JP6063621B2 - Vibration control partition panel device - Google Patents

Vibration control partition panel device Download PDF

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JP6063621B2
JP6063621B2 JP2011239543A JP2011239543A JP6063621B2 JP 6063621 B2 JP6063621 B2 JP 6063621B2 JP 2011239543 A JP2011239543 A JP 2011239543A JP 2011239543 A JP2011239543 A JP 2011239543A JP 6063621 B2 JP6063621 B2 JP 6063621B2
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partition panel
unit
damping
ceiling
panel
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JP2013096133A (en
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美智男 小室
美智男 小室
千利 宇野
千利 宇野
圭吾 斉藤
圭吾 斉藤
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Okamura Corp
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本発明は、左右に立設した支柱の前後にパネル部材を取り付けてなる複数枚の間仕切パネルを、直線上に連設して室内を仕切るようにした間仕切パネル装置に関し、特に地震による天井の破損、間仕切パネルの転倒や破損を防止する制振間仕切パネル装置に関する。   The present invention relates to a partition panel device in which a plurality of partition panels formed by attaching panel members to the front and rear of a column erected on the left and right sides are arranged in a straight line so as to partition a room, and in particular, damage to a ceiling due to an earthquake. The present invention relates to a vibration control partition panel device that prevents the partition panel from overturning or breaking.

従来、室内を複数の部屋に仕切る場合、複数本にわたり所定距離離間して立設された支柱の前後にパネル部材を取り付けて構成される複数枚の間仕切パネルを、直線上に連設した間仕切パネル装置が用いられており、主な間仕切パネル装置の態様としては、たとえば特許文献1に記載されているように、間仕切パネルにおける下辺部が床面に、上辺部が天井面にボルトを用いて固定されたものがある。   Conventionally, when a room is partitioned into a plurality of rooms, a plurality of partition panels configured by attaching panel members to the front and back of a support column that is provided with a predetermined distance apart from each other are arranged in a straight line. The device is used, and as an aspect of the main partition panel device, for example, as described in Patent Document 1, the lower side portion of the partition panel is fixed to the floor surface and the upper side portion is fixed to the ceiling surface using bolts. There is something that was done.

特開2007−016526号公報JP 2007-016526 A

しかしながら前記特許文献1に記載されている間仕切パネル装置においては、上下共に強固に固定されるため、特に地震により生じる衝撃等に対して衝撃を逃がすことができず、天井の破損や間仕切パネルの転倒および破損を引き起こす恐れがあるという問題がある。また、間仕切パネル装置は、直線上に連設して室内を仕切るため、地震等により振動すると、連接した間仕切パネル装置全体が前方または後方のいずれかに倒れやすくなる。   However, in the partition panel device described in Patent Document 1, since the upper and lower sides are firmly fixed, it is not possible to release the impact particularly against an impact caused by an earthquake, and the ceiling breaks or the partition panel falls. And there is a problem that can cause damage. In addition, since the partition panel device is provided in a straight line and partitions the room, when the partition panel device vibrates due to an earthquake or the like, the connected partition panel device as a whole tends to fall forward or backward.

本発明は、このような問題点に着目してなされたもので、地震等の災害時における衝撃により生じる天井の破損や間仕切パネルの転倒および破損を防止できる制振間仕切パネル装置を提供することを目的としている。   The present invention has been made paying attention to such problems, and provides a damping partition panel device capable of preventing the breakage of the ceiling and the fall and breakage of the partition panel caused by an impact during a disaster such as an earthquake. It is aimed.

上記課題を解決するために、本発明の制振間仕切パネル装置は、
支柱の間にパネル部材を取り付ける第1の間仕切パネルユニットと、
前記第1の間仕切パネルユニットに対して互いに倒れにくい方向に前後に連設されるとともに、支柱の間にパネル部材を取り付ける第2の間仕切パネルユニットとを有し、
前記第1および第2の間仕切パネルユニットは、
前記パネル部材の下辺側に設けられ、前記支柱に接続されるとともに、当該間仕切パネル装置を床面に固定する固定部を有し、
前記パネル部材の上辺側に設けられ、前記支柱に接続されるとともに、天井面に接触する天井側接触部が前記第1および第2の間仕切パネルユニットにそれぞれ独立して個別に設けられ、
前記天井側接触部は、支柱同士を接続する連結部と、該連結部の上に遊嵌載置される制振ユニットとを備え、
前記制振ユニットは、制振コイルばねと、該制振コイルばねにより天井に押圧される杆状部材と、前記制振コイルばねの外部への付勢力を発生させる状態の作動状態と該作動状態より該制振ユニットの上下長が短い状態で前記制振コイルばねの外部への付勢力を発生させない非作動状態とを切り替える切り替え手段と、を備え、
前記杆状部材の上面には前記天井面に直接接触する弾性体の接触面を備え
前記天井側接触部は、前記制振ユニットの前記天井面までの高さ方向の配置位置を前記連結部に対して上下に移動調整させる移動手段を備え
ことを特徴としている。
この特徴によれば、第2の間仕切パネルユニットは、第1の間仕切パネルユニットに対して互いに倒れにくい方向に連設されることができる。互いに倒れにくい方向に連接されるとは、第2の間仕切パネルユニットが第1の間仕切パネルユニットに対して所定の角度(180度を除く)で連接されることをいい、例えば、第2の間仕切パネルユニットが第1の間仕切パネルユニットに対して90度で連接されて、第1の間仕切パネルユニットと第2の間仕切パネルユニットとが直交するように連接される場合や、45度で連接されて、第1の間仕切パネルユニットと第2の間仕切パネルユニットとが斜めに連接される場合などがある。第1および第2の間仕切パネルユニットは、パネル部材の下辺側に設けられた固定部により床面に固定され、天井側接触部は、パネル部材の上辺側に設けられ、天井面に接触して天井面を押圧する。固定部および天井側接触部は、支柱に接続され、二本の支柱の間にはパネル部材が取り付けられて、第1、第2の間仕切パネル装置が、床面に固定された状態で、天井面まで配置される。地震等の災害時における衝撃が起こった場合には、天井側接触部の制振コイルばねにより、接触面と前記天井面との接触状態を維持する押圧力を発生させるので、衝撃により生じる天井の破損や間仕切パネルの転倒および破損を防止することができる。また、第2の間仕切パネルユニットは、第1の間仕切パネルユニットに互いに倒れにくい方向に連設されるので、間仕切パネルの転倒をより防ぐことができる。例えば、第2の間仕切パネルユニットが第1の間仕切パネルユニットに対して90度や45度で連接される場合には、第1の間仕切パネルユニットと第2の間仕切パネルユニットとで支えあうため、間仕切パネルを転倒しにくくすることができる。
また、切り替え手段は、制振コイルばねの前記押圧力を発生させる状態の作動状態と、非作動状態とを切り替えることができるため、設置前には、制振コイルばねを非作動状態に切り替えておき、設置場所に設置後、制振コイルばねを作動状態に切り替えることで、押圧力を発生させるようにできる。これにより、設置前の移動時や設置時には、制振コイルばねを非作動状態のままで取り扱うとことができるので、移動や設置作業が簡単になる。制振コイルばねの付勢が働かないような縮んだ非作動状態としておくことで、取り扱いや設置作業が簡単になり、また、移動時や設置作業時にバネが必要以上に伸びたりするのを防ぐことができ、さらに、設置後に作動状態に切り替えることで、制振コイルばねが良好に作動されるようになる。
In order to solve the above problems, the vibration damping partition panel device of the present invention is:
A first partition panel unit for attaching a panel member between the columns;
The first partition panel unit is connected to the front and rear in a direction in which the first partition panel unit does not easily fall down, and has a second partition panel unit for attaching a panel member between the columns.
The first and second partition panel units are:
Provided on the lower side of the panel member, connected to the column, and having a fixing portion for fixing the partition panel device to the floor surface,
Provided on the upper side of the panel member, connected to the support column, and a ceiling-side contact portion that contacts the ceiling surface is provided individually and independently on the first and second partition panel units,
The ceiling-side contact portion includes a connecting portion that connects the columns, and a vibration control unit that is loosely mounted on the connecting portion.
The damping unit includes a damping coil spring, a rod-shaped member which is pressed to the ceiling by該制vibration coil spring, the operating state and the operating state of the state for generating a biasing force to the outside of the damping coil spring Switching means for switching between a non-operating state in which the biasing force to the outside of the damping coil spring is not generated when the vertical length of the damping unit is shorter ,
The upper surface of the rod-shaped member provided with a contact surface of the elastic member in direct contact with the ceiling surface,
The ceiling contact portion is characterized in that Ru includes moving means for moving adjusting the position in the height direction to the ceiling surface of the damping unit up and down relative to the connecting portion.
According to this feature, the second partition panel unit can be continuously provided in a direction in which the second partition panel unit does not easily fall over the first partition panel unit. To be connected in a direction in which they do not easily fall down means that the second partition panel unit is connected to the first partition panel unit at a predetermined angle (except for 180 degrees), for example, the second partition panel. When the panel unit is connected to the first partition panel unit at 90 degrees and the first partition panel unit and the second partition panel unit are connected to be orthogonal to each other, or at 45 degrees. In some cases, the first partition panel unit and the second partition panel unit are connected obliquely. The first and second partition panel units are fixed to the floor surface by a fixing portion provided on the lower side of the panel member, and the ceiling side contact portion is provided on the upper side of the panel member and contacts the ceiling surface. Press the ceiling surface. The fixed portion and the ceiling-side contact portion are connected to the column, a panel member is attached between the two columns, and the first and second partition panel devices are fixed to the floor surface. It is arranged to the surface. When an impact occurs during a disaster such as an earthquake, the damping coil spring of the ceiling-side contact portion generates a pressing force that maintains the contact state between the contact surface and the ceiling surface. It is possible to prevent breakage and overturning and breakage of the partition panel . Also, the second partition panel units, because they are provided continuously in a direction less likely to collapse together to the first partition panel unit, can be further prevented overturning of partition panel. For example, when the second partition panel unit is connected to the first partition panel unit at 90 degrees or 45 degrees, the first partition panel unit and the second partition panel unit support each other. The partition panel can be made difficult to fall.
Further, since the switching means can switch between the operation state in which the pressing force of the damping coil spring is generated and the non-operation state, the damping coil spring is switched to the non-operation state before installation. In addition, it is possible to generate a pressing force by switching the damping coil spring to the operating state after installation at the installation location. Thereby, at the time of movement before installation or at the time of installation, the damping coil spring can be handled in a non-actuated state, so that the movement and installation work are simplified. By keeping it in a non-actuated state in which the bias of the damping coil spring does not work, handling and installation work are simplified, and the spring is prevented from being unnecessarily extended during movement or installation work. In addition, the vibration damping coil spring can be satisfactorily operated by switching to the operating state after installation.

本発明の制振間仕切パネル装置は、
前記第1の間仕切パネルユニットと前記第2の間仕切パネルユニットとは、一方の支柱を共有することを特徴としている。
この特徴によれば、第1の間仕切パネルユニットと前記第2の間仕切パネルユニットとが、支柱を共有するので、第1の間仕切パネルユニットと第2の間仕切パネルユニットとの連設が支柱で簡単に行うことができる。
The vibration damping partition panel device of the present invention is
The first partition panel unit and the second partition panel unit share one strut.
According to this feature, since the first partition panel unit and the second partition panel unit share the support column, it is easy to connect the first partition panel unit and the second partition panel unit with the support column. Can be done.

本発明の制振間仕切パネル装置は、
前記制振ユニットは、当該制振ユニットの前記天井面までの高さ方向の寸法並びに前記押圧力を調整する押圧力調整手段を備えることを特徴としている。
この特徴によれば、押圧力調整手段は、当該制振ユニットの前記天井面までの高さ方向の寸法並びに押圧力を調整することができるので、設置場所の状況に応じて、任意の天井面までの高さ方向の寸法と、押圧力を調整することができる
The vibration damping partition panel device of the present invention is
The vibration suppression unit includes a pressing force adjusting unit that adjusts the dimension of the vibration suppression unit in the height direction to the ceiling surface and the pressing force.
According to this feature, the pressing force adjusting means can adjust the height direction dimension and the pressing force of the vibration suppression unit to the ceiling surface. The height dimension up to and the pressing force can be adjusted .

本発明の制振間仕切パネル装置は、
前記支柱は、前記第1および第2の間仕切パネルユニットの各パネル部材を係合する係合部を備えることを特徴としている。
この特徴によれば、支柱とパネル部材には、それぞれ係合部が設けられており、これらの係合部を係合させることで、簡単に支柱とパネル部材とを係合させることができる。
The vibration damping partition panel device of the present invention is
The said support | pillar is provided with the engaging part which engages with each panel member of the said 1st and 2nd partition panel unit.
According to this feature, the strut and the panel member are each provided with an engaging portion, and the strut and the panel member can be easily engaged by engaging these engaging portions.

実施例1における制振間仕切パネル装置の斜視図である。It is a perspective view of the damping partition panel device in Example 1. 第1の間仕切パネルユニットの正面視横断面図である。It is a front view cross-sectional view of a 1st partition panel unit. 第1の間仕切パネルユニットの側面図である。It is a side view of the 1st partition panel unit. 天井接触部の一部拡大横断正面図である。It is a partially expanded cross-sectional front view of a ceiling contact part. 図4における天井接触部のA−A断面矢視図である。It is an AA cross-sectional arrow view of the ceiling contact part in FIG. 制振機構における各部材の側断面図である。It is a sectional side view of each member in a damping mechanism. 支柱に連結部を構成する連結金具が連結された状態を示す一部横断正面図である。It is a partial cross-sectional front view which shows the state by which the connection metal fitting which comprises a connection part was connected with the support | pillar. 支柱に連結部を構成する連結金具と上部連結材が連結された状態を示す一部横断正面図である。It is a partial cross-sectional front view which shows the state with which the connection metal fitting which comprises a connection part, and the upper connection material were connected with the support | pillar. 支柱が床面に固定されるとともに、連結部に天井側接触部が取り付けられた状態を示す一部横断正面図である。It is a partial cross section front view which shows the state by which the support | pillar was fixed to the floor surface and the ceiling side contact part was attached to the connection part. 移動手段により接触面が天井面に接触された状態を示す一部横断正面図である。It is a partial cross-sectional front view which shows the state in which the contact surface contacted the ceiling surface by the moving means. 切り替え手段により制振機構が非作動作動状態から作動状態に切換えられた状態を示す一部横断正面図である。It is a partial cross section front view which shows the state by which the damping mechanism was switched from the non-operation operation state to the operation state by the switching means. 第1および第2の間仕切パネルユニットの連設状態を示す上面図である。It is a top view which shows the connection state of the 1st and 2nd partition panel unit. 第2の間仕切パネルユニットの連設状態における変形例の上面図である。It is a top view of the modification in the connection state of the 2nd partition panel unit. 第1および第2の間仕切パネルユニットの他の連設状態を示す上面図である。It is a top view which shows the other connection state of the 1st and 2nd partition panel unit. 実施例2における制振間仕切パネル装置の一部拡大横断正面図である。It is a partially expanded cross-sectional front view of the vibration suppression partition panel apparatus in Example 2.

本発明に係る制振間仕切パネル装置を実施するための形態を実施例に基づいて以下に説明する。   EMBODIMENT OF THE INVENTION The form for implementing the damping partition panel apparatus which concerns on this invention is demonstrated below based on an Example.

実施例1に係る制振間仕切パネル装置につき、図1から図11を参照して説明する。図1は、本発明の制振間仕切パネル装置1の全体斜視図である。なお本発明における制振間仕切パネル装置1における支柱は直線上に複数本、立設して構成されるが、本実施例においては無作為に選んだ隣接する2本の支柱2,2’を用いて説明し、以下、図2の紙面手前側を制振間仕切パネル装置1の正面側として説明する。   The vibration damping partition panel device according to the first embodiment will be described with reference to FIGS. FIG. 1 is an overall perspective view of a vibration damping partition panel device 1 according to the present invention. In the present invention, a plurality of struts in the vibration damping partition panel device 1 are arranged upright on a straight line. In this embodiment, two struts 2 and 2 'adjacently selected at random are used. Hereinafter, the front side of the sheet of FIG. 2 will be described as the front side of the vibration damping partition panel device 1.

図1および図2に示されるように制振間仕切パネル装置1は、左右に立設した中空の断面視略矩形状の支柱2,2’と、支柱2,2’の前後の面にそれぞれ取り付けられる、クロス等のパネル部材5と、パネル部材5の下辺側に設けられ、支柱2,2’に接続されるとともに、制振間仕切パネル装置1を床面に固定する固定部Kと、パネル部材5の上辺側に設けられ、支柱2,2’に接続されるとともに、天井面Tに接触する接触面Mを備える天井側接触部Sとを少なくとも有し、天井側接触部Sは、接触面Mと天井面Tとの接触状態を維持する押圧力を発生させる制振機構である制振ユニット6を備える。また、制振間仕切パネル装置1は、直線上に複数連接される第1の間仕切パネルユニット51と、後述する、第1の間仕切パネルユニットに対して互いに倒れにくい方向に連設される第2の間仕切パネルユニット52とを有することができる。なお、実施例1においては、制振間仕切パネル装置1として、第1の間仕切パネルユニット51単体の構成について説明する。   As shown in FIGS. 1 and 2, the vibration damping partition panel device 1 is attached to the left and right columns 2, 2 'having a substantially rectangular shape in a sectional view, and the front and rear surfaces of the columns 2, 2', respectively. A panel member 5 such as a cloth, a fixing member K which is provided on the lower side of the panel member 5 and is connected to the support columns 2 and 2 'and which fixes the damping partition panel device 1 to the floor surface, and the panel member 5 and at least a ceiling-side contact portion S provided with a contact surface M that contacts the ceiling surface T, the ceiling-side contact portion S being a contact surface. A vibration damping unit 6 is provided as a vibration damping mechanism that generates a pressing force for maintaining the contact state between M and the ceiling surface T. Further, the vibration control partition panel device 1 includes a first partition panel unit 51 that is connected in a straight line, and a second partition panel that is connected in a direction in which the first partition panel unit, which will be described later, does not easily fall down. A partition panel unit 52 can be provided. In the first embodiment, the configuration of the first partition panel unit 51 alone will be described as the damping partition panel device 1.

本実施例において、天井側接触部Sの制振ユニット6は、後述するように、バネ等による付勢手段を備え、天井面Tに接触面Mが接触し接触状態を維持する押圧力を発生させることで、地震などにより制振間仕切パネル装置1が振動したときに、制振ユニット6の付勢力でその振動エネルギーを吸収するとともに、床面Yと天井面Tとの高さ方向の長さMが変形などにより変わったときにも、追従して天井面Tを押圧して、衝撃により生じる天井の破損や間仕切パネルの転倒および破損を防止することができるように構成されている。また、天井側接触部Sは、天井面Tに接触面Mで接触するようになっているので、押圧力が一点に集中することなく、面上に分散されるようにできる。   In the present embodiment, the vibration damping unit 6 of the ceiling side contact portion S includes a biasing means such as a spring as will be described later, and generates a pressing force that keeps the contact surface M in contact with the ceiling surface T. Thus, when the vibration control partition panel device 1 vibrates due to an earthquake or the like, the vibration energy is absorbed by the urging force of the vibration control unit 6, and the length in the height direction between the floor surface Y and the ceiling surface T is reduced. Even when M changes due to deformation or the like, the ceiling surface T is followed and the ceiling surface T can be prevented from being damaged, and the partition panel can be prevented from being overturned and damaged. Moreover, since the ceiling side contact part S contacts the ceiling surface T with the contact surface M, it can be distributed on a surface, without pressing force concentrating on one point.

制振間仕切パネル装置1は、支柱2,2’を連結するとともに、これらの支柱2,2’の上部側に設けられ、天井側接触部Sに連結する連結部Rとして、上部連結材3と、支柱に2,2’を連結するとともに、これらの支柱2,2’の下部側に設けられ、固定部Kに連結される下部連結材4とを備える。断面視上向きに開口するコ字状に形成された上部連結材3の上部に制振ユニット6が嵌合されることで、支柱2,2’と天井側接触部Sとが上部連結材3を介して接続される。制振ユニット6は上部連結材3に対して着脱可能にユニット化されている。支柱2と支柱2’とを接続する連結部Rとしては、上部連結材3を少なくとも備えていればよいが、下部連結材4や、さらに補助杆33により連結させるようにできる。また、連結部Rとしては、上部連結材3と支柱2,2とを連結する支柱連結金具9,9’を備える。   The vibration control partition panel device 1 connects the support columns 2 and 2 ′, and is provided on the upper side of the support columns 2 and 2 ′. And 2, 2 ′ are connected to the support columns, and the lower connection member 4 is provided on the lower side of the support columns 2, 2 ′ and connected to the fixing portion K. The vibration control unit 6 is fitted to the upper part of the upper connecting member 3 that is formed in a U-shape that opens upward in a cross-sectional view, so that the columns 2 and 2 ′ and the ceiling side contact portion S connect the upper connecting member 3. Connected through. The damping unit 6 is unitized so as to be detachable from the upper connecting member 3. The connecting portion R that connects the support column 2 and the support column 2 ′ only needs to include at least the upper connecting member 3, but can be connected by the lower connecting member 4 and the auxiliary rod 33. In addition, the connecting portion R includes support coupling members 9 and 9 ′ that connect the upper connection member 3 and the supports 2 and 2.

図2および図3に示されるように、制振間仕切パネル装置1を床面に固定する固定部Kは、L字板7、固着ネジ35およびアンカー・プラグ8を備え、左右の支柱2,2’それぞれの下端部における左右のうち一方の側面または両面に、L字板7が固着ネジ35で取り付けられ、このL字板7がアンカー・プラグ8により下部連結材4に設けられた貫通孔19を通して床面に固定され、それぞれの支柱2,2’が立設されて床面に固定されるとともに、下部連結材4が床面Yに固定されるようになっている。左右の支柱2,2’それぞれの下端部の奥行き方向の厚みは前後方向に僅かに短くなっており、床面Y上に載置された断面視上向きに開口するコ字状の下部連結材4内に嵌合するようになっている。固定部Kとしては、下部連結材4を設けずに、支柱2,2’だけを床面に固定するようにしてもよい。下部連結材4の長手方向の長さは、パネル材5の幅方向の長さとほぼ同じとして、隣り合う下部連結材4を、それぞれ支柱2,2’を介して連結するように構成できる。もしくは、下部連結材4の長手方向の長さは、パネル材5を複数枚連設させた場合の長さとほぼ同じ長さにしてもよい。   As shown in FIG. 2 and FIG. 3, the fixing portion K that fixes the vibration damping partition panel device 1 to the floor includes the L-shaped plate 7, the fixing screw 35 and the anchor plug 8, and the left and right support columns 2, 2. 'L-shaped plate 7 is attached to one or both of the left and right sides at the lower end of each with a fixing screw 35, and this L-shaped plate 7 is attached to lower connecting member 4 with anchor plug 8 through hole 19 The support columns 2 and 2 'are erected and fixed to the floor surface, and the lower connecting member 4 is fixed to the floor surface Y. The thickness in the depth direction of the lower end of each of the left and right columns 2, 2 'is slightly shorter in the front-rear direction, and is a U-shaped lower connecting member 4 that is placed on the floor surface Y and opens upward in a sectional view. It fits inside. As the fixing portion K, only the support columns 2 and 2 ′ may be fixed to the floor surface without providing the lower connecting member 4. The length of the lower connecting member 4 in the longitudinal direction is substantially the same as the length of the panel member 5 in the width direction, and the adjacent lower connecting members 4 can be connected via the support columns 2 and 2 ′, respectively. Alternatively, the length of the lower connecting member 4 in the longitudinal direction may be substantially the same as the length when a plurality of panel members 5 are connected in series.

また図3に示されるように、パネル材5の背面左右縁部には縦方向に複数の係合凹部29が設けられ、支柱2,2’の左右には、正面および背面に向けて上方に向けた鉤部301を有する係合鉤部材30が縦方向に複数設けられており、これらの鉤部301に対し係合凹部29がそれぞれ係合することでパネル材5が支柱2,2’に係合支持されるようになっている。   Also, as shown in FIG. 3, a plurality of engaging recesses 29 are provided in the vertical direction on the left and right edges of the back surface of the panel material 5, and on the left and right sides of the support columns 2 and 2 ', upward toward the front and back surfaces. A plurality of engaging hook members 30 each having a facing hook portion 301 are provided in the vertical direction, and the engaging recess 29 engages with each of the hook portions 301 so that the panel material 5 is attached to the columns 2 and 2 ′. The engagement is supported.

図2、図4および図5に示されるように、T字状の支柱連結金具9,9’は、左右方向に延びる板状の連結棒10,10’と、支柱2,2’に嵌合する下方杆部11,11’とを備えており、下方杆部11,11’が、左右の支柱2,2’の上方より支柱中空部21,21’にそれぞれ嵌合支持され、支柱2,2’の左右両側面より螺進するビス36によって支柱連結金具9,9’と支柱2,2’とがそれぞれ固定される。   As shown in FIG. 2, FIG. 4, and FIG. 5, the T-shaped column connecting brackets 9, 9 'are fitted to the plate-shaped connecting rods 10, 10' extending in the left-right direction and the columns 2, 2 '. The lower flanges 11 and 11 ′ are fitted and supported by the column hollows 21 and 21 ′ from above the left and right columns 2 and 2 ′, respectively. The column connecting brackets 9 and 9 ′ and the columns 2 and 2 ′ are fixed by screws 36 screwed from both left and right side surfaces of 2 ′.

図4および図5に示すように、連結部Rとしての上部連結材3は、その長手方向の長さがパネル部材5の幅の長さとほぼ同じであり、断面視上向きに開口するコ字状に形成された上板31および下板32の2枚のコ字状の金属板を備え、それら上板31および下板32が、お互いの底板同士を所定距離離間して側面を熱溶着されて形成されている。上板31の底板には後述する昇降タップ穴12および第1調整孔16が設けられているとともに、上板31の上面には制振ユニット6が遊嵌載置できるようになっている。なお、上部連結材3は、断面視上向きに開口するコ字状に形成された上板31および下板32の2枚のコ字状の金属板で形成されているが、本発明はこの限りではなく、一枚のコ字状の金属板で形成されていてもよい。   As shown in FIGS. 4 and 5, the upper connecting member 3 as the connecting portion R has a length in the longitudinal direction that is substantially the same as the width of the panel member 5, and opens in a cross-sectional view upward. The upper plate 31 and the lower plate 32 are formed into two U-shaped metal plates, and the upper plate 31 and the lower plate 32 are heat-welded on the side surfaces with the bottom plates separated from each other by a predetermined distance. Is formed. The bottom plate of the upper plate 31 is provided with an elevating tap hole 12 and a first adjustment hole 16 which will be described later, and the vibration control unit 6 can be loosely mounted on the upper surface of the upper plate 31. The upper connecting member 3 is formed of two U-shaped metal plates, ie, an upper plate 31 and a lower plate 32 that are formed in a U-shape opening upward in a sectional view, but the present invention is not limited to this. Instead, it may be formed of a single U-shaped metal plate.

下板32の底板には長手方向に直線上、かつ幅方向複数列にわたり固定タップ穴14が螺設されており、これらの固定タップ穴14と固定ネジ15が前述の支柱連結金具9,9’の連結棒10,10’に設けられる挿通孔28を介して螺合することにより支柱連結金具9,9’と上部連結材3とが固定されるようになっている。さらに下板32の底板には第1調整孔16の真下に第2調整孔17が、前記昇降タップ穴12の真下に第1昇降孔18が、それぞれ設けられている。なお、支柱連結金具9,9’と上部連結材3とが連結された際の連結棒10,10’における第1昇降孔18の真下に位置する箇所には、第2昇降孔39が穿設されている。   Fixing tap holes 14 are screwed on the bottom plate of the lower plate 32 in a straight line in the longitudinal direction and in a plurality of rows in the width direction, and these fixing tap holes 14 and the fixing screws 15 are connected to the above-described support couplings 9, 9 ′. The support couplings 9 and 9 'and the upper coupling member 3 are fixed by screwing through the insertion holes 28 provided in the coupling rods 10 and 10'. Further, the bottom plate of the lower plate 32 is provided with a second adjustment hole 17 directly below the first adjustment hole 16 and a first lift hole 18 directly below the lift tap hole 12. In addition, the 2nd raising / lowering hole 39 is drilled in the location located just under the 1st raising / lowering hole 18 in connecting rod 10,10 'at the time of support | pillar coupling metal 9 and 9' and the upper connection material 3 being connected. Has been.

また図2および図4に示されるように、上部連結部3に備える昇降ネジ13を下方より第1昇降孔18、第2昇降孔39および昇降タップ穴12を挿通させ、制振ユニット6の底面に設けられたリング状の誘導凹部60の内周面601に遊嵌して昇降ネジ13の先端部が制振ユニット6底面を当接支持するようになっており、昇降ネジ13の螺進または螺退によって制振ユニット6の上下移動が可能となっている。昇降ネジ13が昇降タップ穴12に螺合して制振ユニット6の底面の誘導凹部60を押圧することで、上部連結材3の上板31の底板の位置に対して制振ユニット6の底面位置を上下方向に調整でき、制振ユニット6の天井面までの高さ方向の配置位置を上部連結部3に対して上下に移動させる移動手段として機能する。また、昇降ネジ13により、制振ユニット6の底面の誘導凹部60を押圧することで制振ユニット6の高さ方向の寸法Hも調整することができる。   As shown in FIGS. 2 and 4, the lifting screw 13 provided in the upper connecting portion 3 is inserted through the first lifting hole 18, the second lifting hole 39 and the lifting tap hole 12 from below, so that the bottom surface of the damping unit 6 can be obtained. The tip of the lifting screw 13 is loosely fitted to the inner peripheral surface 601 of the ring-shaped guide recess 60 provided in the upper end so that the bottom surface of the damping unit 6 is in contact with and supported. The vibration control unit 6 can be moved up and down by retraction. The elevating screw 13 is screwed into the elevating tap hole 12 and presses the guide recess 60 on the bottom surface of the damping unit 6, so that the bottom surface of the damping unit 6 is located with respect to the position of the bottom plate of the upper plate 31 of the upper connecting member 3. The position can be adjusted in the vertical direction, and functions as a moving means for moving the arrangement position in the height direction to the ceiling surface of the damping unit 6 up and down with respect to the upper connecting portion 3. Further, the height dimension H of the vibration damping unit 6 can be adjusted by pressing the guide recess 60 on the bottom surface of the vibration damping unit 6 with the lifting screw 13.

図6に示されるように、天井側接触部Sの制振ユニット6は、制振機構である制振コイルばね20と、断面視下向きに開口し、上部に弾性体40を有する第1チャネル材22と、第1チャネル材22と係合する断面視上向きに開口するコ字状の第2チャネル材23とを備え、制振コイルばね20は、第1チャネル材22と第2チャネル材23の間であって、パネル部材5の上辺に則して延びている方向の所定の位置に少なくとも一つ設けられている。制振コイルばね20は、例えば、図1に示すように、パネル部材5の上辺方向の両側に一つずつ配置して二つ設けることができる。天井側接触部Sの制振ユニット6の第1チャネル材22と第2チャネル材23とは、パネル部材5の上辺に則して延び、パネル部材5の上辺の長さとほぼ等しい長さを有している。また、パネル部材5を連接させた場合には、隣接する天井側接触部Sの制振ユニット6同士を連結させるようにしてもよい。制振ユニット6は、図6に示すように、調整ネジ24が、第2チャネル材23の底板に穿設された貫通孔25および制振コイルばね20を通して、第1チャネル材22の天板内面26に設けられるネジ筒27と螺合する。これらの螺合の深さにより調整ネジ24の頭部が、第2チャネル材23の底板に当接するか、もしくは第2チャネル材23の底板から離間した位置になるように切り替えられるようになっている。また、調整ネジ24のネジ筒27との螺合の深さを調整することで、第1チャネル材22と第2チャネル材23との高さ方向の寸法Hを調整することができる。制振ユニット6は、制振間仕切パネル装置1の設置時や搬入時には、調整ネジ24のネジ筒27との螺合の深さを適当な任意の深さとしておき、この状態では、第1チャネル材22と第2チャネル材23との間に制振コイルばね20が挿入されているので、調整ネジ24の頭部が、第2チャネル材23の底板に当接した状態の非作動状態となっている。制振間仕切パネル装置1を後述するような工程で設置する際に、調整ネジ24のネジ筒27との螺合の深さが短くなるように調整ネジ24をゆるめて調整することで、調整ネジ24の頭部が第2チャネル材23の底板から離間した位置になる状態の作動状態に切り替えることができる。調整ネジ24とネジ筒27とにより、非作動状態から制振機構の押圧力を発生させる状態の作動状態に切り替える切り替え手段として機能するようになっている。また、第1チャネル材22と第2チャネル材23との高さ方向の寸法Hを調整ネジ24により調整することで、制振コイルばね20の伸長可能な長さが調整され、地震などの振動発生時に発揮される、接触面Mと天井面Tとの接触状態を維持する押圧力を調整することができ、押圧力調整手段を構成することができる。なお、支柱連結金具9,9’の連結棒10,10’には、第1調整孔16および第2調整孔17の真下に、第3調整孔38が穿設されている。そのため、第1調整孔16、第2調整孔17および第3調整孔38を通してドライバー等の先端部を挿入することで、連結棒10,10’の下方より前記調整ネジ24の調整が行えるようになっている(図2、図4参照)。   As shown in FIG. 6, the damping unit 6 of the ceiling side contact portion S includes a damping coil spring 20 that is a damping mechanism, and a first channel member that opens downward in a sectional view and has an elastic body 40 at the top. 22 and a U-shaped second channel member 23 that opens in a cross-sectional view and engages with the first channel member 22, and the damping coil spring 20 includes the first channel member 22 and the second channel member 23. At least one is provided at a predetermined position in the direction extending along the upper side of the panel member 5. For example, as shown in FIG. 1, two damping coil springs 20 can be provided by being arranged one on each side in the upper side direction of the panel member 5. The first channel member 22 and the second channel member 23 of the damping unit 6 of the ceiling side contact portion S extend along the upper side of the panel member 5 and have a length substantially equal to the length of the upper side of the panel member 5. doing. Further, when the panel members 5 are connected, the vibration suppression units 6 of the adjacent ceiling side contact portions S may be connected. As shown in FIG. 6, the damping unit 6 includes an adjustment screw 24 that passes through a through hole 25 formed in the bottom plate of the second channel member 23 and the damping coil spring 20, and the top plate inner surface of the first channel member 22. 26 is screwed into a screw cylinder 27 provided on the H.26. Depending on the depth of these screws, the head of the adjusting screw 24 can be switched so as to abut against the bottom plate of the second channel member 23 or be separated from the bottom plate of the second channel member 23. Yes. Further, the height dimension H of the first channel material 22 and the second channel material 23 can be adjusted by adjusting the depth of screwing of the adjustment screw 24 with the screw cylinder 27. The damping unit 6 sets the screwing depth of the adjustment screw 24 with the screw cylinder 27 to an appropriate arbitrary depth when the damping partition panel device 1 is installed or carried in. In this state, the first channel Since the damping coil spring 20 is inserted between the material 22 and the second channel material 23, the head of the adjustment screw 24 is in an inoperative state in which the head is in contact with the bottom plate of the second channel material 23. ing. When installing the vibration control partition panel device 1 in a process as described later, the adjustment screw 24 is adjusted by loosening the adjustment screw 24 so that the depth of the screwing of the adjustment screw 24 with the screw cylinder 27 is shortened. It is possible to switch to an operating state in which the heads of 24 are located away from the bottom plate of the second channel member 23. The adjustment screw 24 and the screw cylinder 27 function as switching means for switching from the non-operating state to the operating state in which the pressing force of the vibration control mechanism is generated. Further, by adjusting the height dimension H of the first channel material 22 and the second channel material 23 with the adjusting screw 24, the length of the damping coil spring 20 that can be extended is adjusted, and vibration such as an earthquake is caused. It is possible to adjust the pressing force that is maintained at the time of occurrence and maintains the contact state between the contact surface M and the ceiling surface T, and it is possible to configure the pressing force adjusting means. A third adjustment hole 38 is formed directly below the first adjustment hole 16 and the second adjustment hole 17 in the connection rods 10 and 10 ′ of the column connection fittings 9 and 9 ′. Therefore, the adjustment screw 24 can be adjusted from below the connecting rods 10 and 10 ′ by inserting the tip of a screwdriver or the like through the first adjustment hole 16, the second adjustment hole 17, and the third adjustment hole 38. (See FIGS. 2 and 4).

続いて、本発明における制振間仕切パネル装置1の組み立て設置方法を図7から図11を用いて説明する。   Then, the assembly installation method of the damping partition panel apparatus 1 in this invention is demonstrated using FIGS. 7-11.

制振間仕切パネル装置1は、搬入時には、支柱2,2’、パネル部材5、固定部Kの部品、天井側接触部Sの制振ユニット6、連結部Rの部品は、必要個数、それぞれ連結されていない状態で搬入され、設置場所にて組み立てられて設置される。天井側接触部Sの制振ユニット6は、図6に示すネジ筒27に制振コイルばね20を遊嵌設置し、第1チャネル材22と第2チャネル材23とにより上下から制振コイルばね20を囲繞した後、第2チャネル材23の底板に穿設された貫通孔19および制振コイルばね20を通して調整ネジ24をネジ筒27に螺合して、予め組み立てられた非作動状態で搬入される。この場合、第1チャネル材22と第2チャネル材23との高さ方向の寸法Hは、第2チャネル材23の底面が押下されたときに制振コイルばね20の縮み幅を残した状態で一番小さくなるように、調整ネジ24をネジ筒27にいちばん深く螺合した状態としておくことで取り扱いやすく設置を簡単にすることができる。この状態では、調整ネジ24をネジ筒27に螺合して調整ネジ24の頭部が第2チャネル材23の底板に当接した状態にあり、第1チャネル材22と第2チャネル材23との高さ方向の寸法Hがそれ以上伸びることがないので、制振コイルばね20がそれ以上伸長しない状態の非作動状態となっている。設置前の移動時や設置時には、制振ユニット6を非作動状態のままで取り扱うことができるので、移動や設置作業を簡単にすることができる。また、移動時や設置作業時に制振コイルばね20が必要以上に伸びたりするのを防ぎ、設置後に作動状態に切り替えることで、制振コイルばね20が良好に作動されるようになっている。   At the time of carry-in, the vibration control partition panel device 1 is connected to the columns 2, 2 ′, the panel member 5, the parts of the fixed part K, the vibration control unit 6 of the ceiling side contact part S, and the parts of the connecting part R, each of which is required. It is carried in in a state where it is not done and assembled and installed at the installation site. The vibration suppression unit 6 of the ceiling side contact portion S has a vibration suppression coil spring 20 fitted and installed in a screw cylinder 27 shown in FIG. 6, and the vibration suppression coil spring from above and below by the first channel material 22 and the second channel material 23. After enclosing 20, the adjusting screw 24 is screwed into the screw cylinder 27 through the through hole 19 formed in the bottom plate of the second channel member 23 and the damping coil spring 20, and is loaded in a pre-assembled non-operating state. Is done. In this case, the dimension H in the height direction of the first channel material 22 and the second channel material 23 is such that the contraction width of the damping coil spring 20 remains when the bottom surface of the second channel material 23 is pressed. By making the adjustment screw 24 screwed into the screw cylinder 27 deepest so as to be the smallest, it is easy to handle and installation can be simplified. In this state, the adjustment screw 24 is screwed into the screw cylinder 27 and the head of the adjustment screw 24 is in contact with the bottom plate of the second channel member 23, and the first channel member 22, the second channel member 23, Since the dimension H in the height direction does not extend any more, the damping coil spring 20 is in an inoperative state in which it does not extend any further. Since the vibration control unit 6 can be handled in a non-operating state during movement before installation or during installation, the movement and installation work can be simplified. Further, the vibration suppression coil spring 20 is prevented from extending more than necessary during movement or installation work, and the vibration suppression coil spring 20 is operated satisfactorily by switching to the operating state after installation.

このような状態で搬入されると、まず、配置工程として、支柱2,2’、天井側接触部Sの制振ユニット6および連結部Rを連結して組み立てておき、設置場所に配置する。この場合の連結は、図7に示すように、連結部Rの支柱連結金具9,9’の下方杆部11,11’を左右の支柱2,2’の上方より支柱中空部21,21’にそれぞれ嵌合し、ビス36により固定する。つぎに、図8に示すように、支柱連結金具9,9’における左右方向に延びる連結棒10,10’の上側に上部連結材3の上板31および下板32を配置し、下板32の底板に複数螺設された固定タップ穴14に、連結棒10,10’の挿通孔28を介して固定ネジ15で螺合して、支柱連結金具9,9’と上部連結材3とを、それぞれ固定する。そして図9に示すように、予め組み立てられた制振ユニット6を非作動状態を維持した状態で上部連結材3のコ字状の上板31の上に配置して、支柱2,2’、天井側接触部Sの制振ユニット6および連結部Rを組み立てた状態とする。その後、設置場所に、組み立てた状態の左右の支柱2,2’を所定距離離間して配置し、固定部KのL字板7およびアンカー・プラグ8により下部連結材4を介してそれぞれ床面に固定する。   If it carries in in such a state, first, as an arrangement | positioning process, the support | pillars 2 and 2 ', the damping unit 6 of the ceiling side contact part S, and the connection part R will be connected and assembled, and it will arrange | position in an installation place. In this case, as shown in FIG. 7, as shown in FIG. 7, the lower flange portions 11, 11 ′ of the column connection fittings 9, 9 ′ of the connection portion R are connected to the column hollow portions 21, 21 ′ from above the left and right columns 2, 2 ′. And are fixed by screws 36. Next, as shown in FIG. 8, the upper plate 31 and the lower plate 32 of the upper connecting member 3 are arranged on the upper side of the connecting rods 10, 10 ′ extending in the left-right direction in the column connecting fittings 9, 9 ′. A plurality of fixing tap holes 14 screwed in the bottom plate of the connecting rods 10 and 10 ′ are screwed with fixing screws 15 through insertion holes 28, and the column connecting brackets 9 and 9 ′ and the upper connecting member 3 are connected. , Fix each. Then, as shown in FIG. 9, the vibration control unit 6 assembled in advance is disposed on the U-shaped upper plate 31 of the upper connecting member 3 in a non-operating state, and the columns 2, 2 ′, The vibration control unit 6 and the connecting portion R of the ceiling side contact portion S are assembled. Thereafter, the left and right support columns 2 and 2 ′ in an assembled state are arranged at a predetermined distance at the installation location, and the floor surface is respectively connected to the fixed portion K via the lower connecting member 4 by the L-shaped plate 7 and the anchor plug 8. Secure to.

つぎに、高さ調整工程として、上部連結材3上へ配置された制振ユニット6の天井面Tまでの高さ方向の配置位置を調整するため、上板31の底板の左右にある昇降タップ穴12に昇降ネジ13を螺進させ、昇降ネジ13の先端部をそれぞれ制振ユニット6の底面にあるリング状の誘導凹部60内周面に遊嵌させて制振ユニット6の底面に昇降ネジ13の先端部を当接させる。このとき制振ユニット6を、非作動状態を維持した状態で取り扱うとことで、制振ユニット6の接触面M部と天井面Tとの間に空間Uを作ることができるため、所定位置に対する制振間仕切パネル装置1の設置を容易に行える。続いて図10に示すように、更に左右の昇降ネジ13をそれぞれ上方へ螺進させ、昇降ネジ13それぞれの先端部により制振ユニット6底面を押圧して制振ユニット6の接触面Mを天井面Tに押圧させる。これにより床面Yと天井面Tに対する左右の支柱2,2’の固定が完了する。   Next, as a height adjustment step, the elevating taps on the left and right of the bottom plate of the upper plate 31 are used to adjust the arrangement position in the height direction to the ceiling surface T of the vibration control unit 6 arranged on the upper connecting member 3. The elevating screw 13 is screwed into the hole 12, and the tip end portion of the elevating screw 13 is loosely fitted to the inner peripheral surface of the ring-shaped guide recess 60 on the bottom surface of the vibration damping unit 6. The tip of 13 is brought into contact. At this time, the space U can be created between the contact surface M part of the vibration suppression unit 6 and the ceiling surface T by handling the vibration suppression unit 6 in a non-operating state. The vibration control partition panel device 1 can be easily installed. Subsequently, as shown in FIG. 10, the left and right lifting screws 13 are further screwed upward, and the bottom surfaces of the damping units 6 are pressed by the tip portions of the lifting screws 13 so that the contact surface M of the damping unit 6 is fixed to the ceiling. The surface T is pressed. This completes the fixing of the left and right columns 2, 2 'to the floor surface Y and the ceiling surface T.

つぎに、切り替え工程として、図11に示すように、上部連結材3の上板31に設けられた第1調整孔16、下板32の第2調整孔17および連結棒10,10’の第3調整孔38を通してドライバー等の先端部を挿入し、調整ネジ24を所定距離螺退させて、制振ユニット6における制振コイルばね20が押圧力を発生させる状態となるように、非作動状態から作動状態に切り替える。   Next, as a switching step, as shown in FIG. 11, the first adjustment hole 16 provided in the upper plate 31 of the upper connection member 3, the second adjustment hole 17 of the lower plate 32, and the first of the connection rods 10 and 10 ′. 3. Insert the tip of a screwdriver or the like through the adjustment hole 38 and unscrew the adjustment screw 24 by a predetermined distance so that the damping coil spring 20 in the damping unit 6 is in a state of generating a pressing force. Switch from to the operating state.

最後に、パネル取付工程として、図2に示すパネル材5の背面左右縁部に複数設けられた係合凹部29を、左右の支柱2,2’の正面および背面に複数設けられた上方に向く鉤部301を左右に有する係合鉤部材30にそれぞれ係合し(図3参照)、パネル材5を支柱2,2’に係合支持させて制振間仕切パネル装置1における第1の間仕切パネルユニット51の組み立て設置工程を完了する。第1の間仕切パネルユニット51を複数連接する場合には、各工程において複数の第1の間仕切パネルユニット51を並行して組み立てて設置するようにできる。   Finally, as a panel mounting step, a plurality of engaging recesses 29 provided on the left and right edges of the back surface of the panel material 5 shown in FIG. 2 are directed upwardly provided on the front and back surfaces of the left and right columns 2, 2 ′. The first partition panel in the vibration control partition panel device 1 is engaged with the engagement flange member 30 having the flange portions 301 on the left and right sides (see FIG. 3), and the panel member 5 is engaged and supported by the columns 2 and 2 ′. The assembly and installation process of the unit 51 is completed. When a plurality of first partition panel units 51 are connected, a plurality of first partition panel units 51 can be assembled and installed in parallel in each step.

続いて、前述した第2の間仕切パネルユニット52を図1および図12を用いて説明する。第2の間仕切パネルユニット52は、第1の間仕切パネルユニット51に対して互いに倒れにくい方向に連設されるパネルユニットであり、例えば、図1に示すように、第2の間仕切パネルユニット52が、第1の間仕切パネルユニット51に対して直交する方向に連結されて設けられる。第2の間仕切パネルユニット52の構成は、前述した第1の間仕切パネルユニット51の構成とほぼ同じ構成であるが、第2の間仕切パネルユニット52の袖パネル部材50の幅方向の長さは、第1の間仕切パネルユニット51のパネル材5の幅方向の長さより小さくするようにすることで邪魔にならないようにできる。第2の間仕切パネルユニット52は、三方向に間仕切パネルユニットを連結することができる中空の断面視略矩形状の袖パネル用支柱200,200’と、袖パネル用支柱200,200’の前後の面にそれぞれ取り付けられる、クロス等の袖パネル部材50と、袖パネル部材50の下辺側に設けられ、袖パネル用支柱200,200’に接続されるとともに、第2の間仕切パネルユニット52を床面に固定する固定部K2と、袖パネル部材50の上辺側に設けられ、袖パネル用支柱200,200’に接続されるとともに、天井面Tに接触する接触面を備える天井側接触部S2とを少なくとも有し、天井側接触部S2は、天井面Tを押圧するとともに、接触面Mと天井面Tとの接触状態を維持する押圧力を発生させる制振機構である制振ユニット61を備える。また、制振間仕切パネル装置1は、これらの袖パネル用支柱200,200’の上辺側に設けられ、袖パネル用支柱200,200’に連結されるとともに、天井側接触部S2に連結するここでは図示しない連結部としての上部連結材と、これらの支柱2,2’の下辺側に設けられ、袖パネル用支柱200,200’に連結されるとともに、固定部Kに連結される下部連結材41とを備え、上部連結材(図示せず)の上部に制振ユニット61が嵌合されており、制振ユニット61は上部連結材(図示せず)に対して着脱可能に構成され、第1の間仕切パネルユニット51と反対方向に立設された袖パネル連結用支柱200の端面には化粧板63が固定されるようになっている。下部連結材41と上部連結材の構成も前述した下部連結材4と上部連結材3と同じ構成とすることができる。袖パネル用支柱200は、三方向に第1の間仕切パネルユニット51または第2の間仕切パネルユニット52を連結するような構成となっているが、四方向に連結するような構成としてもよい。   Next, the second partition panel unit 52 described above will be described with reference to FIGS. 1 and 12. The second partition panel unit 52 is a panel unit that is connected to the first partition panel unit 51 in a direction that does not easily fall down. For example, as shown in FIG. The first partition panel unit 51 is connected in a direction orthogonal to the first partition panel unit 51. The configuration of the second partition panel unit 52 is substantially the same as the configuration of the first partition panel unit 51 described above, but the length in the width direction of the sleeve panel member 50 of the second partition panel unit 52 is: By making it smaller than the length of the width direction of the panel material 5 of the 1st partition panel unit 51, it can avoid getting in the way. The second partition panel unit 52 includes sleeve panel struts 200 and 200 ′ having a substantially rectangular shape in a cross-sectional view that can connect the partition panel units in three directions, and front and rear of the sleeve panel struts 200 and 200 ′. A sleeve panel member 50 such as a cloth attached to each surface and a lower side of the sleeve panel member 50 are connected to the sleeve panel columns 200 and 200 'and the second partition panel unit 52 is connected to the floor surface. And a ceiling-side contact portion S2 provided on the upper side of the sleeve panel member 50 and connected to the sleeve panel support columns 200 and 200 ′ and provided with a contact surface that contacts the ceiling surface T. At least, the ceiling-side contact portion S2 presses the ceiling surface T and generates a pressing force that maintains the contact state between the contact surface M and the ceiling surface T. Equipped with a Tsu door 61. Further, the vibration damping partition panel device 1 is provided on the upper side of these sleeve panel posts 200 and 200 ′, and is connected to the sleeve panel posts 200 and 200 ′ and connected to the ceiling side contact portion S2. Then, an upper connecting member as a connecting portion (not shown) and a lower connecting member provided on the lower side of these support columns 2 and 2 ′ and connected to the sleeve panel supports 200 and 200 ′ and connected to the fixing portion K. 41, and a damping unit 61 is fitted on the upper part of the upper connecting member (not shown). The damping unit 61 is detachable from the upper connecting member (not shown). A decorative plate 63 is fixed to the end surface of the sleeve panel connecting column 200 erected in the opposite direction to the one partition panel unit 51. The structures of the lower connecting member 41 and the upper connecting member can be the same as those of the lower connecting member 4 and the upper connecting member 3 described above. The sleeve panel support 200 is configured to connect the first partition panel unit 51 or the second partition panel unit 52 in three directions, but may be configured to be connected in four directions.

また、袖パネル用支柱200の他の構成例を図14に示す。図14に示されるように、袖パネル用支柱210は断面視略六角形に形成されており、袖パネル用支柱210における第1の間仕切パネルユニット51が連設されていない辺に対し、第2の間仕切パネルユニット52を連設することができるようになっている。これによれば、斜め方向(本実施例においては約60度)に第2の間仕切パネルユニット52を連設が可能であり、制振間仕切パネル装置1の設置場所に合わせて間仕切の設計を行うことができる。なお、本実施例における袖パネル用支柱210は断面視略六角形に形成されているが、袖パネル用支柱210の形状はこの限りではなく、たとえば断面視八角形や断面視多角形等に形成されていてもよく、各側面に第1の間仕切パネルユニット51または第2の間仕切パネルユニット52を連設するようにできる。このように袖パネル用支柱210の形状を変えることで、第2の間仕切パネルユニット52の第1の間仕切パネルユニット51に対する所定の角度(180度を除く)を任意の角度にすることができる。   Moreover, the other structural example of the support | pillar 200 for sleeve panels is shown in FIG. As shown in FIG. 14, the sleeve panel support 210 is formed in a substantially hexagonal shape when viewed in cross section, and the second end of the sleeve panel support 210 is not connected to the first partition panel unit 51. The partition panel unit 52 can be continuously provided. According to this, the second partition panel unit 52 can be connected in an oblique direction (about 60 degrees in this embodiment), and the partition is designed according to the installation location of the vibration control partition panel device 1. be able to. The sleeve panel support 210 in the present embodiment is formed in a substantially hexagonal shape in cross section, but the shape of the sleeve panel support 210 is not limited to this, and is formed in, for example, an octagon in cross section or a polygon in cross section. The first partition panel unit 51 or the second partition panel unit 52 may be provided continuously on each side surface. By changing the shape of the sleeve panel support 210 in this way, the predetermined angle (except for 180 degrees) of the second partition panel unit 52 with respect to the first partition panel unit 51 can be set to an arbitrary angle.

第1の間仕切パネルユニット51と同様に袖パネル材50は、袖パネル連結用支柱200の側面に複数設けられた袖パネル係合鉤部材300に対し、ここでは図示しない袖パネル材50の背面左右縁部に複数設けられた係合凹部がそれぞれ係合して袖パネル連結用支柱200に対し固定されるようになっている。また、袖パネル係合鉤部材300には第1の間仕切パネルユニット51におけるパネル部材5の背面左右縁部に複数設けられた係合凹部29もそれぞれ係合するようになっている。このように、袖パネル係合鉤部材300は、第1の間仕切パネルユニット51と第2の間仕切パネルユニット52とを係合する係合部として機能する。また、袖パネル係合鉤部材300の代わりに、前述した係合鉤部材30を、各間仕切パネルユニットに対応するように設けてもよい。   Similar to the first partition panel unit 51, the sleeve panel member 50 has a plurality of sleeve panel engaging collar members 300 provided on the side surface of the sleeve panel connection column 200, and the back side left and right sides of the sleeve panel member 50 not shown here. A plurality of engaging recesses provided at the edge are respectively engaged and fixed to the sleeve panel connecting column 200. The sleeve panel engagement collar member 300 is also engaged with a plurality of engagement recesses 29 provided at the left and right edges of the back surface of the panel member 5 in the first partition panel unit 51. Thus, the sleeve panel engagement collar member 300 functions as an engagement portion that engages the first partition panel unit 51 and the second partition panel unit 52. Moreover, you may provide the engagement collar member 30 mentioned above instead of the sleeve panel engagement collar member 300 so as to correspond to each partition panel unit.

本実施例によれば、第2の間仕切パネルユニット52は、第1の間仕切パネルユニット51に対して互いに倒れにくい方向に連設されることができる。互いに倒れにくい方向に連接されるとは、第2の間仕切パネルユニット52が第1の間仕切パネルユニット51に対して所定の角度(180度を除く)で連接されることをいい、例えば、図12に示されるように、第2の間仕切パネルユニット52が第1の間仕切パネルユニット51に対して90度で連接されて、第1の間仕切パネルユニット51と第2の間仕切パネルユニット52とが直交するように連接される場合である。これによれば、第2の間仕切パネルユニット52は、第1の間仕切パネルユニット51に互いに倒れにくい方向に連設されるため、第1の間仕切パネルユニット51と第2の間仕切パネルユニット52とで支え合い、制振間仕切パネル装置1の転倒をより防ぐことができる。   According to the present embodiment, the second partition panel unit 52 can be connected to the first partition panel unit 51 in a direction in which the second partition panel unit 51 does not easily fall over. To be connected in a direction in which they do not easily fall down means that the second partition panel unit 52 is connected to the first partition panel unit 51 at a predetermined angle (except for 180 degrees), for example, FIG. As shown in FIG. 2, the second partition panel unit 52 is connected to the first partition panel unit 51 at 90 degrees, and the first partition panel unit 51 and the second partition panel unit 52 are orthogonal to each other. It is a case where it is connected. According to this, since the second partition panel unit 52 is connected to the first partition panel unit 51 in a direction in which the second partition panel unit 51 does not easily fall down, the first partition panel unit 51 and the second partition panel unit 52 Supporting each other and preventing the damping partition device 1 from falling over can be prevented.

また、図12に示されるように、第1の間仕切パネルユニット51と前記第2の間仕切パネルユニット52とは、左右一方の袖パネル連結用支柱200を共有する態様になっており、第1の間仕切パネルユニット51と第2の間仕切パネルユニット52との連設が袖パネル連結用支柱200で簡単に行うことができる。   Further, as shown in FIG. 12, the first partition panel unit 51 and the second partition panel unit 52 share the left and right sleeve panel connection struts 200, and Connection of the partition panel unit 51 and the second partition panel unit 52 can be easily performed by the sleeve panel connecting column 200.

また図13に示されるように、第2の間仕切パネルユニット52は、所定間隔を置いて互いに他方に向けて袖パネル連結用支柱200に連接される態様になっていてもよい。これによれば、第2の間仕切パネルユニット52を第1の間仕切パネルユニット51に対して、前後双方に倒れにくい方向に連設することができる。   As shown in FIG. 13, the second partition panel unit 52 may be connected to the sleeve panel connecting column 200 toward the other side with a predetermined interval therebetween. According to this, the 2nd partition panel unit 52 can be connected with the 1st partition panel unit 51 in the direction which is hard to fall down to both front and back.

次に、上記実施例1における切り替え手段の他の構成について、実施例2として、図15を参照して説明する。尚、前記実施例1と同一構成で重複する構成の説明は省略する。   Next, another configuration of the switching means in the first embodiment will be described as a second embodiment with reference to FIG. In addition, description of the same structure as the said Example 1 and the overlapping is abbreviate | omitted.

実施例2においては、制振コイルばね20の制振機構6の押圧力を発生させる状態の作動状態と、非作動状態とを切り替える切り替え手段が、図15に示されるように、第2チャネル23の底板に穿設された規制孔110と、規制孔110を挿通可能なように第1チャネル22天板内側面26に固着された軸芯100と、軸芯100の下方に穿設されたピン孔111と、このピン孔111に貫通して遊嵌されるピン101とにより構成されている。また、ピン101は、ピン101をスライドさせるときに取っ手となる取手105を備えている。   In the second embodiment, as shown in FIG. 15, the switching means for switching between the operating state in which the pressing force of the damping mechanism 6 of the damping coil spring 20 is generated and the non-operating state are provided in the second channel 23. A restriction hole 110 drilled in the bottom plate of the first shaft 22, a shaft core 100 fixed to the inner side surface 26 of the first channel 22 so that the restriction hole 110 can be inserted, and a pin drilled below the shaft core 100. It comprises a hole 111 and a pin 101 that is loosely fitted through the pin hole 111. The pin 101 includes a handle 105 that serves as a handle when the pin 101 is slid.

続いて本実施例における切り替え手段の動作について説明する。制振ユニット6の設置前に、制振コイルばね20の付勢力を規制し、規制孔110から軸芯100の下方に穿設されたピン孔111を突出させた状態で、ピン孔111にピン101を遊嵌させ、制振コイルばね20を非作動状態にする。制振ユニット6の設置後には、上部連結材3の上板31に設けられた第1操作孔102と、第1操作孔102の真下に位置するように上部連結材3の下板32に設けられた第2操作孔103および連結棒10に設けられた第3操作孔104を利用して、取手105を持ってピン孔111よりピン101をスライドさせて引き抜き、制振コイルばね20を作動状態に切り替えることができる。この場合、昇降ネジ13により、制振ユニット6の底面の誘導凹部60を押圧することで制振ユニット6の高さ方向の寸法Hを調整することができる。   Subsequently, the operation of the switching means in the present embodiment will be described. Before the damping unit 6 is installed, the biasing force of the damping coil spring 20 is regulated, and the pin hole 111 drilled below the shaft core 100 protrudes from the regulation hole 110 to the pin hole 111. 101 is loosely fitted, and the damping coil spring 20 is deactivated. After the vibration damping unit 6 is installed, the first operating hole 102 provided in the upper plate 31 of the upper connecting member 3 and the lower plate 32 of the upper connecting member 3 so as to be positioned directly below the first operating hole 102 are provided. Using the second operation hole 103 and the third operation hole 104 provided in the connecting rod 10, the pin 101 is slid out of the pin hole 111 with the handle 105, and the damping coil spring 20 is activated. You can switch to In this case, the dimension H in the height direction of the damping unit 6 can be adjusted by pressing the guide recess 60 on the bottom surface of the damping unit 6 with the lifting screw 13.

実施例2によれば、切り替え手段を、軸芯100に設けたピン孔111にピン101を抜き差しすることで、非作動状態から、制振機構の押圧力を発生させる状態の作動状態に簡単に切り替えることができる。   According to the second embodiment, the switching means can be easily changed from the non-operating state to the operating state in which the pressing force of the vibration damping mechanism is generated by inserting and removing the pin 101 in the pin hole 111 provided in the shaft core 100. Can be switched.

以上説明したように、本発明の制振間仕切パネル装置1は、支柱2と2’もしくは20と20’の間にパネル部材5を取り付ける第1の間仕切パネルユニット51と、この第1の間仕切パネルユニット51に対して互いに倒れにくい方向に連設されるとともに、支柱200,200’の間に袖パネル部材50を取り付ける第2の間仕切パネルユニット52とを有し、第1の間仕切パネルユニット51および第2の間仕切パネルユニット52は、パネル部材5および袖パネル部材50の下辺側に設けられ、支柱2もしくは200に接続されるとともに、当該間仕切パネル装置を床面に固定する固定部Kと、パネル部材5および袖パネル部材50の上辺側に設けられ、支柱2もしくは200に接続されるとともに、天井面Tに接触する接触面Mを備える天井側接触部SおよびS2とをそれぞれ有し、天井側接触部SおよびS2は、天井面Tを押圧するとともに、接触面Mと天井面Tとの接触状態を維持する押圧力を発生させる制振機構を備えることで、地震等の災害時における衝撃が起こった場合には、天井側接触部SおよびS2の制振機構により、接触面Mと前記天井面Sとの接触状態を維持する押圧力を発生させるので、衝撃により生じる天井の破損や間仕切パネルの転倒および破損を防止することができる。また、第2の間仕切パネルユニット52は、第1の間仕切パネルユニット51に互いに倒れにくい方向に連設されるので、間仕切パネルの転倒をより防ぐことができる。例えば、第2の間仕切パネルユニット52が第1の間仕切パネルユニット51に対して90度や45度で連接される場合には、第1の間仕切パネルユニット51と第2の間仕切パネルユニット52とで支えあうため、間仕切パネルを転倒しにくくすることができる。   As described above, the vibration-damping partition panel device 1 of the present invention includes the first partition panel unit 51 in which the panel member 5 is attached between the columns 2 and 2 ′ or 20 and 20 ′, and the first partition panel. The unit 51 has a second partition panel unit 52 that is connected to the unit 51 in a direction in which the sleeve 51 is not easily tilted and attaches the sleeve panel member 50 between the columns 200 and 200 ′. The second partition panel unit 52 is provided on the lower side of the panel member 5 and the sleeve panel member 50, is connected to the support column 2 or 200, and fixes the partition panel device to the floor surface. A contact surface M provided on the upper side of the member 5 and the sleeve panel member 50 is connected to the support column 2 or 200 and contacts the ceiling surface T. The ceiling-side contact portions S and S2 respectively press the ceiling surface T and generate a pressing force that maintains the contact state between the contact surface M and the ceiling surface T. By providing the vibration control mechanism, when an impact occurs during a disaster such as an earthquake, the contact state between the contact surface M and the ceiling surface S is maintained by the vibration control mechanism of the ceiling side contact portions S and S2. Since the pressing force is generated, it is possible to prevent the breakage of the ceiling and the fall and breakage of the partition panel caused by the impact. Further, since the second partition panel unit 52 is connected to the first partition panel unit 51 in a direction in which the second partition panel unit 51 does not easily fall over, the partition panel can be prevented from falling over. For example, when the second partition panel unit 52 is connected to the first partition panel unit 51 at 90 degrees or 45 degrees, the first partition panel unit 51 and the second partition panel unit 52 In order to support each other, the partition panel can be made difficult to fall.

また本発明の制振間仕切パネル装置は、第1の間仕切パネルユニット51と第2の間仕切パネルユニット52とは、一方の支柱200を共有することができるため、第1の間仕切パネルユニット51と前記第2の間仕切パネルユニット52とが、支柱200を共有するので、第1の間仕切パネルユニット51と第2の間仕切パネルユニット52との連設が支柱200で簡単に行うことができる。   Moreover, since the 1st partition panel unit 51 and the 2nd partition panel unit 52 can share one support | pillar 200, the 1st partition panel unit 51 and the said vibration suppression partition panel apparatus of this invention Since the second partition panel unit 52 shares the column 200, the first partition panel unit 51 and the second partition panel unit 52 can be easily connected with the column 200.

また、本発明の制振間仕切パネル装置は、制振機構の押圧力を発生させる状態の作動状態と、非作動状態とを切り替える切り替え手段を備えるため、設置前には、制振機構を非作動状態に切り替えておき、設置場所に設置後、制振機構を作動状態に切り替えることで、押圧力を発生させるようにできる。これにより、設置前の移動時や設置時には、制振機構を非作動状態のままで取り扱うとことができるので、移動や設置作業が簡単になる。また、移動時や設置作業時にバネが必要以上に伸びたりするのを防ぐことができ、さらに、設置後に作動状態に切り替えることで、バネが良好に作動されるようになる。   In addition, the vibration damping partition panel device of the present invention includes switching means for switching between an operation state in which the pressing force of the vibration suppression mechanism is generated and a non-operation state, so that the vibration suppression mechanism is not operated before installation. It is possible to generate a pressing force by switching to the state and switching the vibration control mechanism to the operating state after installation at the installation location. Thereby, when moving before installation or during installation, the vibration control mechanism can be handled in a non-operating state, so that the movement and installation are simplified. Further, it is possible to prevent the spring from extending more than necessary during movement or installation work, and the spring can be operated satisfactorily by switching to the operating state after installation.

また、本発明の制振間仕切パネル装置1は、制振ユニット6が、制振ユニット6の天井面Tまでの高さ方向の寸法H並びに押圧力を調整する押圧力調整手段として、調整ネジ24およびネジ筒27、または、昇降ネジ13を備えることで、設置場所の状況に応じて、任意の天井面までの高さ方向の寸法と、押圧力を調整することができる。   Further, in the vibration damping partition panel device 1 of the present invention, the adjusting screw 24 is used as the pressing force adjusting means for the damping unit 6 to adjust the dimension H in the height direction to the ceiling surface T of the damping unit 6 and the pressing force. In addition, by providing the screw cylinder 27 or the elevating screw 13, it is possible to adjust the dimension in the height direction to an arbitrary ceiling surface and the pressing force according to the situation of the installation place.

また、本発明の制振間仕切パネル装置1は、支柱200は、第1の間仕切パネルユニット51と第2の間仕切パネルユニット52の各パネル部材5、50を係合する袖パネル係合鉤部材300を備えることで、簡単に支柱200とパネル部材5、50とを係合させることができる。   Further, in the vibration damping partition panel device 1 according to the present invention, the support column 200 engages the panel members 5 and 50 of the first partition panel unit 51 and the second partition panel unit 52 with the sleeve panel engagement collar member 300. With this, the support column 200 and the panel members 5 and 50 can be easily engaged.

また、地震等の災害時における衝撃等により、瞬間的に床面と天井面との高さ方向の長さが変形した際など、万一制振間仕切パネル装置1が傾いた際にも、制振コイルばね20が伸びて天井側接触部Sが天井面Tに斜めに押圧されるため、制振間仕切パネル装置1がそれ以上傾くのを防止して、転倒および破損を防止することができる。   In addition, even when the vibration damping partition panel device 1 is tilted, such as when the height in the height direction between the floor surface and the ceiling surface is momentarily deformed due to an impact at the time of a disaster such as an earthquake, the vibration control partition panel device 1 is also controlled. Since the vibration coil spring 20 is extended and the ceiling side contact portion S is obliquely pressed against the ceiling surface T, the damping partition panel device 1 can be prevented from further tilting, and can be prevented from being overturned and damaged.

本実施例においては、搬入時や設置時に、制振ユニット6の非作動状態として、第1チャネル材22と第2チャネル材23との高さ方向の寸法を、一番小さくなるようにしていたが、調整ネジ24とネジ筒27との螺合を中間位置ぐらいの任意の位置に調整しておいてもよい。この場合、上板31の底板の昇降タップ穴12に昇降ネジ13を螺進させることで、昇降ネジ13の先端部により制振ユニット6の第2チャネル材23の底面を押圧して制振ユニット6の接触面Mを天井面Tに押圧させるとともに、制振ユニット6の第2チャネル材23と第1チャネル材22との高さ方向の長さHを縮めるようにすることで、高さ調整と切り替え工程とを同時に行うようにできる。   In the present embodiment, the dimension of the first channel member 22 and the second channel member 23 in the height direction is made the smallest when the vibration suppression unit 6 is in an inoperative state at the time of carry-in or installation. However, the screwing of the adjusting screw 24 and the screw cylinder 27 may be adjusted to an arbitrary position such as an intermediate position. In this case, the elevating screw 13 is screwed into the elevating tap hole 12 of the bottom plate of the upper plate 31, thereby pressing the bottom surface of the second channel member 23 of the damping unit 6 with the tip of the elevating screw 13. 6 is pressed against the ceiling surface T, and the height H of the vibration control unit 6 in the height direction between the second channel member 23 and the first channel member 22 is reduced. And the switching step can be performed simultaneously.

また、本発明における制振間仕切パネル装置1の設置工程は上述の限りではなく、たとえば、制振ユニット6における第1チャネル材22と第2チャネル材23との高さ方向の寸法H並びに押圧力を調整することにより制振ユニット6における押圧力調整手段を発揮させるような工法を行うことができる。   Further, the installation process of the vibration damping partition panel device 1 in the present invention is not limited to the above. For example, the dimension H in the height direction and the pressing force of the first channel material 22 and the second channel material 23 in the vibration damping unit 6 are included. By adjusting the above, it is possible to perform a construction method in which the pressing force adjusting means in the vibration damping unit 6 is exhibited.

詳しくは、昇降ネジ13により制振ユニット6の底面位置を上方に移動させる際、制振ユニット6の接触面Mと天井面Tとの間に任意の距離で空間Uが設けられた位置まで制振ユニット6を移動させ、次に調整ネジ24のネジ筒27との螺合の深さが短くなるように調整ネジ24をゆるめて調整して、第1チャネル材22と第2チャネル材23との高さ方向の寸法Hを伸ばすことで、制振ユニット6の接触面M部を天井面Tに押圧させるような工法を行うことができる。これによれば、制振ユニット6の天井面Tまでの高さ方向の寸法並びに押圧力を調整することができるので、設置場所の状況に応じて、任意の天井面までの高さ方向の寸法と、押圧力を調整することができる。たとえば、上述したように第1チャネル材22と第2チャネル材23との高さ方向の寸法Hを伸ばした状態で天井面Tに押圧すれば、天井面Tにかかる押圧力を低減させることができ、天井面Tの劣化および破損を防ぐことができる。   Specifically, when the bottom position of the vibration suppression unit 6 is moved upward by the lifting screw 13, the vibration is suppressed to a position where the space U is provided at an arbitrary distance between the contact surface M and the ceiling surface T of the vibration suppression unit 6. The vibration unit 6 is moved, and then the adjustment screw 24 is loosened and adjusted so that the depth of screwing of the adjustment screw 24 with the screw cylinder 27 is shortened, and the first channel material 22 and the second channel material 23 By extending the dimension H in the height direction, a method of pressing the contact surface M portion of the vibration damping unit 6 against the ceiling surface T can be performed. According to this, since the dimension in the height direction and the pressing force to the ceiling surface T of the vibration control unit 6 can be adjusted, the dimension in the height direction to an arbitrary ceiling surface according to the situation of the installation location. The pressing force can be adjusted. For example, as described above, if the ceiling surface T is pressed with the dimension H in the height direction of the first channel material 22 and the second channel material 23 extended, the pressing force applied to the ceiling surface T can be reduced. And deterioration and breakage of the ceiling surface T can be prevented.

以上、本発明の実施例を図面により説明してきたが、具体的な構成はこれら実施例に限られるものではなく、本発明の要旨を逸脱しない範囲における変更や追加があっても本発明に含まれる。   Although the embodiments of the present invention have been described with reference to the drawings, the specific configuration is not limited to these embodiments, and modifications and additions within the scope of the present invention are included in the present invention. It is.

天井側接触部Sには、連結部Rを含めるように構成されるようにしてもよい。また天井側接触部Sとしては、支柱の上部部分のみに制振ユニット6を組み込むようにしてもよい。   The ceiling side contact portion S may be configured to include the connecting portion R. Moreover, as the ceiling side contact part S, you may make it incorporate the damping unit 6 only in the upper part of a support | pillar.

制振機構には制振コイルばね20が用いられているが、付勢力を持つものであればよく、たとえば板ばね等が用いられてもよい。   Although the damping coil spring 20 is used for the damping mechanism, any damping spring may be used, for example, a leaf spring or the like may be used.

1 制振間仕切パネル装置
2,2’ 支柱
3 上部連結材(連結部)
4 下部連結材
5 パネル部材
6 制振ユニット
9,9’ 支柱連結金具
10,10’ 連結棒
12 昇降タップ穴
13 昇降ボルト
14 固定タップ穴
15 固定ネジ
20 制振コイルばね(制振機構)
22 第1チャネル材
23 第2チャネル材
24 調整ネジ
27 ネジ筒
29 係合凹部
30 係合鉤部材
50 袖パネル
60 誘導凹部
301 鉤部
T 天井面
Y 床面
S 天井側接触部
K 固定部
R 連結部
M 接触面
1 Damping partition panel device 2, 2 'Post 3 Upper connecting material (connecting part)
4 Lower connecting member 5 Panel member 6 Damping unit 9, 9 'Strut coupling bracket 10, 10' Connecting rod 12 Lifting tap hole 13 Lifting bolt 14 Fixing tap hole 15 Fixing screw 20 Damping coil spring (damping mechanism)
22 1st channel material 23 2nd channel material 24 Adjustment screw 27 Screw cylinder 29 Engaging recess 30 Engagement flange member 50 Sleeve panel 60 Guidance recess 301 Ling portion T Ceiling surface Y Floor surface S Ceiling side contact portion K Fixing portion R Connection Part M Contact surface

Claims (4)

支柱の間にパネル部材を取り付ける第1の間仕切パネルユニットと、
前記第1の間仕切パネルユニットに対して互いに倒れにくい方向に前後に連設されるとともに、支柱の間にパネル部材を取り付ける第2の間仕切パネルユニットとを有し、
前記第1および第2の間仕切パネルユニットは、
前記パネル部材の下辺側に設けられ、前記支柱に接続されるとともに、当該間仕切パネル装置を床面に固定する固定部を有し、
前記パネル部材の上辺側に設けられ、前記支柱に接続されるとともに、天井面に接触する天井側接触部が前記第1および第2の間仕切パネルユニットにそれぞれ独立して個別に設けられ、
前記天井側接触部は、支柱同士を接続する連結部と、該連結部の上に遊嵌載置される制振ユニットとを備え、
前記制振ユニットは、制振コイルばねと、該制振コイルばねにより天井に押圧される杆状部材と、前記制振コイルばねの外部への付勢力を発生させる状態の作動状態と該作動状態より該制振ユニットの上下長が短い状態で前記制振コイルばねの外部への付勢力を発生させない非作動状態とを切り替える切り替え手段と、を備え、
前記杆状部材の上面には前記天井面に直接接触する弾性体の接触面を備え
前記連結部は、前記制振ユニットの前記天井面までの高さ方向の配置位置を当該連結部に対して上下に移動調整させる移動手段を備え
ことを特徴とする制振間仕切パネル装置。
A first partition panel unit for attaching a panel member between the columns;
The first partition panel unit is connected to the front and rear in a direction in which the first partition panel unit does not easily fall down, and has a second partition panel unit for attaching a panel member between the columns.
The first and second partition panel units are:
Provided on the lower side of the panel member, connected to the column, and having a fixing portion for fixing the partition panel device to the floor surface,
Provided on the upper side of the panel member, connected to the support column, and a ceiling-side contact portion that contacts the ceiling surface is provided individually and independently on the first and second partition panel units,
The ceiling-side contact portion includes a connecting portion that connects the columns, and a vibration control unit that is loosely mounted on the connecting portion.
The damping unit includes a damping coil spring, a rod-shaped member which is pressed to the ceiling by該制vibration coil spring, the operating state and the operating state of the state for generating a biasing force to the outside of the damping coil spring Switching means for switching between a non-operating state in which the biasing force to the outside of the damping coil spring is not generated when the vertical length of the damping unit is shorter ,
The upper surface of the rod-shaped member provided with a contact surface of the elastic member in direct contact with the ceiling surface,
The connecting portion, the vibration damping partition panel system, characterized in that Ru comprising a moving means for moving the adjustment up or down the position in the height direction to the ceiling surface of the damping unit with respect to the connecting portion.
前記第1の間仕切パネルユニットと前記第2の間仕切パネルユニットとは、一方の支柱を共有することを特徴とする請求項1に記載の制振間仕切パネル装置。   The vibration control partition panel device according to claim 1, wherein the first partition panel unit and the second partition panel unit share one support column. 前記制振ユニットは、当該制振ユニットの前記天井面までの高さ方向の寸法並びに前記押圧力を調整する押圧力調整手段を備えることを特徴とする請求項1または2に記載の制振間仕切パネル装置。 The said damping unit is provided with the pressing force adjustment means which adjusts the dimension of the height direction to the said ceiling surface of the said damping unit and the said pressing force, The damping damping partition of Claim 1 or 2 characterized by the above-mentioned. Panel device. 前記支柱は、前記第1および第2の間仕切パネルユニットの各パネル部材を係合する係合部を備えることを特徴とする請求項2に記載の制振間仕切パネル装置。   The vibration control partition panel device according to claim 2, wherein the support column includes an engaging portion that engages each panel member of the first and second partition panel units.
JP2011239543A 2011-10-31 2011-10-31 Vibration control partition panel device Expired - Fee Related JP6063621B2 (en)

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