceiling to which the ceiling rail (g) is attached constitutes a "suspended ceiling", and metal bolts are attached to the concrete part behind the ceiling, and hangers, field guards, clips, field edges, etc. are combined. A lattice-shaped frame is made, and a ceiling panel is attached to the lower surface of the frame.

そこで、地震が発生した場合には上記「つり天井」はブランコのように揺れ動き、各部材には不規則な力がかかって変形し、端部が建物の壁面に衝突して時には落下する場合もある。また、間仕切りパネル(ホ)、(ホ)・・・は上端が天井レール(ト)に嵌められており、天井レール(ト)に取付けられたパネルガイド(チ)によって支えられているが、地震の力によりパネル上端が天井レール(ト)から外れる場合もある。従って、天井が落下すれば、必然的に間仕切り装置は転倒してしまう。   Therefore, in the event of an earthquake, the "suspended ceiling" will swing like a swing, and each member will be deformed by an irregular force, and the edge may collide with the wall of the building and sometimes fall. is there. In addition, the partition panels (e), (e) ... are fitted on the ceiling rail (g) and supported by panel guides (h) attached to the ceiling rail (g). In some cases, the upper end of the panel may come off from the ceiling rail (g) due to the force of. Therefore, if the ceiling falls, the partition device inevitably falls.

特開平9−256521号に係る「パーティション」は、地震の際にも倒れることがなく耐震性を備えている。そこで、天井と床の対向位置に笠木と巾木がそれぞれ固定され、笠木に対して押し上げた後、巾木に落とし込むことにより、前後に対向するパネルの上下端を係合するとともにこれらのパネルを連結したパーティションであり、パネルが巾木上から脱落するにいたるパネルの上方移動および前後移動のいずれかの動作を防止するパネル脱落防止具を設けている。
パネルの前後移動を阻止するパネル脱落防止具を設けることにより、地震によりパネルが上方へ移動してパネルの下端と巾木の係合状態が解除しても、パネルは前後移動しないので巾木上から脱落することはない。また、パネルを上方移動を阻止するパネル脱落防止具によっても、パネルの脱落を防止することができる。
The “partition” according to Japanese Patent Laid-Open No. 9-256521 has earthquake resistance without falling down even in the event of an earthquake. Therefore, the headboard and the baseboard are respectively fixed at the opposing positions of the ceiling and the floor, and after pushing up against the headboard, dropping into the baseboard, the upper and lower ends of the panels facing each other are engaged and the panels are The connected partition is provided with a panel drop prevention tool for preventing any of the upward movement and back and forth movement of the panel as the panel falls off the baseboard.
By providing a panel drop-off prevention device that prevents the panel from moving back and forth, the panel will not move back and forth even if the panel moves upward due to an earthquake and the bottom edge of the panel and the baseboard are disengaged. Will not fall off. In addition, the panel can be prevented from falling off by a panel drop-out preventing tool that prevents the panel from moving upward.

このパーティションは地震によるパネルの脱落防止を図った構造としているだけで、天井の揺れ防止、また天井の落下防止を図ることは出来ない。従って、地震による揺れが大きくなれば、天井が落下することで上端の支えが無くなりパネルは転倒する虞がある。
特開平9−256521号に係る「パーティション」
This partition is only designed to prevent the panel from falling off due to an earthquake, and cannot prevent the ceiling from shaking or falling. Therefore, if the shaking due to the earthquake becomes large, the ceiling falls and the upper end support is lost, and the panel may fall down.
"Partition" according to JP-A-9-256521

このように従来の間仕切り装置は地震の揺れに対して転倒する虞がある。上記特開平9−256521号に係る「パーティション」であっても、揺れが大きくなって天井が崩壊すればパネルの転倒を避けることは出来ない。本発明が解決しようとする課題はこの問題点であり、地震時の天井、床、壁の揺れを抑制することが出来る耐震装置を提供する。特に、大きな地震が発生しても天井の落下を防止し、転倒を防止することが出来る耐震装置を組み込んだ間仕切り装置を提供する。   Thus, the conventional partition device may fall over due to the shaking of the earthquake. Even with the “partition” according to the above-mentioned Japanese Patent Application Laid-Open No. 9-256521, if the shaking becomes large and the ceiling collapses, it is impossible to avoid the panel from falling. The problem to be solved by the present invention is this problem, and provides an earthquake-resistant device capable of suppressing shaking of the ceiling, floor, and wall during an earthquake. In particular, the present invention provides a partition device that incorporates an earthquake-resistant device that can prevent a ceiling from falling even if a large earthquake occurs and prevent the vehicle from falling.

本発明に係る耐震装置は床と天井を連結し、この耐震装置によって床と天井間距離を一定に保つことが出来る構造としている。また、該耐震装置によって床と天井の相対的横揺れを防止する。この耐震装置を取付ける箇所は特に限定するものではないが、一般的には建物空間を仕切る間仕切り装置の内部に組み込む場合、また間仕切り装置に対面して配置する場合、さらには部屋空間に設置した何らかの部材と組み合わせた構造とする場合などがある。   The seismic device according to the present invention has a structure in which the floor and the ceiling are connected and the distance between the floor and the ceiling can be kept constant by the seismic device. Further, the seismic device prevents the relative roll of the floor and the ceiling. The location where this seismic device is installed is not particularly limited, but in general, when it is incorporated inside the partition device that partitions the building space, when it is placed facing the partition device, and further, it is installed in the room space. In some cases, the structure is combined with a member.

ここで、耐震装置の具体的な構造は特に限定しないが、床面と天井面を連結する為の連結手段となる連結具を有し、連結具の下端は受け部材などを介して床面に連結・固定され、連結具の上端は受け部材などを介して天井パネルに連結・固定することが出来る。すなわち、天井パネルは耐震装置の連結具を介して床面と連結し、その為に、床面と天井パネル間距離が拡大することはない。また、天井パネルの横移動も抑制される。また、耐震装置を間仕切り装置に組み込む場合であれば、対を成す間仕切りパネルの間に形成される空間に連結具を取付け、又はスタッドの内部空間に連結具を設けることが出来る。さらに、スタッド自体を連結具として兼用することも可能である。   Here, the specific structure of the earthquake-resistant device is not particularly limited, but has a connecting tool as a connecting means for connecting the floor surface and the ceiling surface, and the lower end of the connecting tool is connected to the floor surface via a receiving member or the like. It is connected and fixed, and the upper end of the connecting tool can be connected and fixed to the ceiling panel via a receiving member or the like. In other words, the ceiling panel is connected to the floor surface via the connecting device of the earthquake-resistant device, and therefore the distance between the floor surface and the ceiling panel is not increased. Further, the lateral movement of the ceiling panel is also suppressed. Further, if the seismic device is incorporated in the partition device, the connector can be attached to the space formed between the paired partition panels, or the connector can be provided in the internal space of the stud. Furthermore, the stud itself can also be used as a connector.

本発明の耐震装置は連結具を介して天井パネルが床面と連結している。従って、床面と天井間距離は一定に保たれる為に、地震の揺れに伴って天井のみが上昇することはなく、その為に、間仕切りパネル上端が天井部材から外れて間仕切り装置が転倒するといった事故は起きず、少なくとも抑制することが出来る。本発明の耐震装置を間仕切り装置に組み込むことで地震に強い間仕切り装置が構成出来る。   In the earthquake-resistant device of the present invention, the ceiling panel is connected to the floor surface via a connector. Therefore, since the distance between the floor and the ceiling is kept constant, only the ceiling does not rise with the shaking of the earthquake, and for this reason, the partition panel upper end is detached from the ceiling member and the partition device falls. Such an accident does not occur and can be suppressed at least. A partition device that is resistant to earthquakes can be constructed by incorporating the seismic device of the present invention into the partition device.

また、地震の横揺れに伴う天井の横揺れが防止される。すなわち、床面と天井パネルは耐震装置の連結具を介して連結されている為に、該天井パネルが床面に対して平行に横移動しようとすれば床面と天井パネルを連結する連結具には大きな張力が作用し、天井パネルの横揺れを阻止する力が働くことになる。従って、横揺れに伴う天井の落下が防止される。   In addition, the rolling of the ceiling due to the rolling of the earthquake is prevented. That is, since the floor surface and the ceiling panel are connected via a connecting device of the seismic device, the connecting device that connects the floor surface and the ceiling panel if the ceiling panel attempts to move laterally parallel to the floor surface. A large tension acts on the door, and a force that prevents the rolling of the ceiling panel acts. Therefore, the fall of the ceiling accompanying rolling is prevented.

本発明に係る耐震装置の概略図。1 is a schematic view of a seismic device according to the present invention. 本発明に係る耐震装置を組み込んだ間仕切り装置の正面図。The front view of the partition apparatus incorporating the earthquake-resistant apparatus which concerns on this invention. 本発明に係る耐震装置を組み込んだ間仕切り装置を示す実施例の縦断面図。The longitudinal cross-sectional view of the Example which shows the partition apparatus incorporating the earthquake-resistant apparatus which concerns on this invention. 本発明に係る耐震装置を組み込んだ間仕切り装置を示す他の実施例の縦断面図。The longitudinal cross-sectional view of the other Example which shows the partition apparatus incorporating the earthquake-resistant apparatus which concerns on this invention. 本発明に係る耐震装置を組み込んだ間仕切り装置を示す別実施例の縦断面図。The longitudinal cross-sectional view of another Example which shows the partition apparatus incorporating the earthquake-resistant apparatus which concerns on this invention. 本発明に係る耐震装置を組み込んだ図4に示す間仕切り装置の正面図。The front view of the partition apparatus shown in FIG. 4 incorporating the earthquake-resistant apparatus which concerns on this invention. 本発明に係る耐震装置を組み込んだ間仕切り装置を示す更なる別実施例の縦断面図。The longitudinal cross-sectional view of the further another Example which shows the partition apparatus incorporating the earthquake-resistant apparatus which concerns on this invention. 本発明に係る耐震装置を組み込んだ図6に示す間仕切り装置の正面図。The front view of the partition apparatus shown in FIG. 6 incorporating the earthquake-resistant apparatus which concerns on this invention. 従来の間仕切り装置を示す縦断面図。The longitudinal cross-sectional view which shows the conventional partition device.

図1は本発明に係る耐震装置Aを示す概略図である。同図に示すように、耐震装置は部屋の床面2と天井面3を互いに連結し、床面2のB点には耐震装置Aの下端が連結固定され、天井面3のC点には耐震装置Aの上端が連結固定されている。ここで、耐震装置Aの具体的な構造は限定せず、棒状の剛体で構成する連結具を有する場合、可撓性のあるワイヤーで構成する連結具を有す場合などがあり、可撓性のワイヤーを使用する場合には緩まないように初期張力が付勢される。   FIG. 1 is a schematic view showing a seismic apparatus A according to the present invention. As shown in the figure, the seismic device connects the floor surface 2 and the ceiling surface 3 of the room to each other, the lower end of the seismic device A is connected and fixed to point B on the floor surface 2, and the point C on the ceiling surface 3 is connected to point C. The upper end of the earthquake-resistant device A is connected and fixed. Here, the specific structure of the seismic resistance device A is not limited, and may include a connector composed of a rod-like rigid body, or may include a connector composed of a flexible wire. When using this wire, the initial tension is applied so as not to loosen.

床面2と天井面3との間に耐震装置が介在することで、地震による縦揺れによって床面2と天井面3との距離が拡大することはない。また、図1(b)に示すように、地震の横揺れが発生した場合に、床面2に対して天井面3が平行状態で横移動することも出来ない。すなわち、天井面3と耐震装置Aの上端固定点がC点からD点へ移動することが阻止される。   Since the earthquake-resistant device is interposed between the floor surface 2 and the ceiling surface 3, the distance between the floor surface 2 and the ceiling surface 3 is not increased due to the pitching caused by the earthquake. In addition, as shown in FIG. 1B, when an earthquake roll occurs, the ceiling surface 3 cannot be moved laterally in parallel with the floor surface 2. That is, the ceiling surface 3 and the upper end fixing point of the seismic device A are prevented from moving from the C point to the D point.

ところで、本発明に係る耐震装置Aを部屋の適当な箇所に設置することでその効果を得ることは出来るが、実際には、部屋に設置した場合に邪魔にならないこと、また部屋の外観が損なわれないことが重要となる。そこで、一般的には建物の空間を仕切る為に設置される間仕切り装置に耐震装置Aを組込むことが便利であり、外観的にも好ましい。   By the way, although the effect can be obtained by installing the seismic device A according to the present invention at an appropriate location in the room, in practice, it is not disturbed when installed in the room, and the appearance of the room is damaged. It is important not to Therefore, in general, it is convenient to incorporate the earthquake-resistant device A into a partitioning device installed to partition a building space, which is also preferable in terms of appearance.

図2は本発明に係る耐震装置Aを組み込んだ間仕切り装置を表している正面図である。同図の1は間仕切りパネル、2は床面、3は天井面、4は床レール、5は巾木、6はスタッド、7は天井部材をそれぞれ表わしている。正面からの外観は従来の間仕切り装置と同じであるが、本発明では、床面2と天井面3との間の空間を間仕切りパネルを据え付けて仕切っただけでなく、床面2と天井面3は互いに連結されている。   FIG. 2 is a front view showing a partition device incorporating the seismic resistance device A according to the present invention. In the figure, 1 represents a partition panel, 2 represents a floor surface, 3 represents a ceiling surface, 4 represents a floor rail, 5 represents a baseboard, 6 represents a stud, and 7 represents a ceiling member. Although the appearance from the front is the same as that of the conventional partition device, in the present invention, not only the space between the floor surface 2 and the ceiling surface 3 is partitioned by installing a partition panel, but also the floor surface 2 and the ceiling surface 3. Are connected to each other.

図3は耐震装置Aを組み込んだ間仕切り装置の縦断面を示す実施例である。床面2には床レール4が敷設され、この床レール4の所々にはアジャスター(図示なし)が配置され、該アジャスターには巾木5が適度な高さに調整して載置され、そして巾木5は床レール4を被覆してその上には間仕切りパネル1,1が所定の間隔をおき、対を成して起立している。天井面3にはコ形断面の天井部材7が下側を開口して取付けられ、上記間仕切りパネル1,1の上端はこの天井部材7に嵌っている。   FIG. 3 is an embodiment showing a longitudinal section of a partition device incorporating the earthquake-resistant device A. Floor rails 4 are laid on the floor 2, and adjusters (not shown) are arranged on the floor rails 4, and baseboards 5 are adjusted to an appropriate height and placed on the adjusters. The baseboard 5 covers the floor rail 4, and the partition panels 1, 1 stand at predetermined intervals on the floor rail 4. A ceiling member 7 having a U-shaped cross section is attached to the ceiling surface 3 with the lower side opened, and the upper ends of the partition panels 1 and 1 are fitted into the ceiling member 7.

床面2には受け部材8が上記床レール4と共に固定され、この受け部材8にはネジ部9が起立し、そして該ネジ部9にはナット10が螺合して連結している。一方、天井パネル11の天井面3にも受け部材12が上記天井部材7と共にネジ止めされ、該受け部材12からはネジ部13が下方へ延び、このネジ部13にはナット14が螺合して互いに連結している。これら床側のナット10と天井側ナット14はワイヤー15にて繋がれている。   A receiving member 8 is fixed together with the floor rail 4 to the floor surface 2, and a screw portion 9 stands up on the receiving member 8, and a nut 10 is screwed and connected to the screw portion 9. On the other hand, a receiving member 12 is screwed to the ceiling surface 3 of the ceiling panel 11 together with the ceiling member 7, and a screw portion 13 extends downward from the receiving member 12, and a nut 14 is screwed into the screw portion 13. Connected to each other. The floor side nut 10 and the ceiling side nut 14 are connected by a wire 15.

すなわち、連結具はワイヤー15の両端にナット10,14を連結して構成し、この連結具を介して床面2に固定した受け部材8のネジ部9と天井面3に固定した受け部材12のネジ部13と連結した構造としている。両ナット10、14を締めることで、該ワイヤー15は弛むことなく所定の張力が付勢される。従って、天井面3と床面2との距離は一定に保たれ、また、該距離を一定の保った状態での横移動も阻止される。   That is, the connecting tool is configured by connecting the nuts 10 and 14 to both ends of the wire 15, and the receiving member 12 fixed to the ceiling surface 3 and the screw portion 9 of the receiving member 8 fixed to the floor surface 2 through the connecting tool. The screw part 13 is connected. By tightening the nuts 10 and 14, the wire 15 is biased to a predetermined tension without slackening. Therefore, the distance between the ceiling surface 3 and the floor surface 2 is kept constant, and lateral movement with the distance kept constant is also prevented.

ところで、同図に示す耐震装置の連結具は床面2と天井面3を連結する為の1手段に過ぎず、他の構造とすることも可能である。例えば、垂直に起立しているスタッドを利用し、その上端に何らかの金具を設けて天井面3と連結し、下端にも金具を設けて巾木5を貫通し、床面2と連結することも可能である。   By the way, the connecting device of the seismic apparatus shown in the figure is only one means for connecting the floor surface 2 and the ceiling surface 3, and other structures can be used. For example, it is possible to use a vertically standing stud, provide some metal fitting at the upper end and connect to the ceiling surface 3, provide a metal fitting also at the lower end, penetrate the baseboard 5, and connect to the floor surface 2. Is possible.

図4は本発明の耐震装置Aを組み込んだ間仕切り装置の断面を示す他の実施例であり、前記図3に示した場合とその構造はほぼ同じであるが、受け部材8,12の取着構造が違っている。図4に示す受け部材8は床パネル16の下側に配置し、受け部材8から起立するネジ部9が該床パネル16に設けた穴を貫通して床面2から突出している。そして、この突出したネジ部9にナット10が螺合した構造としている。これに対して、前記図3に示した受け部材8はネジを床面2に螺合することで固定している。   FIG. 4 is another embodiment showing a cross-section of a partition device incorporating the seismic resistance device A of the present invention. The structure is substantially the same as that shown in FIG. 3, but the receiving members 8 and 12 are attached. The structure is different. The receiving member 8 shown in FIG. 4 is disposed on the lower side of the floor panel 16, and a screw portion 9 rising from the receiving member 8 passes through a hole provided in the floor panel 16 and protrudes from the floor surface 2. And it is set as the structure where the nut 10 was screwed by this protruding thread part 9. As shown in FIG. On the other hand, the receiving member 8 shown in FIG. 3 is fixed by screwing the screw into the floor surface 2.

また、図4に示す間仕切り装置では、天井側の受け部材12は天井パネル11の上側に配置され、該受け部材12のネジ部13は分割された天井パネル11と天井部材7をそれぞれネジ止めして下方へ延びている。そして、このネジ部13にナット14が螺合して連結した構造と成っている。ここで、天井パネル11の上側に配置した受け部材12該天井パネル11をネジ止めしたネジは、同じネジを用いて天井部材7も固定している。 Moreover, in the partition apparatus shown in FIG. 4, the receiving member 12 on the ceiling side is disposed on the upper side of the ceiling panel 11, and the screw portion 13 of the receiving member 12 screws the divided ceiling panel 11 and ceiling member 7 respectively. Extending downward. And it has the structure which the nut 14 screwed together and connected with this thread part 13. FIG. Here, a set screw receiving member 12 and the ceiling panel 11 which is disposed above the screw of the ceiling panel 11, the ceiling member 7 using the same screws are also fixed.

図5は本発明の耐震装置Aを組み込んだ間仕切り装置の断面を示す別の実施例である。前記図3に示した連結具は間仕切り装置の両間仕切りパネル1,1の間に設けた構造と成っているが、図5の連結具はスタッドの空間を利用して配置した構造である。スタッド6は隣り合う間仕切りパネル1,1の間に起立しているが、該スタッド6は鋼板などを材質とした一定断面の成形品であり、長手方向には貫通した内部空間を形成している。この内部空間に連結具と成るワイヤー15、及びナット10,14が収容され、ネジ部9、13に螺合した構造としている。   FIG. 5 is another embodiment showing a cross section of a partition device incorporating the seismic device A of the present invention. The connector shown in FIG. 3 has a structure provided between the partition panels 1 and 1 of the partition device, but the connector shown in FIG. 5 has a structure in which the space of the stud is used. The stud 6 stands between the adjacent partition panels 1 and 1, and the stud 6 is a molded product having a constant cross section made of a steel plate or the like, and forms an internal space penetrating in the longitudinal direction. . In this internal space, a wire 15 serving as a connecting tool and nuts 10 and 14 are accommodated and screwed into the screw portions 9 and 13.

図6は前記図5の正面図を示した場合であるが、スタッド6はアジャスター17にて支持された巾木5に載って垂直に起立している。ここで、スタッド6,6・・・は隣り合う間仕切りパネル1,1・・・の間に介在するが、必ずしも全てのスタッド6,6・・・の内部空間に連結具を設けなくてもよい。   FIG. 6 is a case where the front view of FIG. 5 is shown, but the stud 6 is erected vertically on the baseboard 5 supported by the adjuster 17. Here, the studs 6, 6... Are interposed between the adjacent partition panels 1, 1..., But it is not always necessary to provide a connection tool in the internal space of all the studs 6, 6. .

図7、図8は連結具としてスタッドを利用し縦断面と正面図を示し、スタッド6の上端を天井面3と連結し、スタッド6の下端を床面2と連結した構造と成っている。天井面3には上止め金具18が天井部材7と共にネジ止めされ、この上止め金具18はスタット6の内部空間に嵌っている。そして、該上止め金具18は該スタッド6にネジ止めされて連結している。 7 and 8 show a longitudinal section and a front view using a stud as a connection tool, and the upper end of the stud 6 is connected to the ceiling surface 3 and the lower end of the stud 6 is connected to the floor 2. . An upper stopper 18 is screwed to the ceiling surface 3 together with the ceiling member 7, and the upper stopper 18 is fitted in the internal space of the stat 6. The upper stopper 18 is screwed to and connected to the stud 6.

一方、スタッド6の下端はL型金具19,19を介して巾木5と共にアジャスター受け20にネジ止めされている。従来の間仕切り装置の場合、巾木5はアジャスター17の上に載置されるだけで、その為に上方への力が作用すると浮き上がってしまうことから、本発明では該巾木5がアジャスター受け20に連結すると共に、アジャスター17を床面2にネジ止めしている。従って、該アジャスター17が浮上することはなく、該アジャスター17に載置された巾木5はアジャスター受け20とネジ止めされることで、スタッド6の下端は床面2と連結した構造と成っている。   On the other hand, the lower end of the stud 6 is screwed to the adjuster receiver 20 together with the baseboard 5 via L-shaped metal fittings 19 and 19. In the case of the conventional partitioning device, the baseboard 5 is merely placed on the adjuster 17 and is lifted when an upward force is applied. Therefore, in the present invention, the baseboard 5 is adjusted to the adjuster receiver 20. And the adjuster 17 is screwed to the floor surface 2. Therefore, the adjuster 17 does not float, and the base 5 placed on the adjuster 17 is screwed to the adjuster receiver 20 so that the lower end of the stud 6 is connected to the floor 2. Yes.

前記図2〜図8は耐震装置Aを間仕切り装置に組み込んだ実施例を示している。
その為に、外観上は内部に耐震装置Aが組み込まれていることは分からず、外観的には好ましい間仕切り装置と成る。しかし、既存の間仕切り装置にも耐震装置Aを設けたい場合には、該間仕切り装置の正面又は背面に付設することが出来、外から見えないように適当なカバーにて被覆することが出来る。従って、内部に組み込むより簡単に設置することも可能となる。
2 to 8 show an embodiment in which the seismic device A is incorporated in a partition device.
For this reason, it is not apparent from the exterior that the earthquake-resistant device A is incorporated therein, and the partition device is preferable in terms of appearance. However, when the seismic device A is also provided in the existing partition device, it can be attached to the front or back of the partition device and can be covered with a suitable cover so that it cannot be seen from the outside. Therefore, it can be installed more easily than being incorporated inside.

A 耐震装置
B 耐震装置の下端が床面に連結固定される点
C 耐震装置の上端が天井面に連結固定される点
D する場合に耐震装置天井面が横揺れの上端が移動する点
1 間仕切りパネル
2 床面
3 天井面
4 床レール
5 巾木
6 スタッド
7 天井部材
8 受け部材
9 ネジ部
10 ナット
11 天井パネル
12 受け部材
13 ネジ部
14 ナット
15 ワイヤー
16 床パネル
17 アジャスター
18 上止め金具
19 L型金具
20 アジャスター受け
A Aseismic device B A point where the bottom end of the seismic device is connected and fixed to the floor C A point where the top end of the seismic device is connected and fixed to the ceiling D A point where the top surface of the seismic device moves horizontally Panel 2 Floor surface 3 Ceiling surface 4 Floor rail 5 Skirting board 6 Stud 7 Ceiling member 8 Receiving member 9 Screw part
10 nuts
11 Ceiling panel
12 Receiving member
13 Screw part
14 Nut
15 wire
16 Floor panel
17 Adjuster
18 Top stopper
19 L-shaped bracket
20 Adjuster receiver

本発明は地震による建物の吊り天井、及び壁の揺れを抑制し、特に縦揺れに対して天井と床との距離を一定に保って間仕切りの装置の転倒を防止し、また横揺れを抑えて天井の落下を防止することが出来る耐震装置に関するものである。   The present invention suppresses shaking of the suspended ceiling and walls of a building due to an earthquake, and in particular, keeps the distance between the ceiling and the floor constant against vertical shaking to prevent the partition device from overturning, and to suppress rolling. The present invention relates to an earthquake-resistant device that can prevent a ceiling from falling.

このように従来の間仕切り装置は地震の揺れに対して転倒する虞がある。上記特開平9−256521号に係る「パーティション」であっても、揺れが大きくなって天井が崩壊すればパネルの転倒を避けることは出来ない。本発明が解決しようとする課題はこの問題点であり、地震時の天井、床、壁の揺れを抑制することが出来る耐震装置を提供する。
Thus, the conventional partition device may fall over due to the shaking of the earthquake. Even with the “partition” according to the above-mentioned Japanese Patent Application Laid-Open No. 9-256521, if the shaking becomes large and the ceiling collapses, it is impossible to avoid the panel from falling. The problem to be solved by the present invention is this problem, and provides an earthquake-resistant device capable of suppressing shaking of the ceiling, floor, and wall during an earthquake.

Claims (6)

地震に対して建物の天井、及び壁などの揺れを抑制するための耐震装置において、その下端を床面に連結固定し、上端を天井面に連結固定したことを特徴とする耐震装置。 A seismic apparatus for suppressing shaking of a building ceiling or wall against an earthquake, wherein the lower end is connected and fixed to the floor surface, and the upper end is connected and fixed to the ceiling surface. ワイヤーの下端を床面に連結固定し、上端を天井面に連結固定した請求項1記載の耐震装置。 The earthquake-proof device according to claim 1, wherein the lower end of the wire is connected and fixed to the floor surface, and the upper end is connected and fixed to the ceiling surface. 剛性のある棒状体の下端を床面に連結固定し、上端を天井面に連結固定した請求項1記載の耐震装置。 The earthquake-proof device according to claim 1, wherein the lower end of the rigid rod-like body is connected and fixed to the floor surface, and the upper end is connected and fixed to the ceiling surface. 建物の空間を仕切る為に、その上端は天井面に固定し、下端は床面に固定した間仕切り装置において、耐震装置として床面と天井面を連結する連結具を設け、地震が発生しても該連結具を介して床面と天井面との距離が一定に保たれるようにしたことを特徴とする耐震装置を組み込んだ間仕切り装置。 In order to partition the space of the building, a partitioning device with its upper end fixed to the ceiling surface and its lower end fixed to the floor surface is provided with a connecting tool that connects the floor surface to the ceiling surface as an earthquake resistant device. A partition device incorporating a seismic resistance device, characterized in that the distance between the floor surface and the ceiling surface is kept constant via the connector. 床面側と天井面側にはネジ部を起立した受け部材を固定し、上記連結具両端に設けたナットを受け金具のネジ部に螺合して連結した請求項4記載の耐震装置を組み込んだ間仕切り装置。 5. A seismic apparatus according to claim 4, wherein a receiving member having a threaded portion is fixed on the floor surface side and the ceiling surface side, and nuts provided at both ends of the coupling tool are screwed and coupled to the threaded portion of the metal fitting. A partition device. 天井面側には上止め金具を固定し、この上止め金具と連結具と成るスタッドの上端部を連結し、巾木に載ったスタッドの下端を該巾木と共にアジャスター受けに連結固定し、巾木を支持するアジャスターを床面側に固定した請求項4記載の耐震装置を組み込んだ間仕切り装置。





An upper stopper is fixed to the ceiling surface, the upper stopper is connected to the upper end of the stud that is a connecting tool, and the lower end of the stud placed on the baseboard is connected and fixed to the adjuster receiver together with the baseboard. The partition apparatus incorporating the seismic resistance device according to claim 4, wherein an adjuster for supporting the tree is fixed to the floor surface side.





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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0644828U (en) * 1992-11-24 1994-06-14 株式会社イトーキクレビオ Column structure of partition device
JPH0886033A (en) * 1994-09-19 1996-04-02 Misawa Homes Co Ltd Structure of partition wall
JPH09256521A (en) * 1996-03-22 1997-09-30 Matsushita Electric Works Ltd Partition
JPH11241440A (en) * 1998-02-23 1999-09-07 Matsushita Electric Works Ltd Post fixed structure
JP2004176409A (en) * 2002-11-27 2004-06-24 Shoken Kawabata Earthquake-resistant reinforcing tool and earthquake-resistant reinforcement method
JP2006022483A (en) * 2004-07-06 2006-01-26 Taisei Corp Earthquake resistant structure of suspended ceiling

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0644828U (en) * 1992-11-24 1994-06-14 株式会社イトーキクレビオ Column structure of partition device
JPH0886033A (en) * 1994-09-19 1996-04-02 Misawa Homes Co Ltd Structure of partition wall
JPH09256521A (en) * 1996-03-22 1997-09-30 Matsushita Electric Works Ltd Partition
JPH11241440A (en) * 1998-02-23 1999-09-07 Matsushita Electric Works Ltd Post fixed structure
JP2004176409A (en) * 2002-11-27 2004-06-24 Shoken Kawabata Earthquake-resistant reinforcing tool and earthquake-resistant reinforcement method
JP2006022483A (en) * 2004-07-06 2006-01-26 Taisei Corp Earthquake resistant structure of suspended ceiling

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