JPH0247738Y2 - - Google Patents
Info
- Publication number
- JPH0247738Y2 JPH0247738Y2 JP1984144445U JP14444584U JPH0247738Y2 JP H0247738 Y2 JPH0247738 Y2 JP H0247738Y2 JP 1984144445 U JP1984144445 U JP 1984144445U JP 14444584 U JP14444584 U JP 14444584U JP H0247738 Y2 JPH0247738 Y2 JP H0247738Y2
- Authority
- JP
- Japan
- Prior art keywords
- view
- partition body
- partition
- floor
- pinion
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Specific Sealing Or Ventilating Devices For Doors And Windows (AREA)
Description
【考案の詳細な説明】
[技術分野]
本考案は、上下レールに沿つて間仕切り体を吊
下げ走行させて間仕切りを行う間仕切り装置に関
し、詳しくは閉状態において床との間の隙間を無
くそうとするとともに間仕切り体の走行を軽く行
おうとする技術に関する。[Detailed description of the invention] [Technical field] The present invention relates to a partition device that partitions a room by suspending the partition body along upper and lower rails, and specifically aims to eliminate the gap between it and the floor in the closed state. The present invention also relates to a technology that allows the partition body to move easily.
[背景技術]
従来、上下レールに沿つて間仕切り体を吊下げ
走行させて開口部の開閉を行う間仕切り装置にお
いては、その閉状態において床との間に隙間がで
き、遮光、遮音及び遮風などの点において問題が
あつた。このような問題を解消するのに、実開昭
52−126643号公報のように、接床部材を常に下方
に付勢した状態で設ける場合には、その接床部材
が走行時に抵抗となり、間仕切り体の走行が重く
なるという問題があつた。[Background Art] Conventionally, in a partition device in which an opening is opened and closed by suspending a partition body along upper and lower rails, a gap is created between the partition body and the floor in the closed state, and this creates a gap between the partition body and the floor, resulting in light shielding, sound insulation, wind shielding, etc. There was a problem with this point. To solve this problem, Jitsukaiaki
When the floor-contacting member is provided in a state where it is always urged downward, as in Japanese Patent No. 52-126643, there is a problem that the floor-contacting member acts as resistance during traveling, making it difficult for the partition to travel.
[考案の目的]
本考案はこのような問題に鑑みてなされたもの
であり、その目的とするところは、吊下げ状態で
走行させる間仕切り体の閉状態において、間仕切
り体と床との間に隙間を生じさせることがなく、
かつ接床部材が存在しても間仕切り体の走行を軽
く行うことができる間仕切り装置を提供すること
にある。[Purpose of the invention] The present invention was made in view of the above problems, and its purpose is to reduce the gap between the partition and the floor when the partition is in the closed state and is run in a suspended state. without causing
Another object of the present invention is to provide a partition device that allows the partition body to move easily even when a floor contacting member is present.
[考案の開示]
本考案は、上レール1及び下レール2に沿つて
間仕切り体4を吊下げ走行自在に建て込み、間仕
切り体4の下部に間仕切り体4の略全幅にわたつ
て接床部材65を昇降自在に設け、接床部材65
を昇降操作させる操作具79を間仕切り体4に設
け、接床部材65の下端部には接床部材65が下
降したときに下レール2の凹溝85に嵌入する嵌
入部86を形成して成る間仕切り装置にかかるも
のであり、このように構成することにより、上記
目的を達成できるに至つた。つまり、接床部材6
5を下降させたときにその下端部の嵌入部86を
下レール2の凹溝85に嵌入させることにより、
間仕切り体4と床との間の隙間をなくすことがで
き、しかも接床部材を昇降操作させる操作具を間
仕切り体に設けることで、間仕切り体に設けてあ
る操作具の操作にて接床部材を昇降させ、接床部
材を下降させることで、充分な遮断性を得ること
ができながら、操作具の操作にて接床部材を上昇
させて間仕切り体を軽く走行させることができる
ようにしたものである。[Disclosure of the Invention] In the present invention, the partition body 4 is installed along the upper rail 1 and the lower rail 2 so that the partition body 4 can be suspended and run freely, and a floor contact member 65 is installed at the lower part of the partition body 4 over substantially the entire width of the partition body 4. is provided so that it can be raised and lowered freely, and the floor contact member 65
An operating tool 79 for raising and lowering the floor is provided on the partition 4, and a fitting part 86 is formed at the lower end of the flooring member 65 to fit into the groove 85 of the lower rail 2 when the flooring member 65 is lowered. This relates to a partitioning device, and by configuring it in this way, the above object can be achieved. In other words, the floor contact member 6
5 is lowered, by fitting the fitting part 86 at the lower end into the groove 85 of the lower rail 2,
It is possible to eliminate the gap between the partition body 4 and the floor, and by providing the partition body with an operation tool for raising and lowering the floor contact member, the floor contact member can be moved by operating the operation tool provided on the partition body. By raising and lowering the partition and lowering the floor-contacting member, sufficient insulation performance can be obtained, and the partition body can be moved easily by raising the floor-contacting member by operating the operating tool. be.
以下本考案の実施例を図面に基づいて詳述す
る。 Embodiments of the present invention will be described in detail below based on the drawings.
鴨居に固定された上レール1と敷居に固定され
た下レール2とにわたつて複数枚の間仕切りパネ
ルのような間仕切り体4を各々走行自在に建て込
んである。これら間仕切り体4は第1図のように
上下レール1,2に沿つて一直線状に引き出し、
隣接のものを互いに当接することで室内の開口を
閉成して間仕切りを行うことができるようにして
ある。このような閉成状態においては、間仕切り
体4に設けた後述する接床部材65をロツク手段
として、走行をロツクして間仕切り体4の各々の
位置を確定して間仕切り体4が開くことがないよ
うにしてある。間仕切り体4を開いて間仕切りを
解除するには、第1図の右端の間仕切り体4のロ
ツクハンドル6を操作して、この間仕切り体4の
ロツク手段のロツクを解除して第3図のように右
端の間仕切り体4をその右端部分を中心に上下レ
ール1,2に対して略直交させるように回転させ
て開き、その後、残りの間仕切り体4のロツク状
態を各々解除し、第3図のように残りの間仕切り
体4を各々右端部分を中心に回転させて非間仕切
り状態にするのである。このように非間仕切り状
態に回転させた間仕切り体4は上下レール1,2
の左端に集められ、しかして室内の開口を大きく
開いて間仕切りを解除することができるようにし
てある。 A plurality of partition bodies 4 such as partition panels are movably built between an upper rail 1 fixed to a lintel and a lower rail 2 fixed to a sill. These partition bodies 4 are pulled out in a straight line along the upper and lower rails 1 and 2 as shown in FIG.
By abutting adjacent ones against each other, the opening in the room can be closed and partitioned. In such a closed state, the floor contact member 65 provided on the partition body 4, which will be described later, is used as a locking means to lock the movement and determine the position of each partition body 4, so that the partition body 4 will not open. It's like this. To open the partition body 4 and release the partition, operate the lock handle 6 of the partition body 4 at the right end in FIG. The partition body 4 at the right end is rotated around its right end portion so as to be approximately orthogonal to the upper and lower rails 1 and 2 to open it, and then the remaining partition bodies 4 are released from the locked state, as shown in Fig. 3. Then, the remaining partition members 4 are rotated around their right end portions to bring them into a non-partition state. The partition body 4 rotated into a non-partition state in this way is connected to the upper and lower rails 1 and 2.
The rooms are gathered at the left end of the room, allowing the interior of the room to be opened wide and the partition to be removed.
以下上述の動作を行う構成を詳しく説明する。 The configuration for performing the above operations will be described in detail below.
第5図のように上レール1は全長にわたるラツ
ク・ピニオン室7とこれよりも下方のランナー室
8とに分けてあり、下レール2には第6図のよう
にラツク・ピニオン室7のみを全長に形成してあ
る。各々のラツク・ピニオン室7の一側縦壁がわ
にはラツク保持片9を全長に設けてある。ラツク
ギア3は第7図乃至第9図に示すように、上下レ
ール1,2に比べてその長さが相当に短くしてあ
る。ラツクギア3の長さ方向一端部には接続凸部
11を形成してあり、他端部には接続凹部12を
形成してある。又、ラツクギア3には全長にわた
つて係合溝10を形成してある。しかしてラツク
保持片9に係合溝10を係合するとともに接続凹
部12に接続凸部11を接続して、上下レール
1,2のラツク・ピニオン室7の一側の縦壁に沿
つてラツクギア3を上下レール1,2の全長にわ
たつて設けてある。係合溝10の溝側壁には突起
62を設けることにより、ラツク保持片9に係合
させるときの摺接抵抗を軽減させることができる
ようにしてある。このようなラツクギア3は合成
樹脂の成形品である。 As shown in FIG. 5, the upper rail 1 is divided into a rack and pinion chamber 7 extending over its entire length and a runner chamber 8 below this, while the lower rail 2 has only the rack and pinion chamber 7 as shown in FIG. It is formed to the full length. A rack holding piece 9 is provided along the entire length of one vertical wall of each rack and pinion chamber 7. As shown in FIGS. 7 to 9, the rack gear 3 is considerably shorter in length than the upper and lower rails 1 and 2. A connecting protrusion 11 is formed at one end in the length direction of the rack gear 3, and a connecting recess 12 is formed at the other end. Furthermore, an engagement groove 10 is formed in the rack gear 3 over its entire length. Thus, by engaging the engagement groove 10 with the rack holding piece 9 and connecting the connecting protrusion 11 with the connecting recess 12, the rack gear is inserted along the vertical wall on one side of the rack and pinion chamber 7 of the upper and lower rails 1 and 2. 3 is provided over the entire length of the upper and lower rails 1 and 2. Protrusions 62 are provided on the side walls of the engagement groove 10 to reduce sliding resistance when engaging the rack holding piece 9. Such a rack gear 3 is a molded product of synthetic resin.
上下レール1,2のラツク・ピニオン室7内に
設けたラツクギア3には間仕切り体4側に水平回
転自在に設けたピニオンギア5を各々噛合させる
とともに間仕切り体4側に横軸廻りに上下回転自
在に設けたランナー13を上レール1のランナー
室8のランナー受け面14上に転動自在に載設し
てあり、間仕切り体4が走行するに当たつて、ラ
ツクギア3にピニオンギア5が噛合している噛合
状態を維持しながらランナー13がランナー受け
面14上を転動するようにしてある。このよう
に、ラツクギア3にピニオンギア5が噛合しなが
ら間仕切り体4の走行を行なうようにすること
で、間仕切り体4の上下部分の走行量を等しくし
て間仕切り体4ががたつきなく走行できるように
してある。かかる場合、ラツクギア3とピニオン
ギア5との噛合箇所には間仕切り体4の荷重がか
かることがないようにして、その噛合状態に無理
がかかることがないようにしてある。以下その構
成を説明する。 Rack gears 3 provided in the rack and pinion chambers 7 of the upper and lower rails 1 and 2 mesh with pinion gears 5 provided horizontally rotatably on the partition body 4 side, and also rotatably vertically around a horizontal axis on the partition body 4 side. A runner 13 provided in the runner chamber 8 of the upper rail 1 is rotatably mounted on the runner receiving surface 14 of the runner chamber 8, and when the partition body 4 runs, the pinion gear 5 meshes with the rack gear 3. The runner 13 is configured to roll on the runner receiving surface 14 while maintaining the engaged state. In this way, by allowing the partition body 4 to travel while the pinion gear 5 meshes with the rack gear 3, the traveling distance of the upper and lower portions of the partition body 4 is made equal, and the partition body 4 can travel without wobbling. It's like this. In such a case, the load of the partition body 4 is not applied to the meshing portion between the rack gear 3 and the pinion gear 5, so that the meshing state is not strained. The configuration will be explained below.
第10図乃至第12図はランナー保持ブロツク
15を示していて、L字状のブロツク本体17に
取付け孔16を設け、ブロツク本体17の縦板1
8の上端部分にねじ孔19を形成した筒部20を
設けてある。しかしてランナー保持ブロツク15
を間仕切り体4の一側端部の上部隅部にビスにて
第13図及び第14図のように取付けてある。第
16図及び第17図a,bはランナー部21を示
し、ピニオン軸22に上記ピニオンギア5を一体
回転可能に挿合し、ピニオンギア5の下部にベア
リング23を当接させ、Eリング24にてピニオ
ンギア5の抜け止めを図つてある。一方、第17
図bのように、ケーシング25に略U字状の強度
メンバー26を嵌め込み、ケーシング25と強度
メンバー26との中央孔27に筒状の外軸28を
挿通し、押さえブロツク29を略U字状の強度メ
ンバー26に嵌め込み、押さえブロツク29で外
軸28の鍔30を押さえて外軸28の抜け止めを
図るとともに外軸28の廻り止めを図つてある。
ケーシング25、強度メンバー26及び押さえブ
ロツク29の横孔31に横軸32を挿通し、横軸
32にはころ状の上記ランナー13を回転自在に
挿通し、Eリング24にて抜け止めを図つてあ
る。外軸28の下部外面には雄ねじ33を形成し
てある。しかして外軸28の雄ねじ33をランナ
ー保持ブロツク15の筒部20のねじ孔19にね
じ込むことにより、ランナー部21をランナー保
持ブロツク15に接続してある。そしてピニオン
軸22を押さえブロツク29の縦孔34及び筒状
の外軸28に回転自在に挿通してある。かかる場
合、ピニオン軸22側のベアリング23の外レー
スは押さえブロツク29の凹所35に嵌入してい
て、ピニオン軸22がスムースに回転することが
できるようにして、ラツクギヤ3に噛合している
ピニオンギア5がスムースに噛合回転できるよう
にしてある。 10 to 12 show a runner holding block 15, in which an L-shaped block main body 17 is provided with a mounting hole 16, and a vertical plate 1 of the block main body 17 is provided with a mounting hole 16.
A cylindrical portion 20 in which a screw hole 19 is formed is provided at the upper end portion of the cylindrical portion 8 . However, the runner holding block 15
is attached to the upper corner of one end of the partition body 4 with screws as shown in FIGS. 13 and 14. 16 and 17a and 17b show the runner part 21, in which the pinion gear 5 is inserted into the pinion shaft 22 so as to be integrally rotatable, the bearing 23 is brought into contact with the lower part of the pinion gear 5, and the E ring 24 The pinion gear 5 is prevented from coming off. On the other hand, the 17th
As shown in FIG. b, a substantially U-shaped strength member 26 is fitted into the casing 25, a cylindrical outer shaft 28 is inserted through the central hole 27 between the casing 25 and the strength member 26, and the holding block 29 is shaped like a substantially U shape. The outer shaft 28 is fitted into the strength member 26 of the outer shaft 28, and the collar 30 of the outer shaft 28 is held down by a presser block 29 to prevent the outer shaft 28 from coming off and to prevent the outer shaft 28 from rotating.
A horizontal shaft 32 is inserted into the horizontal hole 31 of the casing 25, the strength member 26, and the holding block 29, and the roller-shaped runner 13 is rotatably inserted into the horizontal shaft 32, and the E-ring 24 is used to prevent it from coming off. be. A male thread 33 is formed on the lower outer surface of the outer shaft 28. The runner section 21 is connected to the runner holding block 15 by screwing the external thread 33 of the outer shaft 28 into the threaded hole 19 of the cylindrical section 20 of the runner holding block 15. The pinion shaft 22 is rotatably inserted through the vertical hole 34 of the holding block 29 and the cylindrical outer shaft 28. In such a case, the outer race of the bearing 23 on the pinion shaft 22 side is fitted into the recess 35 of the holding block 29, so that the pinion shaft 22 can rotate smoothly, and the pinion meshing with the rack gear 3 The gear 5 is designed to mesh and rotate smoothly.
このような構成によれば、間仕切り体4側に接
続されたランナー保持ブロツク15にランナー部
21がねじ接続され、ランナー部21に回転自在
としたランナー13を上レール1のランナー受け
面14上に載設して、間仕切り体4の荷重を上レ
ール1にて受けることができ、ピニオンギア5側
には間仕切り体4の荷重がかからないようにし
て、ピニオンギア5とラツクギア3との噛合状態
に無理がかからないのである。 According to such a configuration, the runner part 21 is screwed to the runner holding block 15 connected to the partition body 4 side, and the runner 13 which is rotatable to the runner part 21 is mounted on the runner receiving surface 14 of the upper rail 1. The load of the partition body 4 can be received by the upper rail 1, and the load of the partition body 4 is not applied to the pinion gear 5 side, so that the meshing state of the pinion gear 5 and the rack gear 3 is not forced. It doesn't cost anything.
第18図乃至第21図はピボツト受け36を示
し、L字状の受け本体37の下横片38に取付け
孔39を設けてある。受け本体37の縦片40の
下端部には挿通孔41を形成した筒状部42を形
成してある。しかしてピボツト受け36を第24
図のように、間仕切り体4の一側端部の下部隅部
にビスにて取付けてある。そしてピニオン軸22
の下端部にピニオンギア5を一体回転可能に取付
け、このピニオンギア5よりも上方に下レール2
に対する摺動子43を回転自在に設けてある。こ
の摺動子43にはミニチユアベアリング44を設
けてあり、下レール2との摺接抵抗を軽減させて
ある。更に摺動子43はラツクギア3に付着した
ごみを除去するごみ除去具63を兼ねるものであ
り、ごみ除去具63にはピニオンギア3の前後箇
所において第24図b,cのように、ラツクギア
3に近い側程間仕切り体4の走行方向の前方に突
出するごみ排出傾斜面64を形成してある。しか
してピニオン軸22をピボツト受け36の筒状部
42の挿通孔41に回転自在に挿通し、下部にお
いてもピニオンギア5をラツクギヤ3に噛合させ
てある。ピニオン軸22の鍔部45と筒状部42
との間にスプリング46を介装して、ピニオン軸
22がその自重で下降して、下レール2との間で
摺接抵抗が大きくなることがないようにしてあ
る。かかる場合、ごみ除去具63がラツクギア3
に付着しているごみを除去し、これをごみ排出傾
斜面64によりラツクギア3より離れる側に排出
することで、ラツクギア3を常に清浄に保ち、ラ
ツクギア3とピニオンギア5との適正な噛合状態
を維持し、間仕切り体4の安定走行を長期にわた
つて行なうことができるようにしてある。 18 to 21 show the pivot receiver 36, in which a mounting hole 39 is provided in the lower horizontal piece 38 of the L-shaped receiver body 37. A cylindrical portion 42 in which an insertion hole 41 is formed is formed at the lower end of the vertical piece 40 of the receiving body 37 . Therefore, the pivot receiver 36 is placed in the 24th position.
As shown in the figure, it is attached to the lower corner of one end of the partition body 4 with screws. and pinion shaft 22
A pinion gear 5 is attached to the lower end so as to be integrally rotatable, and a lower rail 2 is mounted above the pinion gear 5.
A slider 43 is rotatably provided. This slider 43 is provided with a miniature bearing 44 to reduce sliding resistance with the lower rail 2. Further, the slider 43 also serves as a dust removal tool 63 for removing dust attached to the rack gear 3, and the dust removal tool 63 has a structure in which the rack gear 3 is removed at the front and back of the pinion gear 3, as shown in FIGS. 24b and 24c. A garbage discharge inclined surface 64 is formed to protrude forward in the running direction of the partition body 4 near the side thereof. The pinion shaft 22 is rotatably inserted into the insertion hole 41 of the cylindrical portion 42 of the pivot receiver 36, and the pinion gear 5 is also meshed with the rack gear 3 at the lower part. Flange portion 45 and cylindrical portion 42 of pinion shaft 22
A spring 46 is interposed between the pinion shaft 22 and the lower rail 2 to prevent the pinion shaft 22 from lowering due to its own weight and increasing the sliding resistance between the pinion shaft 22 and the lower rail 2. In such a case, the dust remover 63 is removed from the rack gear 3.
By removing dust adhering to the rack gear 3 and discharging it away from the rack gear 3 using the dust discharge slope 64, the rack gear 3 is always kept clean and the proper meshing state between the rack gear 3 and the pinion gear 5 is maintained. The partition body 4 is maintained so that the partition body 4 can run stably for a long period of time.
上記ピニオン軸22は3分割されている。つま
り、ランナー部21に回転自在に支持された上ピ
ニオン軸22aと、ピボツト受け36に回転自在
に支持された下ピニオン軸22cと、これらを接
続する中間ピニオン軸22bとの3本に分割して
ある。そして上ピニオン軸22aと中間ピニオン
軸22bとは第25図乃至第27図のように接続
してある。即ち、上ピニオン軸22aの下端部と
下ピニオン軸22cの上側部とを各々半月状に面
取りしてある。これら面取り部47を上継手48
に貫通して形成した半月状孔49に各々スライド
自在に挿通してある。この上継手48を第28図
乃至第29図に示すように、C字状の保持部50
を形成した上押さえ51にて、回転自在にかつ上
下移動不能に保持してある。この上押さえ51は
ビスにより間仕切り体4の側端面に取付けられる
ものである。そして中間ピニオン軸22bの中間
部分も半月状に面取りされていて、この面取り部
47を第34図に示すような保持体52の円孔6
1に回転不能に挿通し、保持体52を上記上押さ
え51にて回転自在にかつ上下移動不能に保持し
てある。中間ピニオン軸22bの下端部と下ピニ
オン軸22cの上端部とを各々半月状に面取り
し、第35図乃至第37図に示すように、中間仕
切り53を形成するとともに半月状孔49を形成
した下継手54の半月状孔49に各々の面取り部
47を回転不能に挿入し、下継手54を第38図
乃至第40図に示すようにC字状の保持部50を
上下に形成した下押さえ55にて第41図乃至第
43図のように回転自在にかつ上下移動不能に保
持するのである。このようにして、上中下のピニ
オン軸22a,22b,22cを上下にスライド
移動自在に、かつ一体回転するように接続してあ
る。このように3本のピニオン軸22a,22
b,22cを一体回転可能に構成することによ
り、上下のピニオンギア5を等速回転させること
ができ、間仕切り体4の走行を一層スムースに行
なうことができるものである。 The pinion shaft 22 is divided into three parts. In other words, it is divided into three parts: an upper pinion shaft 22a rotatably supported by the runner part 21, a lower pinion shaft 22c rotatably supported by the pivot receiver 36, and an intermediate pinion shaft 22b connecting these. be. The upper pinion shaft 22a and the intermediate pinion shaft 22b are connected as shown in FIGS. 25 to 27. That is, the lower end of the upper pinion shaft 22a and the upper side of the lower pinion shaft 22c are each chamfered into a half-moon shape. These chamfered portions 47 are connected to the upper joint 48.
They are each slidably inserted into a half-moon-shaped hole 49 formed therethrough. As shown in FIGS. 28 to 29, this upper joint 48 is attached to a C-shaped holding portion 50.
It is held rotatably but immovably up and down by an upper retainer 51 formed with a. This upper presser 51 is attached to the side end surface of the partition body 4 with screws. The intermediate portion of the intermediate pinion shaft 22b is also chamfered in a half-moon shape, and this chamfered portion 47 is connected to the circular hole of the holder 52 as shown in FIG.
1, and the holding body 52 is held by the upper presser 51 so as to be rotatable and not moveable up and down. The lower end of the intermediate pinion shaft 22b and the upper end of the lower pinion shaft 22c are each chamfered into a semicircular shape to form an intermediate partition 53 and a semicircular hole 49, as shown in FIGS. 35 to 37. Each chamfered portion 47 is inserted non-rotatably into the semicircular hole 49 of the lower joint 54, and the lower joint 54 is formed into a lower presser with C-shaped holding portions 50 formed above and below, as shown in FIGS. 38 to 40. 55, it is held rotatably but not vertically movable as shown in FIGS. 41 to 43. In this way, the upper, middle, and lower pinion shafts 22a, 22b, and 22c are connected so that they can slide vertically and rotate together. In this way, the three pinion shafts 22a, 22
By configuring b and 22c to be integrally rotatable, the upper and lower pinion gears 5 can be rotated at a constant speed, and the partition body 4 can run more smoothly.
間仕切り体4に上記したピニオンギア5を有す
るランナー部21やピボツト受け36を設けるの
には、第44図のように、間仕切り体4の一端部
に上下全長にわたつて装着凹所56を設け、この
装着凹所56にランナー部21、ピボツト受け3
6及びピニオン軸22を挿入装着してある。そし
てランナー保持ブロツク15、ピボツト受け3
6、上押さえ51、及び下押さえ55に各々形成
した溝57に目地カバー58を縦方向から挿入係
止して、目地カバー58にて装着凹所56並びに
これの内部に挿着された種々の部材を覆つてあ
る。目地カバー58には弾性クツシヨン材59を
設けてある。間仕切り体4の他端部には接続凹所
60を形成してあり、この接続凹所60に隣接の
間仕切り体4の弾性クツシヨン材59を挿入する
ことで、間仕切り体4同士を隙間なく接続して間
仕切り状態において光りがもれたり、風が侵入す
ることがないようにしてある。このような間仕切
り体4の閉状態では、間仕切り体4の略全長に設
けた接床部材65が下レール2に嵌入していて、
間仕切り体4と床72との間の隙間を無くしてあ
る。以下その構成を説明する。 In order to provide the runner portion 21 having the above-described pinion gear 5 and the pivot receiver 36 on the partition body 4, as shown in FIG. The runner part 21 and the pivot receiver 3 are placed in this mounting recess 56.
6 and pinion shaft 22 are inserted and mounted. And runner holding block 15, pivot receiver 3
6. Insert and lock the joint cover 58 from the vertical direction into the grooves 57 formed in the upper presser 51 and the lower presser 55, respectively, and use the joint cover 58 to fit the mounting recess 56 and the various types inserted into the inside thereof. The parts are covered. The joint cover 58 is provided with an elastic cushion material 59. A connection recess 60 is formed at the other end of the partition 4, and by inserting the elastic cushion material 59 of the adjacent partition 4 into the connection recess 60, the partitions 4 can be connected without any gaps. The partitions are designed to prevent light from leaking or wind from entering. In such a closed state of the partition body 4, the floor contacting member 65 provided over substantially the entire length of the partition body 4 is fitted into the lower rail 2,
A gap between the partition body 4 and the floor 72 is eliminated. The configuration will be explained below.
間仕切り体4の下部に間仕切り体4の略全幅に
わたつて接床部材65を昇降自在に設けてある。
接床部材65は断面略U字状の金属枠にて形成し
てある。接床部材65の内部においてその走行方
向前端部に前リンク66を回動自在にピン73に
て枢着してある。接床部材65の後端部には後リ
ンク67をピン73にて回動自在に枢着してあ
る。これら前後リンク66,67同士の遊端部を
各リンク66,67に形成した長孔68を介して
連結ピン69にて相対回動移動自在に連結してあ
る。各リンク66,67の中間部を固定ピン70
にて間仕切り体4に回動自在に取付けてある。間
仕切り体4の前後端の内上記ピニオンギア4を設
けている側とは反対側の端部の接床部材65部分
に昇降操作体71を連結してある。 A floor contacting member 65 is provided at the lower part of the partition body 4 over substantially the entire width of the partition body 4 so as to be movable up and down.
The floor contact member 65 is formed of a metal frame having a substantially U-shaped cross section. Inside the floor contact member 65, a front link 66 is rotatably attached to the front end portion in the running direction by a pin 73. A rear link 67 is rotatably attached to the rear end of the floor contacting member 65 by a pin 73. The free ends of these front and rear links 66, 67 are connected via elongated holes 68 formed in each link 66, 67 with a connecting pin 69 so as to be relatively rotatable. A fixing pin 70 connects the middle part of each link 66, 67.
It is rotatably attached to the partition body 4 at. An elevating and lowering operating body 71 is connected to a floor contacting member 65 portion of the front and rear ends of the partition body 4 on the opposite side to the side where the pinion gear 4 is provided.
上レール1及び下レール2は各々断面リツプ付
きチヤンネル形状に形成してあり、そのリツプ間
の隙間74を通して上記ケーシング25に挿通し
た外軸28を挿通し、ケーシング25に横軸32
を介して回転自在に支持したランナー13を上述
のようにリツプの上面のランナー受け面14に載
設し、ガイド突条75にてランナー13をガイド
するものである。又、下レール2の凹溝85には
摺動子43を走行自在に挿通し、下レール2に摺
動子43をガイド走行可能にしてある。更に下レ
ール2の凹溝85には上記接床部材65の下端部
に形成したゴム製の嵌入部86を嵌入することが
できるようにしてある。このような上レール1の
リツプにはその長さ方向に間仕切りパネル4の長
さに略等しい間隔を隔てて切り欠き78を設けて
ある。一方、間仕切りパネル4の上記ランナー1
3や摺動子43を設けた側とは反対側部分には、
第46図乃至第48図に示すように、その上端部
からガイド筒76に対して突出引退自在にロツク
体77を設けてある。ロツク体77は上記切り欠
き78に嵌入できる形にしてある。間仕切りパネ
ル4の側端面にはロツク体77及び接床部材65
を突出引退させるための操作具79をスライドガ
イド80に対して上下スライド自在に設けてあ
る。操作具79の上下スライド操作により、ラツ
ク・ピニオン機構81を介して一対の回転円板8
2を回転自在に間仕切りパネル4に設けてある。
これら回転円板82には昇降操作体71としての
腰折れリンク83を介して上記ロツク体77及び
接床部材65をその回転に伴つて突出引退自在に
接続してある。つまり、操作具79のへこみ部分
84に手指を掛け、操作具79を上方に引き上げ
操作すると、ラツク・ピニオン機構81を介して
一対の回転円板82を噛合回転させ、腰折れリン
ク83を介してロツク体77及び接床部材65を
間仕切りパネル4の上下端から突出させることが
できるようにしてある。又、操作具79の引き降
ろし操作でロツク体77及び接床部材65を引退
させることができるようにしてある。 The upper rail 1 and the lower rail 2 are each formed into a channel shape with a lip in cross section, and the outer shaft 28 inserted into the casing 25 is inserted through the gap 74 between the lips, and the horizontal shaft 32 is inserted into the casing 25.
The runner 13 rotatably supported via the lip is mounted on the runner receiving surface 14 on the upper surface of the lip as described above, and the runner 13 is guided by the guide ridge 75. Further, the slider 43 is inserted into the groove 85 of the lower rail 2 so as to be freely movable, so that the slider 43 can be guided and run on the lower rail 2. Further, a rubber fitting part 86 formed at the lower end of the floor contacting member 65 can be fitted into the groove 85 of the lower rail 2. Notches 78 are provided in the lip of the upper rail 1 at intervals approximately equal to the length of the partition panel 4 in its length direction. On the other hand, the runner 1 of the partition panel 4
3 and the side opposite to the side where the slider 43 is provided,
As shown in FIGS. 46 to 48, a lock body 77 is provided at its upper end so as to protrude from the guide tube 76 and to be retractable. The lock body 77 is shaped so that it can be fitted into the notch 78. A lock body 77 and a floor contact member 65 are provided on the side end surface of the partition panel 4.
An operating tool 79 for protruding and retiring is provided so as to be slidable up and down with respect to a slide guide 80. By sliding the operating tool 79 up and down, the pair of rotating discs 8 are moved through the rack and pinion mechanism 81.
2 is rotatably provided on the partition panel 4.
The locking body 77 and the floor contacting member 65 are connected to these rotary discs 82 via bent links 83 as the lifting/lowering operation body 71 so as to be able to protrude and retract as they rotate. That is, when you put your finger on the recessed part 84 of the operating tool 79 and pull the operating tool 79 upward, the pair of rotary disks 82 are meshed and rotated via the rack and pinion mechanism 81, and are locked via the bent link 83. The body 77 and the floor contact member 65 are made to protrude from the upper and lower ends of the partition panel 4. Further, the lock body 77 and the floor contacting member 65 can be retired by pulling down the operating tool 79.
[考案の効果]
以上要するに本考案は、接床部材を下降させた
ときにその下端部の嵌入部を下レールの凹溝に嵌
入させることにより、間仕切り体と床との間の隙
間をなくすことができ、加えて間仕切り体の略全
幅わたる接床部材の下端部の嵌入部を下レールの
凹溝に嵌入する故、間仕切り体の左右の振れ止め
も行うことができ、接床部材を昇降操作させる操
作具を間仕切り体に設けてあるから、間仕切り体
に設けてある操作具の操作にて接床部材を昇降さ
せることができ、接床部材を下降させることで、
充分な遮断性を得ることができながら、操作具の
操作にて接床部材を上昇させて間仕切り体を軽く
走行させることができるという利点がある。[Effects of the invention] In summary, the present invention eliminates the gap between the partition body and the floor by fitting the fitting part of the lower end into the groove of the lower rail when the floor-contacting member is lowered. In addition, since the fitting part of the lower end of the flooring member that spans almost the entire width of the partition body is inserted into the groove of the lower rail, it is possible to prevent the partitioning body from swaying on the left and right sides, and the flooring member can be moved up and down. Since an operating tool is provided on the partition body, the floor contact member can be raised and lowered by operating the operation tool provided on the partition body, and by lowering the floor contact member,
There is an advantage that while sufficient insulation performance can be obtained, the floor-contacting member can be raised by operating the operating tool and the partition body can be moved lightly.
第1図は本考案の一実施例の間仕切り状態の正
面図、第2図は同上の一部破断した平面図、第3
図は同上の間仕切り状態から間仕切り解除状態に
間仕切り体を開き回動させる作用を説明する平面
図、第4図は同上の一部を破断した縦断面図、第
5図は同上の上レール、ラツクギヤ、ピニオンギ
ア、ランナーの相対位置を示す断面図、第6図は
同上の下レール部分における断面図、第7図は同
上のラツクギヤの一部破断した平面図、第8図は
同上の正面図、第9図は同上の断面図、第10図
は同上のランナー保持ブロツクの正面図、第11
図は同上の平面図、第12図は同上の側面図、第
13図は同上のランナー保持ブロツクとランナー
部との接続関係を示す一部破断した正面図、第1
4図は同上の平面図、第15図は同上の一部破断
した側面図、第16図は同上のランナー部の一部
破断した正面図、第17図a,bは同上の正断面
図、分解斜視図、第18図は同上のピボツト受け
の正面図、第19図は同上の平面図、第20図は
同上の底面図、第21図は同上の側面図、第22
図は同上のピボツト受け廻りの接続構造を示す一
部破断した正面図、第23図は同上の一部破断し
た側面図、第24図aは同上の底面図、第24図
b,cは摺動子を兼ねたごみ除去具及びピニオン
ギアを示す斜視図、ごみの排出作用を示す平面
図、第25図は同上の上継手部分における上ピニ
オン軸と中間ピニオン軸との接続構造を示す正断
面図、第26図は同上の側面図、第27図は同上
の平断面図、第28図は同上の上押さえの側面
図、第29図は同上の平面図、第30図は同上の
正面図、第31図は同上の中間ピニオン軸の保持
状態を示す側面図、第32図は同上の平断面図、
第33図は同上の正断面図、第34図a,bは同
上の保持体の正面図、平面図、第35図は同上の
下継手の正面図、第36図は同上の平面図、第3
7図は同上の断面図、第38図は同上の下押さえ
の側面図、第39図は同上の正面図、第40図は
第38図の−線断面図、第41図は同上の中
間ピニオン軸と下ピニオン軸との接続状態を示す
側面図、第42図は同上の平断面図、第43図は
同上の正断面図、第44図は同上の間仕切り体の
装着凹所とこれに装着されるランナー部、ピニオ
ン軸、ピボツト部分を示す斜視図、第45図は同
上の上レールの斜視図、第46図、第47図、第
48図は各々同上のロツク体及び接床部材の操作
部の正断面図、側断面図、正断面図、第49図は
同上の間仕切り体の平面図、第50図は同上の底
面図、第51図は同上の接床部材の下降状態の一
部省略した正面図、第52図は同上の斜視図、第
53図は同上の上昇状態の一部省略した正面図、
第54図は同上の斜視図、第55図は同上の上昇
状態の概略正面図、第56図は同上の下降状態の
概略正面図、第57図は同上の接床部材の嵌入部
が下レールの凹溝に嵌入している状態を示す断面
図であり、1は上レール、2は下レール、4は間
仕切り体、65は接床部材、79は操作具、85
は凹溝、86は嵌入部である。
Fig. 1 is a front view of a partitioned state of an embodiment of the present invention, Fig. 2 is a partially cutaway plan view of the same, and Fig. 3 is a partially cutaway plan view of the same.
The figure is a plan view illustrating the action of opening and rotating the partition body from the partition state to the partition release state, FIG. , a cross-sectional view showing the relative positions of the pinion gear and the runner, FIG. 6 is a cross-sectional view of the lower rail portion of the above, FIG. 7 is a partially broken plan view of the rack gear of the above, and FIG. 8 is a front view of the same. Figure 9 is a sectional view of the same as above, Figure 10 is a front view of the runner holding block of the same as above, and Figure 11 is a front view of the same as above.
FIG. 12 is a side view of the same as the above, FIG. 13 is a partially broken front view showing the connection relationship between the runner holding block and the runner part of the above, and the first
4 is a plan view of the same as the above, FIG. 15 is a partially broken side view of the same as the above, FIG. 16 is a partially broken front view of the runner part of the same as the above, FIGS. 17 a and b are front sectional views of the same as the above, An exploded perspective view, FIG. 18 is a front view of the pivot receiver, FIG. 19 is a plan view of the same, FIG. 20 is a bottom view of the same, FIG. 21 is a side view of the same, and FIG.
The figure is a partially cutaway front view showing the connection structure around the pivot receiver as above, Fig. 23 is a partially cutaway side view of the same as above, Fig. 24a is a bottom view of the same as above, and Figs. 24b and c are the sliding parts. A perspective view showing the dust removal tool and pinion gear that also serves as a mover, a plan view showing the dust removal function, and Fig. 25 a front cross section showing the connection structure between the upper pinion shaft and the intermediate pinion shaft at the upper joint part of the same. Figure 26 is a side view of the same as the above, Figure 27 is a plan sectional view of the same as the above, Figure 28 is a side view of the upper presser of the same as the above, Figure 29 is a plan view of the same as the above, and Figure 30 is a front view of the same as the above. , FIG. 31 is a side view showing the holding state of the intermediate pinion shaft as above, FIG. 32 is a plan sectional view as above,
Fig. 33 is a front sectional view of the same as above, Fig. 34 a and b are a front view and a plan view of the same as above, Fig. 35 is a front view of the lower joint of same as above, Fig. 36 is a plan view of same as above, 3
Fig. 7 is a sectional view of the same as above, Fig. 38 is a side view of the lower presser of the above, Fig. 39 is a front view of the same as the above, Fig. 40 is a sectional view taken along the - line of Fig. 38, and Fig. 41 is the intermediate pinion of the same as the above. A side view showing the connection state between the shaft and the lower pinion shaft, Fig. 42 is a plan sectional view of the same as the above, Fig. 43 is a front sectional view of the same as the above, and Fig. 44 shows the mounting recess of the partition body and the mounting thereon. Fig. 45 is a perspective view of the upper rail shown above, and Figs. 46, 47, and 48 show the operation of the lock body and floor contact member shown above, respectively. 49 is a plan view of the partition body as above, FIG. 50 is a bottom view as above, and FIG. 51 is a part of the lowered state of the floor contact member as above. An omitted front view, FIG. 52 is a perspective view of the same as above, and FIG. 53 is a partially omitted front view of the same as above in an elevated state.
FIG. 54 is a perspective view of the same as above, FIG. 55 is a schematic front view of the same as above in the raised state, FIG. 1 is an upper rail, 2 is a lower rail, 4 is a partition body, 65 is a floor contact member, 79 is an operating tool, and 85
86 is a concave groove, and 86 is a fitting portion.
Claims (1)
下げ走行自在に建て込み、間仕切り体の下部に間
仕切り体の略全幅にわたつて接床部材を昇降自在
に設け、接床部材を昇降操作させる操作具を間仕
切り体に設け、接床部材の下端部に接床部材が下
降したときに下レールの凹溝に嵌入する嵌入部を
形成して成る間仕切り装置。 A partition body is built in such a way that it can be suspended and run along an upper rail and a lower rail, and a floor contact member is provided at the bottom of the partition body over substantially the entire width of the partition body so that the floor contact member can be raised and lowered, and an operating tool for raising and lowering the floor contact member. is provided on the partition body, and a fitting part is formed at the lower end of the floor contacting member to fit into the groove of the lower rail when the flooring member is lowered.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1984144445U JPH0247738Y2 (en) | 1984-09-25 | 1984-09-25 |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1984144445U JPH0247738Y2 (en) | 1984-09-25 | 1984-09-25 |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS6159789U JPS6159789U (en) | 1986-04-22 |
| JPH0247738Y2 true JPH0247738Y2 (en) | 1990-12-14 |
Family
ID=30702721
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP1984144445U Expired JPH0247738Y2 (en) | 1984-09-25 | 1984-09-25 |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0247738Y2 (en) |
Family Cites Families (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS555678Y2 (en) * | 1976-03-23 | 1980-02-08 |
-
1984
- 1984-09-25 JP JP1984144445U patent/JPH0247738Y2/ja not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS6159789U (en) | 1986-04-22 |
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