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JP2005030144A - Shield-material lifting device for solar shading device and solar shading device - Google Patents

Shield-material lifting device for solar shading device and solar shading device Download PDF

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JP2005030144A
JP2005030144A JP2003272848A JP2003272848A JP2005030144A JP 2005030144 A JP2005030144 A JP 2005030144A JP 2003272848 A JP2003272848 A JP 2003272848A JP 2003272848 A JP2003272848 A JP 2003272848A JP 2005030144 A JP2005030144 A JP 2005030144A
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winding shaft
lifting
cord
winding
lowering
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JP4256225B2 (en
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Eiji Kawai
英治 河合
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Tachikawa Blind Manufacturing Co Ltd
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Tachikawa Blind Manufacturing Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a shield-material lifting device for a solar shading device capable of continuously lowering a bottom rail even when the lowering of the bottom rail is obstructed in a moment and the solar shading device. <P>SOLUTION: A winding shaft 4 is housed rotatably in a head box 1. The winding shaft 4 is formed in an approximately cylindrical shape, and one end of a lifting-lowering cord 6 is engaged by notched sections 4b formed on both sides in the radial direction of the end section. The other end of the cord 6 is guided to the lower section of the head box 1 from a guide hole 2a formed to a support member 2, and installed to the bottom rail. The outer periphery of the winding shaft 4 is covered with a tube 7. The tube 7 is formed in a cylindrical shape while the radius of a circle drawn by the inner peripheral surface of the tube 7 is set so as to be made slightly larger than that of the circle drawn by the outer peripheral surface of the winding shaft 4. An opening having a size from one diameter of the cord 6 to less than two diameters is formed between the inner peripheral surface of the tube 7 and the outer peripheral surface of the winding shaft 4. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

本発明は、日射遮蔽装置の遮蔽材昇降装置及び日射遮蔽装置に関するものである。   The present invention relates to a shielding material elevating device and a solar shading device for a solar shading device.

横型日射遮蔽装置の一種類として、ヘッドボックス内に設けられた昇降コード巻取装置により、昇降コードを巻取軸に巻取、あるいは昇降コードを巻取軸から巻き戻してスラットを昇降可能としたものがある。これら横型日射遮蔽装置では、スラットの下降中にボトムレールが障害物に当たると昇降コードに緩みが発生し、該昇降コードが絡まる虞があった。そこで、従来、昇降コードに緩みが発生すると、巻取軸の回動を停止させ、ボトムレールの下降動作を自動で停止させていた(例えば、特許文献1〜3参照)。   As one type of horizontal solar shading device, the lifting cord winding device provided in the head box enables the lifting and lowering cord to be wound around the winding shaft, or the lifting cord to be unwound from the winding shaft so that the slat can be lifted and lowered. There is something. In these horizontal solar shading devices, if the bottom rail hits an obstacle while the slat is descending, the lifting cord may be loosened and the lifting cord may be tangled. Therefore, conventionally, when the lifting / lowering cord is loosened, the rotation of the winding shaft is stopped and the lowering operation of the bottom rail is automatically stopped (for example, see Patent Documents 1 to 3).

具体的には、特許文献1又は特許文献2の横型日射遮蔽装置の遮蔽材昇降装置は、巻取軸と一体に回動するラチェットと、ラチェットに係合することでラチェットの回動を停止させ、それに伴い巻取軸の回動を停止させるスライドとを備えている。スライドはスプリングにてラチェットに向かう付勢力が加えられているとともに、昇降コードのテンションにてスプリングの付勢力に抗する力が加えられている。このように形成された横型日射遮蔽装置は、昇降コードのテンションが強いときにはスプリングの付勢力に抗する力が強いためスライドがラチェットと係合することがない。一方、ボトムレールが障害物に当たって昇降コードに緩みが発生すると、昇降コードのテンションが弱くなるのに伴いスプリングの付勢力に抗する力が弱くなり、スライドがラチェット側に移動して該ラチェットと係合することで巻取軸の回動が停止される。
特許第3288641号公報 実公昭58−44797号公報 実用新案登録第2548133号公報
Specifically, the shielding member lifting device of the horizontal solar radiation shielding device of Patent Document 1 or Patent Document 2 stops the rotation of the ratchet by engaging with the ratchet that rotates integrally with the winding shaft and the ratchet. Accordingly, a slide for stopping the rotation of the winding shaft is provided. The slide is applied with an urging force toward the ratchet by a spring, and a force against the urging force of the spring is applied by the tension of the lifting / lowering cord. Since the horizontal solar shading device formed in this way has a strong force against the urging force of the spring when the tension of the elevating cord is strong, the slide does not engage with the ratchet. On the other hand, if the bottom rail hits an obstacle and the lifting / lowering cord loosens, the tension against the spring's urging force becomes weaker as the tension of the lifting / lowering cord becomes weaker, and the slide moves to the ratchet side and engages with the ratchet. By combining, the rotation of the winding shaft is stopped.
Japanese Patent No. 3288641 Japanese Utility Model Publication No. 58-44797 Utility Model Registration No. 2548133

ところで、特許文献1又は特許文献2の横型日射遮蔽装置では、ボトムレールに障害物が当たった際にラチェット及び巻取軸自体の回転を停止させるために、ボトムレール自体の下降が停止されていた。そのため、例えばボトムレールが窓枠などに少し引っ掛かってしまった場合にもボトムレール全体の下降が停止されてしまう場合があった。   By the way, in the horizontal solar shading device of Patent Document 1 or Patent Document 2, when the obstacle hits the bottom rail, the lowering of the bottom rail itself has been stopped in order to stop the rotation of the ratchet and the winding shaft itself. . Therefore, for example, even when the bottom rail is slightly caught on the window frame or the like, the lowering of the entire bottom rail may be stopped.

本発明は上記問題点を解決するためになされたものであって、その目的は、ボトムレールの下降が一瞬阻害された場合にも連続してボトムレールを下降可能な日射遮蔽装置の遮蔽材昇降装置及び日射遮蔽装置を提供することにある。   The present invention has been made to solve the above problems, and its purpose is to raise and lower the shielding material of the solar shading device that can continuously lower the bottom rail even when the lowering of the bottom rail is momentarily inhibited. It is providing a device and a solar radiation shielding device.

上記目的を達成するため、請求項1に記載の発明は、巻取軸をヘッドボックスに回転可能に支持し、前記巻取軸に昇降コードを螺旋状に巻取り、或いは遮蔽材の自重を利用して巻き戻すことにより、該遮蔽材を昇降する日射遮蔽装置の遮蔽材昇降装置において、前記巻取軸は前記昇降コードの巻取り位置から該巻取軸の長手方向に沿って径が小さくなるテーパ面を備えて前記昇降コードを巻取るとき基準巻部を生成可能とし、前記巻取軸の周囲を該巻取軸との間に隙間を設けて覆う被覆部を備え前記昇降コードに前記遮蔽材の荷重がかかった状態で該昇降コードを巻き戻すとき、前記昇降コードを前記巻取り位置から送出可能とし、前記昇降コードに前記遮蔽材の荷重がかからない状態で該昇降コードを巻き戻すとき、前記昇降コードを前記巻取り位置から送出不能とするとともに、前記基準巻部と前記巻取軸とを相対回転可能とし、前記基準巻部とは逆向きに昇降コードを巻取る逆巻部を前記巻取軸に生成可能とした。   In order to achieve the above object, the invention according to claim 1 is characterized in that the winding shaft is rotatably supported by the head box, and the lifting / lowering cord is wound spirally around the winding shaft, or the weight of the shielding material is used. In the shielding member lifting / lowering device of the solar radiation shielding device that lifts and lowers the shielding member, the winding shaft has a diameter that decreases from the winding position of the lifting / lowering cord along the longitudinal direction of the winding shaft. When winding the lifting / lowering cord with a tapered surface, a reference winding portion can be generated, and a covering portion is provided to cover the periphery of the winding shaft with a gap between the winding shaft and the shielding cord. When the hoisting cord is rewound in a state where a material load is applied, the hoisting cord can be sent out from the winding position, and when the hoisting cord is rewound in a state where no load of the shielding material is applied to the elevating cord, The lifting cord The reference winding part and the winding shaft can be rotated relative to each other, and the reverse winding part for winding the lifting / lowering cord in the direction opposite to the reference winding part can be generated on the winding shaft. It was.

請求項2に記載の発明は、巻取軸をヘッドボックスに回転可能に支持し、前記巻取軸に昇降コードを螺旋状に巻取り、或いは遮蔽材の自重を利用して巻き戻すことにより、該遮蔽材を昇降する日射遮蔽装置の遮蔽材昇降装置において、前記巻取軸の一端に形成され、前記昇降コードの巻取り位置から該巻取軸の長手方向に沿って径が小さくなるテーパ面と、前記昇降コードを屈曲させるとともに、該昇降コードを前記巻取軸の巻取り位置に導くサポート部材と、前記巻取軸の周囲を該巻取軸との間に隙間を設けて覆う被覆部と、前記巻取軸の他端に形成され、前記昇降コードを係止する切欠部とを備えた。   The invention according to claim 2 is configured such that the winding shaft is rotatably supported by the head box, and the lifting / lowering cord is spirally wound around the winding shaft, or by rewinding using the dead weight of the shielding material, In the shielding material lifting / lowering device of the solar shading device for lifting and lowering the shielding material, a tapered surface is formed at one end of the winding shaft, and the diameter decreases from the winding position of the lifting / lowering cord along the longitudinal direction of the winding shaft. And a support member that bends the lifting / lowering cord and guides the lifting / lowering cord to a winding position of the winding shaft, and covers the periphery of the winding shaft with a gap between the winding shaft and the covering member. And a notch that is formed at the other end of the winding shaft and engages the lifting cord.

請求項3に記載の発明は、請求項1又は2に記載の発明において、前記被覆部は前記巻取軸の周囲を該巻取軸の全周の半分以上覆っている。   According to a third aspect of the present invention, in the first or second aspect of the present invention, the covering portion covers the periphery of the winding shaft by more than half of the entire circumference of the winding shaft.

請求項4に記載の発明は、請求項1〜3の何れか一項に記載の発明において、前記隙間は前記昇降コードの直径の1本以上2本分未満である。   The invention according to claim 4 is the invention according to any one of claims 1 to 3, wherein the gap is one or more and less than two of the diameters of the elevating cord.

請求項5に記載の発明は、請求項1〜4の何れか一項に記載の発明において、前記被覆部は前記巻取軸の略全長に亘って前記巻取軸を被覆する。   According to a fifth aspect of the present invention, in the invention according to any one of the first to fourth aspects, the covering portion covers the winding shaft over substantially the entire length of the winding shaft.

請求項6に記載の発明は、請求項1〜5の何れか一項に記載の発明において、前記巻取軸の下方で前記昇降コードを屈曲させて該昇降コードの巻取り時或いは巻き戻し時の抵抗を付与する。   The invention according to claim 6 is the invention according to any one of claims 1 to 5, wherein the lifting / lowering cord is bent under the winding shaft and the lifting / lowering cord is wound or unwound. Of resistance.

請求項7に記載の発明は、請求項1〜6の何れか一項に記載の発明において、前記被覆部は円筒形状のチューブである。   The invention according to claim 7 is the invention according to any one of claims 1 to 6, wherein the covering portion is a cylindrical tube.

請求項8に記載の発明は、請求項1〜6の何れか一項に記載の発明において、前記被覆部は前記巻取軸に嵌合可能なカバーと該カバーと対向する位置に配設されたコードガイドとで構成されている。   According to an eighth aspect of the present invention, in the invention according to any one of the first to sixth aspects, the covering portion is disposed at a position facing the cover and a cover that can be fitted to the winding shaft. It consists of a code guide.

請求項9に記載の発明は、請求項1〜8の何れか一項に記載の日射遮蔽装置の遮蔽材昇降装置を備えた日射遮蔽装置。   Invention of Claim 9 is a solar radiation shielding apparatus provided with the shielding material raising / lowering device of the solar radiation shielding apparatus as described in any one of Claims 1-8.

本発明によれば、ボトムレールの下降が一瞬阻害された場合にも連続してボトムレールを下降可能な日射遮蔽装置の遮蔽材昇降装置及び日射遮蔽装置を提供することができる。   ADVANTAGE OF THE INVENTION According to this invention, even if the fall of a bottom rail is inhibited for a moment, the shielding material raising / lowering device of a solar radiation shielding apparatus and the solar radiation shielding apparatus which can descend | fall a bottom rail continuously can be provided.

(第一の実施の形態)
以下、本発明を具体化した第一の実施の形態を図1〜図5に従って説明する。
(First embodiment)
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.

図1及び図2に示すように、日射遮蔽装置の遮蔽材昇降装置は、ヘッドボックス1内にサポート部材2が固定されている。サポート部材2の上部にはカバー3が一体に取着されている。   As shown in FIGS. 1 and 2, a support member 2 is fixed in a head box 1 of a shielding material lifting device of a solar radiation shielding device. A cover 3 is integrally attached to the upper part of the support member 2.

カバー3はヘッドボックス1の長手方向一端に係合爪3aを備えており、該係合爪3aにて前記サポート部材2に取着されている。カバー3の長手方向他端には支持部3bが一体形成されている。支持部3bは側断面略U字状に形成されている。   The cover 3 includes an engagement claw 3a at one end in the longitudinal direction of the head box 1, and is attached to the support member 2 by the engagement claw 3a. A support 3b is integrally formed at the other longitudinal end of the cover 3. The support part 3b is formed in a substantially U-shaped side section.

ヘッドボックス1の内部には巻取軸4が収容されており、該巻取軸4は前記サポート部材2及び支持部3bにて回転可能に支持されている。   A winding shaft 4 is accommodated in the head box 1, and the winding shaft 4 is rotatably supported by the support member 2 and the support portion 3b.

巻取軸4は略円筒形状に形成されており、その左端近傍には長手方向(図1において右方向)に沿って径が小さくなるテーパ面を備えている。テーパ面は、巻取軸4の左端近傍にのみ形成されており、それ以外の箇所は樹脂成形金型の抜きテーパのみ設け長手方向にほぼ同径となる円筒形状とされている。   The winding shaft 4 is formed in a substantially cylindrical shape, and has a tapered surface whose diameter decreases along the longitudinal direction (right direction in FIG. 1) in the vicinity of the left end. The taper surface is formed only in the vicinity of the left end of the winding shaft 4, and the other portions are formed in a cylindrical shape having only the punch taper of the resin mold and having the same diameter in the longitudinal direction.

巻取軸4は、その中心部に六角孔4aを備えている。また、巻取軸4の支持部3b側の端部には径方向両側にそれぞれ切欠部4bが形成されている。   The winding shaft 4 has a hexagonal hole 4a at the center thereof. Moreover, the notch part 4b is each formed in the radial direction both sides at the edge part by the side of the support part 3b of the winding shaft 4. As shown in FIG.

六角孔4aには六角棒状の駆動軸5が相対回転不能に貫挿されている。前記駆動軸5は、ユーザが行う日射遮蔽装置の開閉操作に応じて回転駆動される。従って、ユーザが日射遮蔽装置の開閉操作を行うと、それに応じて駆動軸5が回転されるとともに、巻取軸4が回転駆動されるようになっている。   A hexagonal bar-like drive shaft 5 is inserted into the hexagonal hole 4a so as not to be relatively rotatable. The drive shaft 5 is rotationally driven in accordance with an opening / closing operation of the solar shading device performed by the user. Therefore, when the user performs an opening / closing operation of the solar shading device, the drive shaft 5 is rotated and the winding shaft 4 is driven to rotate accordingly.

切欠部4bには遮蔽材としてのスラットを昇降するための昇降コード6の一端が係止されている。昇降コード6の一端は、巻取軸4に係止された状態で該巻取軸4とともに一体回転を行うため、巻取軸4が回転駆動されると、該巻取軸4の周囲に昇降コード6が巻回或いは巻き戻しされる。   One end of a lifting / lowering cord 6 for lifting / lowering a slat as a shielding material is engaged with the notch 4b. Since one end of the lifting / lowering cord 6 rotates integrally with the winding shaft 4 while being locked to the winding shaft 4, when the winding shaft 4 is driven to rotate, the lifting / lowering cord 6 moves up and down around the winding shaft 4. The cord 6 is wound or rewound.

尚、この際巻取軸4に巻取られる昇降コード6はサポート部材2を介することで、その巻取り位置が設定されており、該巻取り位置は上述したテーパ面の位置となるように位置決めされている。従って、テーパ面上に巻取られた昇降コード6は巻取軸4の左端近傍からテーパ面に沿って順次右側に向かって押し出されるように螺旋状に巻回され、後述する基準巻部9が形成される。また、昇降コード6が巻き戻される際には、該基準巻部9は順次左端から巻き戻される。   At this time, the lifting / lowering cord 6 wound around the winding shaft 4 is set through the support member 2 so that its winding position is set, and the winding position is positioned so as to be the position of the tapered surface described above. Has been. Accordingly, the lifting / lowering cord 6 wound on the tapered surface is wound spirally so as to be sequentially pushed rightward from the vicinity of the left end of the winding shaft 4 along the tapered surface. It is formed. When the lifting / lowering cord 6 is rewound, the reference winding portion 9 is sequentially rewound from the left end.

一方、昇降コード6の他端は前記サポート部材2に設けられた案内孔2aからヘッドボックス1の下方へ案内されている。サポート部材2は昇降コード6を案内孔2aへ導くガイド部2bを備えている。ガイド部2bは巻取軸4の外周面との間に昇降コード6の直径分の隙間を備えて配設されており、昇降コード6を緩むことなく通過させることができる。昇降コード6は、巻取軸4の下方に位置するガイド部2bの端部にて屈曲して下方に導出されており、昇降コード6には、屈曲することにより発生する摩擦力にて巻取り時或いは巻き戻し時の抵抗が付与される。   On the other hand, the other end of the lifting / lowering cord 6 is guided below the head box 1 from a guide hole 2 a provided in the support member 2. The support member 2 includes a guide portion 2b that guides the lifting / lowering cord 6 to the guide hole 2a. The guide portion 2b is provided with a clearance corresponding to the diameter of the lifting / lowering cord 6 between the guide shaft 2b and the outer peripheral surface of the winding shaft 4, and can pass the lifting / lowering cord 6 without loosening. The lifting / lowering cord 6 is bent at the end of the guide portion 2b located below the winding shaft 4 and led downward. The lifting / lowering cord 6 is wound by frictional force generated by bending. The resistance at the time of rewinding is given.

ヘッドボックス1の下方へ案内された昇降コード6の他端は、図示しない遮蔽材としてのボトムレールに取着されている。ボトムレールはその自重が昇降コード6の巻き戻しに利用されており、該ボトムレールの自重にて昇降コード6を下方に引っ張ることにより、昇降コード6がサポート部材2からスムーズに送出される。   The other end of the lifting / lowering cord 6 guided below the head box 1 is attached to a bottom rail as a shielding material (not shown). The weight of the bottom rail is used to rewind the lifting / lowering cord 6, and the lifting / lowering cord 6 is smoothly sent out from the support member 2 by pulling the lifting / lowering cord 6 downward by the weight of the bottom rail.

このように下方に導出された昇降コード6は、昇降コード6にスラット及びボトムレールの荷重がかかっていないとき巻取軸4が巻き戻し方向に回転されると、昇降コード6が屈曲されることにより付与された抵抗により該昇降コード6をサポート部材2から送出することができなくなる。   Thus, the lifting / lowering cord 6 led out downward is bent when the winding shaft 4 is rotated in the rewinding direction when the lifting / lowering cord 6 is not loaded with the slats and the bottom rail. The lifting / lowering cord 6 cannot be sent out from the support member 2 due to the resistance given by.

ボトムレールは昇降コード6の巻取り或いは巻き戻しに応じて昇降動作が行われ、該昇降動作に従ってスラットの引き上げ及び下降を行っている。具体的には、巻取軸4が回転して昇降コード6が巻取られるとボトムレールが引き上げられることによってスラットが引き上げられ、逆に昇降コード6が巻き戻されるとボトムレールが下降されることによってスラットが下降されている。   The bottom rail is lifted and lowered according to the winding or unwinding of the lifting / lowering cord 6, and the slats are lifted and lowered according to the lifting / lowering operation. Specifically, when the take-up shaft 4 rotates and the elevating cord 6 is taken up, the bottom rail is pulled up to raise the slat, and conversely, when the elevating cord 6 is rewound, the bottom rail is lowered. The slat is lowered.

巻取軸4は被覆部としてのチューブ7にてその外周が全周に亘って覆われている。チューブ7は円筒形状に形成されており、巻取軸4のほぼ全長を覆っている。具体的には、切欠部4bからガイド部2bの配設位置、即ち、サポート部材2の右端までを覆っている。チューブ7の内周面が描く円の半径は巻取軸4の外周面が描く円の半径よりもやや大きく形成されている。チューブ7の内周面が描く円の半径と、巻取軸4の外周面が描く円の半径との差は、具体的には、昇降コード6の直径1本分以上、2本分の長さよりも小さくなるように設定されている。従って、巻取軸4の外周面とチューブ7の内周面との間には昇降コード6の直径1本分以上、2本分未満の隙間が形成される。   The outer periphery of the winding shaft 4 is covered with a tube 7 as a covering portion over the entire circumference. The tube 7 is formed in a cylindrical shape and covers almost the entire length of the winding shaft 4. Specifically, it covers the arrangement position of the guide portion 2b from the notch portion 4b, that is, the right end of the support member 2. The radius of the circle drawn by the inner peripheral surface of the tube 7 is slightly larger than the radius of the circle drawn by the outer peripheral surface of the winding shaft 4. The difference between the radius of the circle drawn by the inner peripheral surface of the tube 7 and the radius of the circle drawn by the outer peripheral surface of the winding shaft 4 is specifically the length of one or more diameters of the lifting / lowering cord 6 and the length of two. It is set to be smaller than this. Therefore, a gap of at least one diameter of the lifting / lowering cord 6 and less than two is formed between the outer peripheral surface of the winding shaft 4 and the inner peripheral surface of the tube 7.

このように形成されたチューブ7は、該チューブ7の内周面と巻取軸4の外周面との隙間を所定範囲内に制限し、昇降コード6がチューブ7の内周面と巻取軸4の外周面との間で巻取軸4の径方向に昇降コード6の直径の1本分以上広がらないようになっている。   The tube 7 formed in this way limits the gap between the inner peripheral surface of the tube 7 and the outer peripheral surface of the winding shaft 4 within a predetermined range, and the lifting / lowering cord 6 is connected to the inner peripheral surface of the tube 7 and the winding shaft. The diameter of the lifting / lowering cord 6 does not increase by more than one diameter in the radial direction of the take-up shaft 4 between the outer peripheral surface 4 and the outer peripheral surface 4.

次に、上記のように構成された日射遮蔽装置の遮蔽材昇降装置の作用を説明する。   Next, the operation of the shielding material lifting / lowering device of the solar radiation shielding device configured as described above will be described.

図3は、巻取軸4に巻回された昇降コード6の様子を示している。   FIG. 3 shows a state of the lifting / lowering cord 6 wound around the winding shaft 4.

巻取軸4を巻き戻し方向に回転させてボトムレール及びスラットを下降させている最中に、ボトムレールが障害物などにぶつかると、ボトムレールが下方に移動不能となるため、巻取軸4はそれ以上サポート部材2から下方に昇降コード6を送出できない状態となる。   When the bottom rail hits an obstacle while the bottom rail and the slat are lowered by rotating the winding shaft 4 in the rewinding direction, the bottom rail cannot move downward. Will not be able to send the lifting / lowering cord 6 downward from the support member 2 any more.

この状態から更に巻取軸4を巻き戻し方向に回転させると、サポート部材2側(図3において左側)から昇降コード6が送出されないまま巻取軸4が巻き戻し方向に回転されることとなる。このように昇降コード6が送出されない状態で巻取軸4が巻き戻し方向に回転されると、本来送出されるべき長さ分の昇降コード6が巻取軸4の周囲に余分に存在することとなるため、昇降コード6はその巻き込み状態を緩めることで余分な長さ分の昇降コード6を吸収しようとする。   When the winding shaft 4 is further rotated in the rewinding direction from this state, the winding shaft 4 is rotated in the rewinding direction without the lifting / lowering cord 6 being sent out from the support member 2 side (left side in FIG. 3). . Thus, when the winding shaft 4 is rotated in the rewinding direction without the lifting / lowering cord 6 being sent out, the lifting / lowering cord 6 corresponding to the length that should be sent out is excessively present around the winding shaft 4. Therefore, the lifting / lowering cord 6 tries to absorb the lifting / lowering cord 6 for an extra length by loosening the entrainment state.

しかし、巻取軸4は周囲に昇降コード6を巻回した状態で、その外縁がチューブ7にて覆われているため、昇降コード6の巻き込み状態を緩めることで余分な長さ分の昇降コード6を吸収することができない。そのため、巻取軸4は該巻取軸4の右端に第一逆巻部8を形成することにて余分な長さ分の昇降コード6を吸収する。   However, since the winding shaft 4 is wound around the lifting / lowering cord 6 and the outer edge thereof is covered with the tube 7, the lifting / lowering cord for an extra length can be obtained by loosening the winding state of the lifting / lowering cord 6. 6 cannot be absorbed. Therefore, the winding shaft 4 absorbs the lifting cord 6 for an extra length by forming the first reverse winding portion 8 at the right end of the winding shaft 4.

第一逆巻部8は、巻取軸4の左側に形成された基準巻部9とは反対の向きに昇降コード6を巻回して形成されている。即ち、第一逆巻部8は基準巻部9の昇降コード6が巻き戻し方向に回転される際に巻き込みが行われる。第一逆巻部8と基準巻部9との間には第一連結部10が形成されており、該第一連結部10にて第一逆巻部8と基準巻部9との回転方向が変更されている。   The first reverse winding portion 8 is formed by winding the elevating cord 6 in a direction opposite to the reference winding portion 9 formed on the left side of the winding shaft 4. That is, the first reverse winding portion 8 is wound when the lifting / lowering cord 6 of the reference winding portion 9 is rotated in the rewinding direction. A first connecting portion 10 is formed between the first reverse winding portion 8 and the reference winding portion 9, and the rotation direction of the first reverse winding portion 8 and the reference winding portion 9 at the first connecting portion 10. Has been changed.

尚、第一逆巻部8が形成されるのは、ボトムレールが障害物などにぶつかってから巻取軸4の周りに昇降コード6が1周以上巻回された後であるため、例えば、ボトムレールが窓枠などに少し引っ掛かった程度では第一逆巻部8が形成されず、そのままボトムレールの下降が行われる。   The first reverse winding portion 8 is formed after the lifting / lowering cord 6 is wound around the winding shaft 4 one or more times after the bottom rail hits an obstacle or the like. The first reverse winding portion 8 is not formed to the extent that the bottom rail is slightly caught on the window frame or the like, and the bottom rail is lowered as it is.

第一逆巻部8に昇降コード6が巻き込まれている際、基準巻部9とその中心部に貫挿された巻取軸4とは互いに相対回転を行っている。第一逆巻部8の巻き込み量が増加している際、巻取軸4に巻回される昇降コード6の総量は変化しておらず、第一逆巻部8の巻き込み量が増加するにつれて基準巻部9の巻き込み量が減少している。   When the lifting / lowering cord 6 is wound around the first reverse winding portion 8, the reference winding portion 9 and the winding shaft 4 penetrating through the central portion rotate relative to each other. When the winding amount of the first reverse winding portion 8 is increasing, the total amount of the lifting / lowering cord 6 wound around the winding shaft 4 is not changed, and as the winding amount of the first reverse winding portion 8 is increased. The amount of winding of the reference winding portion 9 is reduced.

次に、巻取軸4に第一逆巻部8が形成されている状態からボトムレールを引き上げる方向、即ち基準巻部9の巻回方向に動作させたときの昇降コード6の動作について説明する。   Next, the operation of the lifting / lowering cord 6 when it is operated in the direction in which the bottom rail is pulled up from the state where the first reverse winding portion 8 is formed on the winding shaft 4, that is, in the winding direction of the reference winding portion 9 will be described. .

巻取軸4がボトムレールを引き上げる方向に回転されると、巻取軸4は切欠部4bにて係止した昇降コード6の一端を該巻取軸4の周囲に巻回する。そして、切欠部4bに係止された昇降コード6の一端とサポート部材2から下方へ送出される昇降コード6との間のテンションが所定値以上となったときに更に巻取軸4が引き上げ方向に回動されることでボトムレールを引き上げ可能となる。即ち、巻取軸4がボトムレールを引き上げる方向に回転されても、昇降コード6にボトムレールを引き上げるだけのテンションがかからないまではボトムレールを引き上げることができない。   When the take-up shaft 4 is rotated in the direction of pulling up the bottom rail, the take-up shaft 4 winds one end of the lifting / lowering cord 6 locked at the notch 4b around the take-up shaft 4. When the tension between one end of the lifting / lowering cord 6 locked to the notch 4b and the lifting / lowering cord 6 sent downward from the support member 2 becomes a predetermined value or more, the winding shaft 4 is further pulled up. The bottom rail can be pulled up by being pivoted to the right. That is, even if the winding shaft 4 is rotated in the direction of pulling up the bottom rail, the bottom rail cannot be lifted until the lifting / lowering cord 6 is not tensioned enough to pull up the bottom rail.

巻取軸4がボトムレールを引き上げる方向に回転されると、巻取軸4の切欠部4bに係止された昇降コード6の端部は該方向に巻回され、第二逆巻部11が形成される。第二逆巻部11は第一逆巻部8の反対方向に巻回されており、基準巻部9と同一方向に巻回されている。   When the winding shaft 4 is rotated in the direction of pulling up the bottom rail, the end portion of the lifting / lowering cord 6 locked to the notch 4b of the winding shaft 4 is wound in this direction, and the second reverse winding portion 11 is It is formed. The second reverse winding portion 11 is wound in the opposite direction of the first reverse winding portion 8 and is wound in the same direction as the reference winding portion 9.

第一逆巻部8と第二逆巻部11との間には第二連結部12が形成されており、該第二連結部12にて第一逆巻部8と第二逆巻部11との回転方向が変更されている。第一連結部10及び第二連結部12はともに昇降コード6が湾曲して形成されており、第一連結部10及び第二連結部12を介してその両側でテンションが伝達されることはない。即ち、第一連結部10或いは第二連結部12が形成されている際には昇降コード6に昇降コード6を引き上げるだけのテンションをかけることはできない。   A second connecting portion 12 is formed between the first reverse winding portion 8 and the second reverse winding portion 11, and the first reverse winding portion 8 and the second reverse winding portion 11 are formed at the second connecting portion 12. And the direction of rotation has been changed. The first connecting part 10 and the second connecting part 12 are both formed by bending the elevating cord 6, and tension is not transmitted on both sides of the first connecting part 10 and the second connecting part 12. . That is, when the first connecting portion 10 or the second connecting portion 12 is formed, it is impossible to apply tension to the lifting / lowering cord 6 so as to lift the lifting / lowering cord 6.

第二逆巻部11に昇降コード6が巻き込まれている際、第一逆巻部8及び基準巻部9とその中心部に貫挿された巻取軸4とは互いに空転している。第二逆巻部11の巻き込み量が増加している際、巻取軸4に巻回される昇降コード6の総量は変化しておらず、第二逆巻部11の巻き込み量が増加するにつれて第一逆巻部8の巻き込み量が減少している。   When the lifting / lowering cord 6 is wound around the second reverse winding portion 11, the first reverse winding portion 8 and the reference winding portion 9 and the winding shaft 4 inserted through the center thereof are idling. When the winding amount of the second reverse winding portion 11 is increasing, the total amount of the lifting cord 6 wound around the winding shaft 4 is not changed, and as the winding amount of the second reverse winding portion 11 is increased. The amount of winding of the first reverse winding portion 8 is reduced.

このようにして、第二逆巻部11の巻き込み量が増加していくと、いずれ第一逆巻部8が無くなり、第二逆巻部11と基準巻部9とが連結される。第二逆巻部11と基準巻部9とが連結されると、第一逆巻部8と基準巻部9との間に形成されていた第一連結部10及び第一逆巻部8と第二逆巻部11との間に形成されていた第二連結部12が無くなる。従って、切欠部4bに係止された昇降コード6の一端とサポート部材2から下方へ送出される昇降コード6との間にテンションを与えることが可能になり、巻取軸4を回転させることでボトムレールを引き上げ可能となる。   Thus, when the amount of winding of the second reverse winding portion 11 increases, the first reverse winding portion 8 will eventually disappear, and the second reverse winding portion 11 and the reference winding portion 9 will be connected. When the second reverse winding portion 11 and the reference winding portion 9 are connected, the first connecting portion 10 and the first reverse winding portion 8 that are formed between the first reverse winding portion 8 and the reference winding portion 9 The 2nd connection part 12 currently formed between the 2nd reverse winding parts 11 is lost. Therefore, it becomes possible to apply tension between one end of the lifting / lowering cord 6 locked to the notch 4b and the lifting / lowering cord 6 sent downward from the support member 2, and by rotating the winding shaft 4 The bottom rail can be raised.

尚、第一逆巻部8が無くなるときは、上述したボトムレールが初めに障害物などにぶつかった位置である。また、障害物を取り除き、巻取軸4を下降方向に回転させれば基準巻部9から昇降コード6が巻き戻されボトムレール及びスラットを下降させることができる。   In addition, when the 1st reverse winding part 8 is lose | eliminated, it is the position where the bottom rail mentioned above first collided with the obstacle. Further, if the obstacle is removed and the winding shaft 4 is rotated in the downward direction, the lifting / lowering cord 6 is rewound from the reference winding portion 9 and the bottom rail and the slat can be lowered.

以上記述したように、第一の実施の形態によれば、以下の効果を奏する。   As described above, according to the first embodiment, the following effects can be obtained.

(1)日射遮蔽装置の遮蔽材昇降装置は、巻取軸4の周囲をチューブ7で覆うことで第一逆巻部8を形成することができる。従って、巻取軸4の回転を停止させることなく昇降コード6の巻取軸4の直径方向への緩みの発生を抑制することができる。   (1) The shielding material lifting device of the solar radiation shielding device can form the first reverse winding portion 8 by covering the periphery of the winding shaft 4 with the tube 7. Therefore, the occurrence of loosening of the lifting / lowering cord 6 in the diameter direction of the winding shaft 4 can be suppressed without stopping the rotation of the winding shaft 4.

(2)日射遮蔽装置の遮蔽材昇降装置は、ボトムレールに障害物が当接しても巻取軸4の回動を停止させることなく障害物が存在するボトムレールの下降のみを停止可能な構成とした。従って、例えば、窓枠に引っ掛かるなどでボトムレールの下降が一瞬阻害された場合にも巻取軸4の回転自体が停止されることが無く、巻取軸4に第一逆巻部8が形成される前であれば連続してボトムレールを下降させることができる。   (2) The shielding material lifting / lowering device of the solar radiation shielding device is configured to be able to stop only the lowering of the bottom rail where the obstacle exists without stopping the rotation of the winding shaft 4 even if the obstacle comes into contact with the bottom rail. It was. Therefore, for example, even when the lowering of the bottom rail is hindered for a moment due to being caught by a window frame, the rotation of the winding shaft 4 is not stopped, and the first reverse winding portion 8 is formed on the winding shaft 4. If not, the bottom rail can be lowered continuously.

(3)日射遮蔽装置の遮蔽材昇降装置は、ボトムレールに障害物が当接しても巻取軸4の回動を停止させることなく障害物が存在するボトムレールの下降のみを停止可能な構成とした。従って、ボトムレールの一側が障害物に当接した場合でも、ボトムレールを傾斜させて他側のみを下降させることができる。   (3) The shield lifting / lowering device of the solar radiation shielding device can stop only the lowering of the bottom rail where the obstacle exists without stopping the rotation of the winding shaft 4 even if the obstacle comes into contact with the bottom rail. It was. Therefore, even when one side of the bottom rail comes into contact with an obstacle, only the other side can be lowered by inclining the bottom rail.

(4)巻取軸4の外周面とチューブ7の内周面の間は、昇降コード6の直径の1本分以上、2本分の長さよりも小さい隙間が形成されている。従って、昇降コード6が二重になって巻乱れることなく、基準巻部9、第一及び第二逆巻部8,11を巻回することができる。   (4) Between the outer peripheral surface of the winding shaft 4 and the inner peripheral surface of the tube 7, a gap that is at least one diameter of the lifting cord 6 and smaller than the length of two is formed. Therefore, the reference | standard winding part 9, the 1st and 2nd reverse winding part 8 and 11 can be wound, without the raising / lowering cord 6 becoming double and being distorted.

(第二の実施の形態)
以下、本発明を具体化した第二の実施の形態を図6及び図7に従って説明する。尚、第二の実施の形態は、第一の実施の形態における日射遮蔽装置の遮蔽材昇降装置の被覆部としてのチューブ7を変更したものであって、その他の構成は第一の実施の形態に記載の日射遮蔽装置の遮蔽材昇降装置と同様のものである。従って、第一の実施の形態に記載の日射遮蔽装置の遮蔽材昇降装置と異なる構成のみを以下に説明する。
(Second embodiment)
Hereinafter, a second embodiment of the present invention will be described with reference to FIGS. The second embodiment is obtained by changing the tube 7 as the covering portion of the shielding material lifting / lowering device of the solar shading device in the first embodiment, and other configurations are the first embodiment. It is the same as that of the shielding material raising / lowering device of the solar radiation shielding apparatus described in 1 above. Therefore, only the configuration different from the shielding material lifting apparatus of the solar radiation shielding apparatus described in the first embodiment will be described below.

図6及び図7に示すように、日射遮蔽装置の遮蔽材昇降装置は、樹脂にて成型された被覆部としてのコードガイド13を備えている。コードガイド13は側断面略Y字状に形成されている。コードガイド13は長手方向一端に係合カバー14を備えている。係合カバー14はカバー3の支持部3b(図1及び図2参照)に係合可能に形成されている。コードガイド13は係合カバー14を支持部3bに係合させるとともに、長手方向他端をサポート部材2と係合させて巻取軸4に取着されている。係合カバー14の略中央には駆動軸孔14aが形成されており、該駆動軸孔14aからは六角孔4aに貫挿された駆動軸5が突出されている。   As shown in FIGS. 6 and 7, the shielding material lifting / lowering device of the solar radiation shielding device includes a code guide 13 as a covering portion molded of resin. The code guide 13 is formed in a substantially Y-shaped side section. The code guide 13 includes an engagement cover 14 at one end in the longitudinal direction. The engagement cover 14 is formed to be engageable with the support portion 3b (see FIGS. 1 and 2) of the cover 3. The code guide 13 is attached to the winding shaft 4 with the engagement cover 14 engaged with the support portion 3 b and the other end in the longitudinal direction engaged with the support member 2. A drive shaft hole 14a is formed substantially at the center of the engagement cover 14, and a drive shaft 5 inserted through the hexagonal hole 4a projects from the drive shaft hole 14a.

コードガイド13は上部に巻取軸4の外周面に沿った湾曲部としての湾曲面を備えている。湾曲面の内周面が描く円の半径は巻取軸4の外周面が描く円の半径よりもやや大きく形成されている。湾曲面の内周面が描く円の半径と、巻取軸4の外周面が描く円の半径との差は、具体的には、昇降コード6の直径の1本分以上、2本分の長さよりも小さくなるように設定されている。このように形成されたコードガイド13は、湾曲面の内周面と巻取軸4の外周面との間に昇降コード6の直径1本分以上、2本分未満の隙間が形成されるように配設されている。   The code guide 13 is provided with a curved surface as a curved portion along the outer peripheral surface of the winding shaft 4 at the top. The radius of the circle drawn by the inner peripheral surface of the curved surface is slightly larger than the radius of the circle drawn by the outer peripheral surface of the winding shaft 4. Specifically, the difference between the radius of the circle drawn by the inner peripheral surface of the curved surface and the radius of the circle drawn by the outer peripheral surface of the winding shaft 4 is equal to or more than one of the diameters of the lifting / lowering cord 6 and two. It is set to be smaller than the length. In the cord guide 13 formed in this way, a gap of at least one diameter of the lifting cord 6 and less than two is formed between the inner peripheral surface of the curved surface and the outer peripheral surface of the winding shaft 4. It is arranged.

カバー3は巻取軸4の上方に配設されており、その下面、即ち巻取軸4と対向する側の面が前記湾曲面と略等しい曲率にて形成されている。   The cover 3 is disposed above the winding shaft 4, and the lower surface thereof, that is, the surface facing the winding shaft 4 is formed with a curvature substantially equal to the curved surface.

カバー3は及び前記コードガイド13と同じく巻取軸4の外周面との間に昇降コード6の直径の1本分以上、2本分未満の隙間が形成されるように、その取着位置が設定されている。また、カバー3及びコードガイド13は合計で巻取軸4の外周面の略半分以上を覆っており、巻取軸4の周方向におけるカバー3の端縁とコードガイド13の端縁までの間隔は巻取軸4の全周の1/4未満となるようにその大きさが設定されている。   As with the cord guide 13 and the outer periphery of the winding shaft 4, the cover 3 is attached at an attachment position so that a gap of one or more diameters of the lifting / lowering cord 6 is formed. Is set. Further, the cover 3 and the cord guide 13 in total cover approximately half or more of the outer peripheral surface of the winding shaft 4, and the distance between the edge of the cover 3 and the edge of the cord guide 13 in the circumferential direction of the winding shaft 4. The size of the winding shaft 4 is set to be less than ¼ of the entire circumference of the winding shaft 4.

このように形成された日射遮蔽装置の遮蔽材昇降装置は、昇降コード6が巻取軸4の径方向に広がろうとした際には、巻取軸4の外周面を略覆うように配設されたカバー3及びコードガイド13にて昇降コード6の広がりを抑制する。具体的には、カバー3及びコードガイド13で覆われている部分は昇降コード6が巻取軸4の径方向に該昇降コード6の直径の1本分以上広がらないようになっている。また、巻取軸4の周方向におけるカバー3の端縁とコードガイド13の端縁までの間隔は巻取軸4の全周の1/4未満と短く設定されているため、該間隔からは昇降コード6が巻取軸4の径方向に該昇降コード6の直径のほぼ1本分以内しか広がらない。   The shielding member lifting / lowering device of the solar shading device formed in this way is arranged so as to substantially cover the outer peripheral surface of the winding shaft 4 when the lifting / lowering cord 6 tries to spread in the radial direction of the winding shaft 4. The covered cover 3 and the code guide 13 prevent the lifting / lowering cord 6 from spreading. Specifically, the portion covered with the cover 3 and the cord guide 13 is configured such that the lifting / lowering cord 6 does not spread more than one diameter of the lifting / lowering cord 6 in the radial direction of the winding shaft 4. Further, since the distance between the edge of the cover 3 and the edge of the cord guide 13 in the circumferential direction of the winding shaft 4 is set to be shorter than ¼ of the entire circumference of the winding shaft 4, The lifting / lowering cord 6 spreads in the radial direction of the winding shaft 4 only within approximately one diameter of the lifting / lowering cord 6.

以上記述したように、第二の実施の形態によれば、第一の実施の形態の(1)、(2)に記載の効果に加え以下の効果を奏する。   As described above, according to the second embodiment, the following effects are obtained in addition to the effects described in (1) and (2) of the first embodiment.

(1)日射遮蔽装置の遮蔽材昇降装置は、巻取軸4の周囲をカバー3及びコードガイド13で覆うことで第一逆巻部8を形成することができる。従って、巻取軸4の回転を停止させることなく昇降コード6の緩みの発生を抑制することができる。   (1) The shielding material elevating device of the solar radiation shielding device can form the first reverse winding portion 8 by covering the periphery of the winding shaft 4 with the cover 3 and the cord guide 13. Accordingly, it is possible to suppress the loosening of the lifting / lowering cord 6 without stopping the rotation of the winding shaft 4.

(2)巻取軸4は、それぞれ別体に形成されたカバー3及びコードガイド13にてその周囲が被覆されている。従って、第一の実施の形態に比べチューブ7に昇降コード6を貫挿する作業を必要とせず、日射遮蔽装置の組み付けを容易に行うことができる。   (2) The winding shaft 4 is covered with a cover 3 and a cord guide 13 formed separately. Therefore, as compared with the first embodiment, an operation for penetrating the elevating cord 6 into the tube 7 is not required, and the solar radiation shielding device can be easily assembled.

尚、上記各実施の形態は、以下の態様で実施してもよい。   In addition, you may implement each said embodiment in the following aspects.

・上記第一の実施の形態においては、チューブ7は切欠部4bからサポート部材2の右端までを覆っていたが、チューブにもテーパ部を形成し、昇降コード6が巻取られるテーパ面の周囲を覆うようにしてもよい。   In the first embodiment, the tube 7 covers from the notch 4b to the right end of the support member 2. However, the tube also forms a tapered portion, and the periphery of the tapered surface on which the lifting / lowering cord 6 is wound. May be covered.

・上記第二の実施の形態においては、被覆部としてカバー3及びコードガイド13を用い、該カバー3及びコードガイド13にて巻取軸4の外周面を略覆っていたが、被覆部は昇降コード6が巻取軸4の径方向に広がることを抑制できる構成であればよい。従って、例えば図8に示すように、被覆部として複数の分割カバー15を用い、該分割カバー15にて昇降コード6が巻取軸4の径方向に広がることを抑制してもよい。   In the second embodiment, the cover 3 and the code guide 13 are used as the covering portion, and the cover 3 and the code guide 13 substantially cover the outer peripheral surface of the winding shaft 4. Any configuration that can prevent the cord 6 from spreading in the radial direction of the winding shaft 4 may be used. Therefore, for example, as shown in FIG. 8, a plurality of divided covers 15 may be used as the covering portion, and the lifting cord 6 may be prevented from spreading in the radial direction of the winding shaft 4 by the divided covers 15.

詳述すると、分割カバー15は巻取軸4の全周に亘って8箇所、等角度間隔に配設されており、周方向に隣り合う分割カバー15の間隔は巻取軸4の全周の約1/8に設定されている。該間隔は昇降コード6が巻取軸4の径方向に広がることが抑制されるだけ短いため、第二の実施の形態と同様、昇降コード6が巻取軸4の径方向に広がることを抑制することができる。   More specifically, the divided covers 15 are arranged at eight equiangular intervals along the entire circumference of the winding shaft 4, and the intervals between the divided covers 15 adjacent in the circumferential direction are equal to the entire circumference of the winding shaft 4. It is set to about 1/8. Since the distance is short enough to prevent the lifting / lowering cord 6 from spreading in the radial direction of the winding shaft 4, as in the second embodiment, the lifting / lowering cord 6 is prevented from spreading in the radial direction of the winding shaft 4. can do.

また、分割カバー15の個数は8箇所に限らず、周方向に隣り合う分割カバーの間隔が巻取軸4の全周の1/4未満であれば、その数及び配設位置を適宜変更してもよい。   Further, the number of the divided covers 15 is not limited to eight, and if the interval between the divided covers adjacent to each other in the circumferential direction is less than ¼ of the entire circumference of the winding shaft 4, the number and the arrangement position are changed as appropriate. May be.

・上記各実施の形態においては、チューブ7或いはカバー3とコードガイド13を用いて巻取軸4の周囲を略覆ったが、昇降コード6の緩みを簡単に解消できるものであればこの他のものを用いてもよい。   In each of the above embodiments, the tube 7 or the cover 3 and the cord guide 13 are used to substantially cover the periphery of the take-up shaft 4. However, any other means can be used as long as the looseness of the lifting / lowering cord 6 can be easily eliminated. A thing may be used.

・上記各実施の形態においては、日射遮蔽装置の遮蔽材昇降装置はボトムレール及びスラットを備えた日射遮蔽装置に用いられていたが、このような日射遮蔽装置以外に、例えばたくし上げカーテンやプリーツカーテンなどに使用してもよい。   In each of the above embodiments, the shielding material lifting device of the solar radiation shielding device is used in the solar radiation shielding device provided with the bottom rail and the slat. However, in addition to the solar radiation shielding device, for example, a raised curtain or a pleat It may be used for curtains.

・上記各実施の形態においては、巻取軸4は左端近傍にのみテーパ面が形成され、それ以外の箇所は長手方向に同径となる円筒形状に形成されていた。しかし、巻取軸4を該巻取軸4の長手方向全体に亘ってテーパ面を備えて形成してもよい。   In each of the above embodiments, the winding shaft 4 is formed with a tapered surface only in the vicinity of the left end, and other portions are formed in a cylindrical shape having the same diameter in the longitudinal direction. However, the winding shaft 4 may be formed with a tapered surface over the entire longitudinal direction of the winding shaft 4.

第一の実施の形態における日射遮蔽装置の遮蔽材昇降装置の正面図。The front view of the shielding material raising / lowering apparatus of the solar radiation shielding apparatus in 1st embodiment. 第一の実施の形態における日射遮蔽装置の遮蔽材昇降装置の側面図。The side view of the shielding material raising / lowering apparatus of the solar radiation shielding apparatus in 1st embodiment. 巻取軸に巻回される昇降コードの説明図。Explanatory drawing of the raising / lowering cord wound by the winding shaft. 巻取軸に巻回される昇降コードの説明図。Explanatory drawing of the raising / lowering cord wound by the winding shaft. 巻取軸に巻回される昇降コードの説明図。Explanatory drawing of the raising / lowering cord wound by the winding shaft. 第二の実施の形態における日射遮蔽装置の遮蔽材昇降装置の正面図。The front view of the shielding material raising / lowering apparatus of the solar radiation shielding apparatus in 2nd embodiment. 第二の実施の形態における日射遮蔽装置の遮蔽材昇降装置の側面図。The side view of the shielding material raising / lowering apparatus of the solar radiation shielding apparatus in 2nd embodiment. 別例の日射遮蔽装置の遮蔽材昇降装置の側面図。The side view of the shielding material raising / lowering apparatus of another solar radiation shielding apparatus.

符号の説明Explanation of symbols

1…ヘッドボックス
2…サポート部材
3…カバー
4…巻取軸
4b…切欠部
6…昇降コード
7…被覆部としてのチューブ
8…第一逆巻部
9…基準巻部
13…被覆部としてのコードガイド
DESCRIPTION OF SYMBOLS 1 ... Head box 2 ... Support member 3 ... Cover 4 ... Winding shaft 4b ... Notch part 6 ... Elevating cord 7 ... Tube as covering part 8 ... First reverse winding part 9 ... Reference | standard winding part 13 ... Code | cord | chord as covering part guide

Claims (9)

巻取軸をヘッドボックスに回転可能に支持し、前記巻取軸に昇降コードを螺旋状に巻取り、或いは遮蔽材の自重を利用して巻き戻すことにより、該遮蔽材を昇降する日射遮蔽装置の遮蔽材昇降装置において、
前記巻取軸は前記昇降コードの巻取り位置から該巻取軸の長手方向に沿って径が小さくなるテーパ面を備えて前記昇降コードを巻取るとき基準巻部を生成可能とし、
前記巻取軸の周囲を該巻取軸との間に隙間を設けて覆う被覆部を備え
前記昇降コードに前記遮蔽材の荷重がかかった状態で該昇降コードを巻き戻すとき、前記昇降コードを前記巻取り位置から送出可能とし、
前記昇降コードに前記遮蔽材の荷重がかからない状態で該昇降コードを巻き戻すとき、前記昇降コードを前記巻取り位置から送出不能とするとともに、前記基準巻部と前記巻取軸とを相対回転可能とし、前記基準巻部とは逆向きに昇降コードを巻取る逆巻部を前記巻取軸に生成可能としたことを特徴とする日射遮蔽装置の遮蔽材昇降装置。
A solar shading device that supports a winding shaft rotatably on a head box and winds the lifting / lowering cord spirally around the winding shaft or rewinds the shielding material by using its own weight. In the shielding material lifting and lowering device,
The winding shaft is provided with a tapered surface whose diameter decreases along the longitudinal direction of the winding shaft from the winding position of the lifting cord, so that a reference winding portion can be generated when winding the lifting cord,
A covering portion is provided that covers the winding shaft with a gap between the winding shaft and the lifting cord when the lifting cord is rewound in a state where the load of the shielding material is applied to the lifting cord. It is possible to send from the winding position,
When the lifting / lowering cord is rewound in a state where no load is applied to the lifting / lowering cord, the lifting / lowering cord cannot be sent out from the winding position, and the reference winding portion and the winding shaft can be rotated relative to each other. A shielding material lifting / lowering device for a solar radiation shielding device, wherein a reverse winding portion for winding the lifting / lowering cord in a direction opposite to the reference winding portion can be generated on the winding shaft.
巻取軸をヘッドボックスに回転可能に支持し、前記巻取軸に昇降コードを螺旋状に巻取り、或いは遮蔽材の自重を利用して巻き戻すことにより、該遮蔽材を昇降する日射遮蔽装置の遮蔽材昇降装置において、
前記巻取軸の一端に形成され、前記昇降コードの巻取り位置から該巻取軸の長手方向に沿って径が小さくなるテーパ面と、
前記昇降コードを屈曲させるとともに、該昇降コードを前記巻取軸の巻取り位置に導くサポート部材と、
前記巻取軸の周囲を該巻取軸との間に隙間を設けて覆う被覆部と、
前記巻取軸の他端に形成され、前記昇降コードを係止する切欠部と
を備えたことを特徴とする日射遮蔽装置の遮蔽材昇降装置。
A solar shading device that supports a winding shaft rotatably on a head box and winds the lifting / lowering cord spirally around the winding shaft or rewinds the shielding material by using its own weight. In the shielding material lifting and lowering device,
A tapered surface formed at one end of the winding shaft, the diameter of which decreases from the winding position of the lifting cord along the longitudinal direction of the winding shaft;
A support member that bends the elevating cord and guides the elevating cord to a winding position of the winding shaft;
A covering portion covering the periphery of the winding shaft with a gap between the winding shaft;
A shielding material lifting / lowering device for a solar radiation shielding device, comprising: a notch portion that is formed at the other end of the winding shaft and engages the lifting / lowering cord.
前記被覆部は前記巻取軸の周囲を該巻取軸の全周の半分以上覆っていることを特徴とする請求項1又は2に記載の日射遮蔽装置の遮蔽材昇降装置。 The shielding member lifting / lowering device for a solar radiation shielding device according to claim 1, wherein the covering portion covers the periphery of the winding shaft by more than half of the entire circumference of the winding shaft. 前記隙間は前記昇降コードの直径の1本以上2本分未満であることを特徴とする請求項1〜3の何れか一項に記載の日射遮蔽装置の遮蔽材昇降装置。 The said clearance gap is 1 or more and less than 2 diameters of the said raising / lowering cord, The shielding material raising / lowering apparatus of the solar radiation shielding apparatus as described in any one of Claims 1-3 characterized by the above-mentioned. 前記被覆部は前記巻取軸の略全長に亘って前記巻取軸を被覆することを特徴とする請求項1〜4の何れか一項に記載の日射遮蔽装置の遮蔽材昇降装置。 The said covering part covers the said winding shaft over the substantially full length of the said winding shaft, The shielding material raising / lowering apparatus of the solar radiation shielding apparatus as described in any one of Claims 1-4 characterized by the above-mentioned. 前記巻取軸の下方で前記昇降コードを屈曲させて該昇降コードの巻取り時或いは巻き戻し時の抵抗を付与することを特徴とする請求項1〜5の何れか一項に記載の日射遮蔽装置の遮蔽材昇降装置。 The solar shading according to any one of claims 1 to 5, wherein the elevating cord is bent under the winding shaft to provide resistance during winding or unwinding of the elevating cord. Device lifting / lowering device. 前記被覆部は円筒形状のチューブであることを特徴とする請求項1〜6の何れか一項に記載の日射遮蔽装置の遮蔽材昇降装置。 The said covering part is a cylindrical tube, The shielding material raising / lowering apparatus of the solar radiation shielding apparatus as described in any one of Claims 1-6 characterized by the above-mentioned. 前記被覆部は前記巻取軸に嵌合可能なカバーと該カバーと対向する位置に配設されたコードガイドとで構成されていることを特徴とする請求項1〜6の何れか一項に記載の日射遮蔽装置の遮蔽材昇降装置。 The said coating | coated part is comprised by the code guide arrange | positioned in the position which can be fitted to the said winding shaft, and the position facing this cover. The shielding material raising / lowering device of the solar radiation shielding apparatus of description. 請求項1〜8の何れか一項に記載の日射遮蔽装置の遮蔽材昇降装置を備えた日射遮蔽装置。 The solar radiation shielding apparatus provided with the shielding material raising / lowering device of the solar radiation shielding apparatus as described in any one of Claims 1-8.
JP2003272848A 2003-07-10 2003-07-10 Shielding material lifting device and solar shading device for solar shading device Expired - Fee Related JP4256225B2 (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2013076276A (en) * 2011-09-30 2013-04-25 Nichibei Co Ltd Device for lifting and lowering blind

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JP6479366B2 (en) * 2014-08-11 2019-03-06 立川ブラインド工業株式会社 Blind lifting device
CN110995129B (en) * 2019-12-17 2021-01-29 唐山海泰新能科技股份有限公司 Intelligent photovoltaic board

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2013076276A (en) * 2011-09-30 2013-04-25 Nichibei Co Ltd Device for lifting and lowering blind

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