JP4698265B2 - Rotation drive device for hoisting machine - Google Patents

Rotation drive device for hoisting machine Download PDF

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JP4698265B2
JP4698265B2 JP2005094070A JP2005094070A JP4698265B2 JP 4698265 B2 JP4698265 B2 JP 4698265B2 JP 2005094070 A JP2005094070 A JP 2005094070A JP 2005094070 A JP2005094070 A JP 2005094070A JP 4698265 B2 JP4698265 B2 JP 4698265B2
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drive
overload
spring
rotation
handwheel
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JP2006273491A (en
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徳勝 夏
鋼治 小山
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株式会社キトー
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Priority claimed from CN2006800092740A external-priority patent/CN101146735B/en
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本発明は、チェーンブロック等の巻上機の過負荷防止装置として装着される回転駆動装置に関する。   The present invention relates to a rotary drive device mounted as an overload prevention device for a hoisting machine such as a chain block.
従来より、ロードシーブを駆動する駆動軸と、駆動軸に固定された受圧部材と、駆動軸に進退可能に螺合された駆動部材と、駆動部材に回転可能に嵌合され、ハンドホイール等の駆動輪の駆動を押圧駆動部材に伝達する回転駆動部材を備えた巻上機は公知である。このような巻上機において、吊荷の制限荷重の調整を容易にし、かつ、過負荷状態になった場合にも、巻き降しを容易に行うための過負荷防止装置として、押圧駆動部材と回転駆動部材に係止歯を設け、過負荷時に、押圧駆動部材に対して回転駆動部材が空転するようにしたものが知られている。(例えば、特許文献1参照)
以下、特許文献1に記載された過負荷防止装置について、図15及び図16を参照して説明する。
Conventionally, a drive shaft for driving a load sheave, a pressure receiving member fixed to the drive shaft, a drive member screwed to the drive shaft so as to be able to advance and retract, and a drive member that is rotatably fitted, A hoisting machine including a rotary drive member that transmits drive of a drive wheel to a pressing drive member is known. In such a hoisting machine, as an overload prevention device for facilitating the adjustment of the limit load of the suspended load and easily unwinding even in an overload state, a pressing drive member and It is known that the rotation drive member is provided with locking teeth so that the rotation drive member idles with respect to the pressing drive member in the event of an overload. (For example, see Patent Document 1)
Hereinafter, the overload prevention apparatus described in Patent Document 1 will be described with reference to FIGS. 15 and 16.
図15は、従来の巻上機を示す正面図、図16は、巻上機の過負荷防止装置の主要部を示す分解斜視図である。図15において、ロードシーブ21には駆動軸22が回転可能に挿通されている。駆動軸22には、ネジ部22aが形成され、ネジ部22aには、ロードシーブ21に近い方から、受圧部材24と駆動部材30とが螺合されており、受圧部材24はネジ部22aの最内部までねじ込まれて駆動軸22に固定されている。受圧部材24は、大径のディスク部24aと小径のボス部24bとを同心に有しており、ボス部24bには、一対の摩擦部材29、29に挟まれて逆転防止輪27が外嵌されている。逆転防止輪27とその両側に配設された摩擦部材29、29とは、駆動部材30により受圧部材24のディスク部24aに押圧可能に構成されている。逆転防止輪27は、その外周に円周方向の一方へ傾斜する係止歯27aを備えており、その係止歯27aが側板に枢支されたラチェット爪28と係合することにより、逆転防止輪27は逆転が防止され、駆動軸に対して一方向、すなわち巻上方向にのみ回転可能としている。また、図16において、駆動部材30のフランジ部30aの軸方向先端面であって、大径のボス部30bにより外側の円盤面部には同一形状の係止歯30cが形成されている。駆動部材30の大径のボス部30bには、回転駆動部材32が外嵌されており、回転駆動部材32の軸方向基端面には、駆動部材30の係止歯30cと係合可能な係止歯32aが軸方向基端側に突き出して形成されている。回転駆動部材32の各係止歯32aは、駆動部材30の係止歯30c間に形成された凹溝と略適合した形状に形成されている。回転駆動部材32の外周部には、ハンドホイール34が外嵌されている。回転駆動部材32の駆動部材30に対する位置決めは、駆動部材30の先端側の小径のボス部30dのねじ部に、円板状の回転制限部材35及び付勢手段である皿バネ33を介して、ナット36をねじ込むことにより行われる。回転制限部材35の内周部には、略短形状の係合凸部35aが径方向内側に複数個突出形成されている。回転制限部材35は、駆動部材30に対し周方向への相対移動が規制されるが、軸方向移動は可能とされている。皿バネ33は、回転制限部材35を介して、回転駆動部材32を軸方向基端方向(駆動部材30の側)に押圧するよう付勢力を作用させる。   FIG. 15 is a front view showing a conventional hoisting machine, and FIG. 16 is an exploded perspective view showing a main part of an overload prevention device for the hoisting machine. In FIG. 15, a drive shaft 22 is rotatably inserted in the load sheave 21. The drive shaft 22 is formed with a screw portion 22a, and the pressure receiving member 24 and the drive member 30 are screwed into the screw portion 22a from the side closer to the load sheave 21, and the pressure receiving member 24 is connected to the screw portion 22a. It is screwed to the innermost part and is fixed to the drive shaft 22. The pressure-receiving member 24 has a large-diameter disk portion 24a and a small-diameter boss portion 24b concentrically. The boss portion 24b is sandwiched between a pair of friction members 29 and 29 and an anti-reverse wheel 27 is fitted outside. Has been. The anti-reverse wheel 27 and the friction members 29 and 29 disposed on both sides of the anti-reverse wheel 27 are configured to be pressed against the disk portion 24a of the pressure receiving member 24 by the driving member 30. The anti-reverse wheel 27 is provided with a locking tooth 27a inclined on one side in the circumferential direction on the outer periphery, and the reverse rotation prevention is achieved by engaging the locking tooth 27a with a ratchet claw 28 pivotally supported on the side plate. The wheel 27 is prevented from being reversely rotated, and can rotate only in one direction with respect to the drive shaft, that is, in the winding direction. Also, in FIG. 16, the same shape of locking teeth 30c is formed on the outer disk surface portion of the front end surface in the axial direction of the flange portion 30a of the drive member 30 by the large-diameter boss portion 30b. A rotary drive member 32 is fitted on the large-diameter boss portion 30 b of the drive member 30, and the axial base end surface of the rotary drive member 32 is engageable with the locking teeth 30 c of the drive member 30. Stop teeth 32a are formed to protrude toward the proximal end in the axial direction. Each locking tooth 32 a of the rotation drive member 32 is formed in a shape that is substantially matched with a concave groove formed between the locking teeth 30 c of the drive member 30. A hand wheel 34 is fitted on the outer periphery of the rotation drive member 32. The rotation drive member 32 is positioned relative to the drive member 30 through a disk-shaped rotation limiting member 35 and a disc spring 33 which is a biasing means on a screw portion of a small-diameter boss 30d on the distal end side of the drive member 30. This is done by screwing the nut 36. A plurality of substantially short engaging protrusions 35 a are formed on the inner peripheral portion of the rotation limiting member 35 so as to protrude radially inward. The rotation restricting member 35 is restricted from moving relative to the drive member 30 in the circumferential direction, but can be moved in the axial direction. The disc spring 33 exerts an urging force so as to press the rotation drive member 32 in the axial base end direction (the drive member 30 side) via the rotation limiting member 35.
次に、この従来の巻上機の使用について説明する。まず、ナット36がねじ込まれ、付勢手段である皿バネ33が回転制限部材35を軸方向基端側に押圧する。回転制限部材35は回転駆動部材32に接触しているから、回転駆動部材32を駆動部材30の側に付勢する。このとき、駆動部材30の係止歯30cと、回転駆動部材32の係止歯32aとが互いに係合している。ロードシーブ1に巻掛けられたロードチェーンに、制限荷重以下の負荷が吊り下げられている場合には、ハンドホイール34を操作して回転駆動部材32を回転させると、回転は係止歯32a、30cを介して、駆動部材30に伝達され、駆動部材30で受圧部材23を押圧して回転させ、荷を巻き上げることができる。これに対し、過負荷の荷が吊り上げられている場合に、ハンドホイール34で回転駆動部材32を回転させると、回転駆動部材32はハンドホイール34と一緒に、皿バネ33の付勢力に抗して軸方向先端側に押し戻されつつ、係止歯32aの巻上時押圧面が駆動部材30の係止歯30cの巻上時押圧面に沿って押し上げられ、回転駆動部材32の係止歯32aは、駆動部材30の係止歯30cを乗り越え、皿バネ33の付勢力により、駆動部材30の係止歯30cの間の次の溝に収まって係合される。このように、過負荷状態でハンドホイール34を巻上方向に回転させると、駆動部材30は回転しないが、回転駆動部材32のみが回転して、駆動部材30を正転させることができず、過負荷の吊上げ(巻き上げ)が防止される。
特許第309629号明細書(3〜5頁、図1、2参照)
Next, the use of this conventional hoisting machine will be described. First, the nut 36 is screwed in, and the disc spring 33 as an urging means presses the rotation limiting member 35 toward the axial base end side. Since the rotation limiting member 35 is in contact with the rotation drive member 32, the rotation drive member 32 is biased toward the drive member 30. At this time, the locking teeth 30c of the drive member 30 and the locking teeth 32a of the rotation drive member 32 are engaged with each other. When a load equal to or lower than the limit load is suspended on the load chain wound around the load sheave 1, when the handwheel 34 is operated to rotate the rotation drive member 32, the rotation is caused by the locking teeth 32a, It is transmitted to the drive member 30 through 30c, and the pressure receiving member 23 can be pressed and rotated by the drive member 30 to wind up the load. On the other hand, when an overloaded load is lifted, if the rotary drive member 32 is rotated by the handwheel 34, the rotary drive member 32 resists the biasing force of the disc spring 33 together with the handwheel 34. Then, the pressing surface of the locking tooth 32 a is pushed up along the winding pressing surface of the locking tooth 30 c of the driving member 30 while being pushed back to the tip end side in the axial direction, and the locking tooth 32 a of the rotation driving member 32 is pushed. Gets over the locking teeth 30c of the driving member 30 and is engaged in the next groove between the locking teeth 30c of the driving member 30 by the biasing force of the disc spring 33. As described above, when the handwheel 34 is rotated in the winding direction in an overload state, the drive member 30 does not rotate, but only the rotation drive member 32 rotates and the drive member 30 cannot be rotated forward. Overload lifting is prevented.
Japanese Patent No. 309629 (see pages 3 to 5, see FIGS. 1 and 2)
しかしながら、従来の巻上機における過負荷防止装置では、付勢手段と付勢手段を押圧するナットを駆動部材上に積層している構造としているので、巻上機を小形化するためには、付勢手段として皿バネ等の小ストロークの付勢手段を用いざるを得ず、そのため、付勢手段の軸方向のストロークが小さくなり、過負荷防止用係止歯の高さも皿バネのストロークに合わせて小さいものとなるため、係止歯の高さに精度を持たせるためには、機械加工等が必要で、コスト高となる。さらに、過負荷防止用係止歯の高さが低いため、製造公差を同一とした場合、係止歯の高さが高い歯に比べて、歯の高さに対する製造公差の誤差の割合が大きくなるため、スリップ荷重のばらつきが大きくなり、製品の品質安定性を損なうこととなる。また、巻上機の出荷時にスリップ荷重をある値の範囲内にすることが必要となるが、ストロークが小さいため、関連部品の累積寸法誤差によるバネ圧の誤差の影響を受けやすく、出荷時には全品のバネ圧を調整する必要が有り、調整範囲も微小となり、調整が困難で熟練を有していた。   However, the overload prevention device in the conventional hoisting machine has a structure in which the urging means and the nut that presses the urging means are stacked on the driving member, so in order to reduce the size of the hoisting machine, As a biasing means, a small stroke biasing means such as a disc spring has to be used, so that the axial stroke of the biasing means becomes small, and the height of the overload prevention locking teeth also becomes the stroke of the disc spring. Since it becomes a small thing collectively, in order to give the precision to the height of a locking tooth, machining etc. are required and it becomes high-cost. In addition, since the height of the locking tooth for preventing overload is low, if the manufacturing tolerance is the same, the ratio of the manufacturing tolerance error to the tooth height is larger than that of the tooth having a high locking tooth height. Therefore, the variation in slip load becomes large, and the quality stability of the product is impaired. In addition, it is necessary to keep the slip load within a certain range when the hoisting machine is shipped. However, since the stroke is small, it is easily affected by the error of the spring pressure due to the accumulated dimensional error of related parts. It was necessary to adjust the spring pressure, and the adjustment range became very small, making adjustment difficult and skilled.
また、巻上装置を大型化することなく、かつストロークの大きな弾性部材を用いることにより、上記課題を解決する巻上機における過負荷防止装置として、本出願人においてロードシーブを駆動する駆動軸と、駆動軸に外装された受圧部材と、ハンドホイールからの駆動力を受圧部材を介して駆動軸に伝達する駆動部材と、ハンドホイールからの駆動力を駆動部材に伝達し、ハンドホイールに所定トルク値以上のトルクが加わった場合に、駆動部材との係合を解除する手段を備えた回転駆動部材と、回転駆動部材の背面とハンドホイールの内側端面間で、駆動部材の軸方向に沿って装着され、回転駆動部材を付勢する複数の弾性部材を備えた過負荷防止装置が開発されている。   In addition, as an overload prevention device in a hoisting machine that solves the above-mentioned problems by using an elastic member having a large stroke without increasing the hoisting device, a drive shaft for driving a load sheave in the present applicant; , A pressure receiving member externally mounted on the drive shaft, a drive member that transmits the driving force from the hand wheel to the drive shaft through the pressure receiving member, and a driving force from the hand wheel to the driving member, and a predetermined torque on the hand wheel A rotation drive member having means for releasing the engagement with the drive member when a torque greater than the value is applied, and between the back surface of the rotation drive member and the inner end face of the handwheel along the axial direction of the drive member An overload prevention device has been developed that includes a plurality of elastic members that are mounted and bias the rotational drive member.
しかし、上記過負荷防止装置では、回転駆動部材は、駆動部材の軸方向に沿って配設された複数のバネにより付勢されるため、回転駆動部材が受けるバネ圧が不均一となり、そのため、過負荷時に、回転駆動部材は傾斜し易くなり、傾斜により、回転駆動部材がハンドホイールの内周のガイド部に干渉して軸方向の移動が円滑にできなくなるという課題を有していた。また、ハンドホイールの内側端面はバネに直接押圧されるため、ハンドホイールと、ハンドホイールと駆動部材を係止する座金の摺動面の間にバネによる摩擦抵抗が発生し、座金の精度は必ずしも一定でないため、過負荷時における回転駆動部材と駆動部材とのスリップ荷重が一定にならないという課題を有していた。   However, in the overload prevention device, the rotation drive member is biased by a plurality of springs arranged along the axial direction of the drive member, so that the spring pressure received by the rotation drive member becomes non-uniform. At the time of overload, the rotation driving member is easily inclined, and the inclination causes a problem that the rotation driving member interferes with the guide portion on the inner periphery of the handwheel and the movement in the axial direction cannot be smoothly performed. In addition, since the inner end surface of the handwheel is directly pressed by the spring, a frictional resistance is generated between the handwheel and the sliding surface of the washer that locks the handwheel and the driving member, and the accuracy of the washer is not necessarily Since it is not constant, there is a problem that the slip load between the rotary drive member and the drive member during overload is not constant.
本発明は上記課題を解決するもので、巻上機の操作手段の内周と係合し、操作手段の駆動を駆動部材に伝達する巻上機における回転駆動装置であって、前記回転駆動装置は、環状リンクと、環状リンクの外周から駆動部材の軸方向に延びて突出し、操作手段の内周と幅方向に嵌合する複数の横長状突起を有し、前記横長状突起駆動部材側端部に駆動部材に巻装されたバネの付勢力により軸方向に付勢されて、駆動部材に設けた係合歯と噛合し、過負荷時に前記バネの付勢力に抗して軸方向に押し戻されて係合歯を乗り越えて空転する過負荷防止用係合歯を設けたことを特徴とする。 The present invention is intended to solve the above problems, engage the inner and the operating means of the hoisting machine, a rotary drive device in hoist you transfer a driving operation means to the drive member, the rotary drive The apparatus has an annular link and a plurality of horizontally elongated protrusions that extend in the axial direction of the drive member from the outer periphery of the annular link and fit in the inner periphery and the width direction of the operating means, and the horizontally elongated protrusion is the drive member the side end portion, is urged in the axial direction by the urging force of the wound by a spring to the drive member, and engagement teeth meshes provided on the drive member, against the urging force of the spring when the overload shaft An overload-preventing engagement tooth that is pushed back in the direction and slips over the engagement tooth is provided.
また、前記過負荷防止用係合歯を横長状突起の駆動部材側端部で、環状リンク端面から突出して設けたことを特徴とする。 The overload-preventing engagement teeth may be provided so as to protrude from the end face of the annular link at the end of the horizontally long protrusion on the drive member side.
また、前記環状リンクを横長状突起の長さに対して薄く形成したことを特徴とする。   Further, the annular link is formed thin with respect to the length of the horizontally long projection.
本発明の巻上機における回転駆動装置は、環状リンクと、環状リンクの外周から駆動部材の軸方向に突出し、操作手段の内周と幅方向に延びて嵌合する複数の横長状突起を設け、前記突起の駆動部材側端部のみに駆動部材の係合歯と噛合する過負荷防止用係合歯を設けた構成としたことで、過負荷防止用係合歯は、ハンドホイールに動力を伝達する横長状突起のみの直下に設けられててるため、過負荷防止用係合歯と前記係合歯を設ける基部の強度をバネ圧を受ける部分の小型化を意識せずに従来装置に比して強化することができるとともに、耐久性を大幅に向上することができ、かつ、バネ圧を受けるための環状リンク部直下には過負荷防止用係合歯が設けられないため、過負荷時において、前記係合歯が駆動部材の係合歯を乗り越える際の前記係合歯から受ける反力に耐える強度確保が不必要となり、環状リンク部を従来装置に比して薄くでき、軸方向の寸法を抑えることができ、小形、軽量化が可能となる。また、横長状突起部に過負荷防止用係合歯を設け、過負荷防止用係合歯の強度を高めた結果、係合歯の傾斜歯部の傾斜角度を大きくでき、過負荷防止用係合歯が駆動部材の係合歯を乗り越えるためのスベリ抵抗を大きく設定することができるため、バネ圧の小さいバネを使用でき、小型化が可能となる。   The rotary drive device in the hoisting machine of the present invention is provided with an annular link and a plurality of horizontally elongated projections that protrude from the outer periphery of the annular link in the axial direction of the drive member and extend in the width direction with the inner periphery of the operating means. The overload-preventing engagement teeth provide power to the handwheel because the overload-prevention engagement teeth that mesh with the engagement teeth of the drive member are provided only on the drive-member-side end portions of the protrusions. Since it is provided just below the horizontally long projections to be transmitted, the strength of the overload prevention engaging teeth and the base where the engaging teeth are provided are compared with the conventional device without considering the downsizing of the part receiving the spring pressure. Can be strengthened and the durability can be greatly improved, and no overload prevention engagement teeth are provided directly under the annular link for receiving spring pressure. And when the engaging teeth get over the engaging teeth of the drive member The engagement receiving from engagement teeth securing strength to withstand the reaction force becomes unnecessary, can be made thin in comparison to annular link portion to the conventional apparatus, it is possible to suppress the axial dimension, compact, thereby enabling weight reduction. In addition, as a result of providing overload-preventing engagement teeth on the horizontally elongated protrusions and increasing the strength of the overload-prevention engagement teeth, the inclination angle of the inclined teeth of the engagement teeth can be increased. Since the sliding resistance for the combined teeth to get over the engaging teeth of the drive member can be set large, a spring having a small spring pressure can be used, and the size can be reduced.
また、過負荷防止用係合歯の高さも大きくすることができるため、係合歯の高さに対する製造公差の誤差の割合いを小さくでき、スリップ荷重のばらつきの発生を抑制することができ、巻上機の出荷時における調整も不要とすることができる。   Moreover, since the height of the engagement tooth for overload prevention can be increased, the ratio of the manufacturing tolerance error to the height of the engagement tooth can be reduced, and the occurrence of slip load variation can be suppressed. Adjustment at the time of shipment of the hoisting machine can be made unnecessary.
さらに、横長状突起の突起部の高さを高くし、操作手段との係合を大きくすることにより、操作手段の作動時に傾動動作が発生せず操作手段に嵌合してスムースに移動でき、さらに、回転駆動装置は、操作手段と接触しないので、摩擦抵抗が小さく、作動安定性を向上することができる。   Furthermore, by increasing the height of the protruding portion of the horizontally long protrusion and increasing the engagement with the operating means, the tilting operation does not occur when the operating means is operated, and the operating means can be smoothly fitted and moved. Furthermore, since the rotary drive device does not come into contact with the operation means, the frictional resistance is small and the operational stability can be improved.
以下、本発明の実施の形態について説明する。   Embodiments of the present invention will be described below.
本発明の実施の形態の巻上機について図1〜14を参照しながら説明する。図1は、本発明の実施の形態の巻上機の正面図、図2は、図1の過負荷防止装置の要部拡大図、図3は、図2の分解斜視図、図4は図2のハンドホイールの正面図、図5は図4のA−A断面図、図6は図2の駆動部材の正面図、図7は図6の平面図、図8は図7のA−A断面図、図9は図2の回転駆動部材の正面図、図10は図9の底面図、図11は図9の嵌合凸部側斜視図、図12は過負荷防止用係合歯側傾視図、図13は図2のバネ押えの正面図、図14は図13のA−A断面図である。   A hoisting machine according to an embodiment of the present invention will be described with reference to FIGS. 1 is a front view of a hoisting machine according to an embodiment of the present invention, FIG. 2 is an enlarged view of a main part of the overload prevention device of FIG. 1, FIG. 3 is an exploded perspective view of FIG. 5 is a cross-sectional view taken along the line AA in FIG. 4, FIG. 6 is a front view of the drive member in FIG. 2, FIG. 7 is a plan view in FIG. 6, and FIG. 9 is a front view of the rotary drive member of FIG. 2, FIG. 10 is a bottom view of FIG. 9, FIG. 11 is a perspective view of the fitting convex portion of FIG. 9, and FIG. FIG. 13 is a front view of the spring presser of FIG. 2, and FIG. 14 is a cross-sectional view taken along line AA of FIG. 13.
図において、1はロードシーブ、2はロードシーブ1に回転可能に軸支された駆動軸、2aは受圧部材4との嵌合部、3aは駆動軸2の先端に設けたギヤと噛合し、回転を減速する減速ギヤ、3bは減速ギヤ3aと一体の小ギヤ(図示せず)と噛合し、ロードシーブ1を回転するロードギヤ、4は受圧部材、4aは受圧部材のボス部、5は逆転防止輪、6は逆転防止輪5を一方向に回動するように制御するツメ、7はツメ6を付勢するバネ、8はブレーキ板、9は操作手段であるハンドホイールで、ハンドホイール9の内側内周9cに、回転駆動部材11の横長状突起11bが嵌合する嵌合凹部9aと、駆動部材10及びバネ押え13の端面が当接する内側端面9dと、駆動部材10のガイド部10gとバネ押え13のガイド部13cと摺接する環状ガイド部9eを備える。10は駆動部材、10aは駆動部材のメネジ部で受圧部材4と螺合する。10bは駆動部材10のフランジ部で、ハンドホイール9の内径より大径の外径を有し、その端面は円盤形状である。10cは回転駆動部材11及びバネ12が嵌挿されるボス部、10dはフランジ部10bのハンドホイール側円盤面に形成された係合歯で、その形状は、後記する回転駆動部材11の過負荷防止用係合歯11aが密接する形状となっている。係合歯10dは、略直角方向の急斜面を有する係止歯部10jと緩斜面を有する傾斜歯部10kを有する。10eは後記するバネ押え13が螺合するネジ溝、10fはバネ押えが当接する位置決め用係止段部、10gはフランジ10bの外周面で、ハンドホイール9のガイド部9eに摺接し、ハンドホイールを支承するガイド部、10hは扇形状の開口部、10iは端部である。前記開口部10hには、駆動軸2の端部に固着された回転規制部材14が挿入され、駆動部材10がメネジ10aによるネジの緩み方向へ回転されたときに、駆動部材10の開口部10hの端部10iが回転規制部材14に当接して回転規制するようになっており、駆動部材10の緩み過ぎを防止する。   In the figure, 1 is a load sheave, 2 is a drive shaft rotatably supported by the load sheave 1, 2a is a fitting portion with the pressure receiving member 4, 3a is engaged with a gear provided at the tip of the drive shaft 2, A reduction gear 3 for reducing the rotation is engaged with a small gear (not shown) integrated with the reduction gear 3a, and a load gear for rotating the load sheave 1, 4 is a pressure receiving member, 4a is a boss portion of the pressure receiving member, and 5 is reverse rotation. The prevention wheel, 6 is a claw for controlling the reverse rotation prevention wheel 5 to rotate in one direction, 7 is a spring for urging the claw 6, 8 is a brake plate, 9 is a hand wheel as an operating means, The inner recess 9a into which the horizontally long projection 11b of the rotary drive member 11 is fitted, the inner end face 9d with which the end faces of the drive member 10 and the spring retainer 13 are in contact, and the guide portion 10g of the drive member 10 And sliding contact with the guide portion 13c of the spring presser 13 That includes an annular guide portion 9e. Reference numeral 10 denotes a driving member, and reference numeral 10a denotes a female screw portion of the driving member, which is screwed with the pressure receiving member 4. Reference numeral 10b denotes a flange portion of the drive member 10, which has an outer diameter larger than the inner diameter of the handwheel 9, and has an end surface in a disk shape. Reference numeral 10c denotes a boss part into which the rotational drive member 11 and the spring 12 are inserted, and reference numeral 10d denotes engagement teeth formed on the handwheel side disk surface of the flange part 10b, and the shape thereof prevents overload of the rotational drive member 11 to be described later. The engaging teeth 11a for use are in close contact. The engaging tooth 10d has a locking tooth portion 10j having a steep slope in a substantially right angle direction and an inclined tooth portion 10k having a gentle slope. 10e is a thread groove into which a later-described spring presser 13 is screwed, 10f is a positioning step for contact with the spring presser, and 10g is an outer peripheral surface of the flange 10b. 10h is a fan-shaped opening, and 10i is an end. A rotation restricting member 14 fixed to the end of the drive shaft 2 is inserted into the opening 10h, and the opening 10h of the drive member 10 is rotated when the drive member 10 is rotated in the loosening direction of the screw by the female screw 10a. The end portion 10i is in contact with the rotation restricting member 14 to restrict the rotation, and the drive member 10 is prevented from being loosened too much.
なお、通常時は駆動部材10の開口部10hの端部10iと回転規制部材14は回転方向に所定の間隔が設けられている。11は駆動部材10のボス部10cに嵌合する回転駆動部材で、環状リンク部11eと、環状リンク部11eの外周には、ハンドホイール9の嵌合凹部9aと幅方向に嵌合するように、駆動部材10の軸方向に延びる横長状突起である嵌合凸部11bを備え、該横長状突起11bの駆動部材10側には、回転駆動部材11の駆動部材10側端面から、駆動部材10側に突出し、駆動部材10の係合歯10dと噛合する過負荷防止用係止歯11aが設けられている。過負荷防止用係止歯11aは、荷の降下時に作用する略直角方向の急斜面を有する係止歯部11cと荷の持ち上げ動作時に作用する緩斜面を有する傾斜歯部11dを有する。   In normal times, the end 10i of the opening 10h of the drive member 10 and the rotation restricting member 14 are provided with a predetermined interval in the rotation direction. Reference numeral 11 denotes a rotational drive member that fits into the boss portion 10c of the drive member 10, and the annular link portion 11e and the outer periphery of the annular link portion 11e are fitted to the fitting recess 9a of the handwheel 9 in the width direction. The drive member 10 is provided with a fitting protrusion 11b which is a horizontally long protrusion extending in the axial direction of the drive member 10, and the drive member 10 is provided on the drive member 10 side of the horizontally long protrusion 11b from the drive member 10 side end surface of the rotation drive member 11. An overload-preventing locking tooth 11 a that protrudes to the side and meshes with the engaging tooth 10 d of the driving member 10 is provided. The overload-preventing locking tooth 11a has a locking tooth portion 11c having a steep slope in a substantially right angle direction that acts when the load is lowered, and an inclined tooth portion 11d having a gentle slope that acts when the load is lifted.
本実施例では、回転駆動部材11は後記するバネ12の付勢力に抗して、ハンドホイール9の嵌合凹部9aに沿って駆動部材10の軸方向に移動可能である。図9に示すように、リンク部11eの厚さは、前記突起11bの軸方向長さhに対して、相対的に薄く形成されており、また、突起11bは回転駆動部材11をハンドホイール9に対して、傾動せず移動伝達可能に係合するための、十分な係合長を確保している。また、前記突起11bは、回転駆動部材11の環状リンク部11eの外周に4個設けられ、ハンドホイール9には嵌合凹部9aが4個設けられている。この個数は4個に限定されるものではない。また、突起11bの外周とハンドホイール9の嵌合凹部9aとの間には摩擦を減少するための隙間が設けられている。12は回転駆動部材11を駆動部材10側に付勢するバネで、バネ12は、内バネ12a、外バネ12bのからなり、駆動部材10のボス部10cに巻装され、駆動部材10とハンドホイールの内側内周9c間と回転駆動部材11とバネ押え13間の空間に配設される。13はバネ押えで、駆動部材10のネジ溝10eに螺合するネジ部13aと、駆動部材10に螺着時に、駆動部材10の係止段部10fと当接する当接面13bと、外周にハンドホイール9の内径より大径の外径を有し、ハンドホイール9の環状ガイド部9eと摺接するガイド部13cを有する。14は駆動軸2の端部に固着され、駆動部材10の開口部に嵌合する回転規制部材である。巻上機の駆動、制動部分は、ハンドホイール9に回転駆動部材11を介して連結した駆動部材10、受圧部材4、逆転防止輪5、ブレーキ板8から構成されるいわゆるメカニカルブレーキにて行われる。   In this embodiment, the rotary drive member 11 can move in the axial direction of the drive member 10 along the fitting recess 9 a of the handwheel 9 against the biasing force of the spring 12 described later. As shown in FIG. 9, the thickness of the link portion 11e is formed relatively thin with respect to the axial length h of the projection 11b, and the projection 11b connects the rotary drive member 11 to the handwheel 9 as shown in FIG. On the other hand, a sufficient engagement length is ensured to engage with each other so that the movement can be transmitted without tilting. Four protrusions 11b are provided on the outer periphery of the annular link portion 11e of the rotation drive member 11, and the handwheel 9 is provided with four fitting recesses 9a. This number is not limited to four. Further, a gap for reducing friction is provided between the outer periphery of the protrusion 11 b and the fitting recess 9 a of the handwheel 9. A spring 12 urges the rotary drive member 11 toward the drive member 10. The spring 12 includes an inner spring 12 a and an outer spring 12 b, and is wound around the boss portion 10 c of the drive member 10. It is disposed in the space between the inner inner periphery 9 c of the wheel and between the rotation drive member 11 and the spring retainer 13. Reference numeral 13 denotes a spring retainer, a screw portion 13a that is screwed into the screw groove 10e of the drive member 10, a contact surface 13b that comes into contact with the locking step portion 10f of the drive member 10 when screwed to the drive member 10, and an outer periphery. It has a guide portion 13 c that has an outer diameter larger than the inner diameter of the handwheel 9 and that is in sliding contact with the annular guide portion 9 e of the handwheel 9. Reference numeral 14 denotes a rotation restricting member fixed to the end of the drive shaft 2 and fitted into the opening of the drive member 10. The hoisting machine is driven and braked by a so-called mechanical brake including a driving member 10, a pressure receiving member 4, a reverse rotation preventing wheel 5, and a brake plate 8 connected to the handwheel 9 via a rotation driving member 11. .
前記の通り、ハンドホイール9には、その内周面9cと駆動部材10の外周との間で、ハンドホイール1の内周9cの幅と略同長の長さの空間9fが設けられており、この空間9fに、駆動部材10とハンドホイール9と係合し、ハンドホイール9の駆動を駆動部材10に伝達する回転駆動部材11と、駆動部材10のボス部10cに巻装され、回転駆動部材11を駆動部材10側に押圧するバネ部材12と、駆動部材10のネジ溝10eに螺合され、前記バネ部材12を押止するバネ押え13が内設されている。   As described above, the handwheel 9 is provided with a space 9f having a length substantially the same as the width of the inner periphery 9c of the handwheel 1 between the inner peripheral surface 9c and the outer periphery of the drive member 10. In this space 9f, the drive member 10 and the handwheel 9 are engaged with each other, and the rotation drive member 11 that transmits the drive of the handwheel 9 to the drive member 10 and the boss portion 10c of the drive member 10 are wound around and rotated. A spring member 12 that presses the member 11 toward the drive member 10 and a spring retainer 13 that is screwed into the screw groove 10e of the drive member 10 and holds the spring member 12 are provided.
また、駆動部材10には、バネ押え13の回転駆動部材11側への移動を規制する段部10fが設けられており、バネ押え13は駆動部材10のネジ溝10eに螺合し、前記段部10fに当接して固定され、この状態でバネ押え13の外周のガイド部13cはハンドホイール9の環状ガイド9eに摺接して、ハンドホイール9の回転をガイドするように構成されており、また、駆動部材10のガイド部10gは、ハンドホイール9の駆動部材10側の環状ガイド9eに摺接して、ハンドホイール9の回転をガイドするように構成されている。このように、ハンドホイール9の環状ガイド9eは、バネ押え13のガイド部13cと駆動部材10のガイド部10gに摺接して、これらのガイド部で支承されている。また、駆動部材10に巻装されるバネ部材12は、小径コイルバネ12aと大径コイルバネ12bからなり、駆動部材10とハンドホイール9の内周9c間で、回転駆動部材11とバネ押え13間の軸方向にストレートに延びる筒状の空間内に張設されている。駆動部材10の内側にはメネジ10aが螺設されており、該メネジ10aは受圧部材4の外周に設けたネジに螺合している。受圧部材4の外周には、ブレーキ板8が同軸上に回転可能に設けられ、ブレーキ板8は、受圧部材4の一端に形成された受圧部と駆動部材10間に一対で、受圧部材4に対しては回転可能に設けられている。また、ブレーキ板8、8間には、受圧部材4の外周同軸上に逆転防止輪5が設けられている。   Further, the drive member 10 is provided with a step portion 10f for restricting the movement of the spring retainer 13 toward the rotational drive member 11 side, and the spring retainer 13 is screwed into the screw groove 10e of the drive member 10 so that the step is provided. In this state, the guide portion 13c on the outer periphery of the spring presser 13 is configured to be in sliding contact with the annular guide 9e of the handwheel 9 to guide the rotation of the handwheel 9. The guide portion 10 g of the drive member 10 is configured to slide in contact with the annular guide 9 e on the drive member 10 side of the handwheel 9 to guide the rotation of the handwheel 9. Thus, the annular guide 9e of the handwheel 9 is slidably contacted with the guide portion 13c of the spring retainer 13 and the guide portion 10g of the drive member 10, and is supported by these guide portions. The spring member 12 wound around the drive member 10 includes a small-diameter coil spring 12a and a large-diameter coil spring 12b, and between the drive member 10 and the inner periphery 9c of the handwheel 9, between the rotary drive member 11 and the spring retainer 13. It is stretched in a cylindrical space extending straight in the axial direction. A female screw 10 a is screwed inside the driving member 10, and the female screw 10 a is screwed to a screw provided on the outer periphery of the pressure receiving member 4. A brake plate 8 is provided on the outer periphery of the pressure receiving member 4 so as to be coaxially rotatable. The brake plate 8 is a pair between the pressure receiving portion formed at one end of the pressure receiving member 4 and the driving member 10, and is attached to the pressure receiving member 4. On the other hand, it is rotatably provided. An anti-reverse wheel 5 is provided between the brake plates 8 and 8 on the outer circumference coaxial with the pressure receiving member 4.
また、18は巻上機のフレーム本体で、アルミニウム合金を用いたダイキャスト成形やロストワックス鋳造にて成形されている。
フレーム本体18は、図1に示すように、駆動側フレーム18aと減速側フレーム18bと、両者を連結結合する連結フレーム18cを備え、フレーム18a、18bはそれぞれ駆動側、減速側に張出しており、その外周端縁部に駆動側カバー20aと減速機側カバー20bが密接状態で取着されている。駆動側フレーム18aの駆動側張出し部には、駆動側に向う開口部19aが形成されており、開口部19a内に受圧部材4、ブレーキ板8、逆転防止輪5、爪6、バネ7が収容される。駆動側フレーム18aの側端部には、ハンドホイール9が嵌合する環状溝19bが設けられており、該環状溝19bには、メカニカルブレーキによるハンドホイール9の軸方向移動をしても該環状溝19bにハンドホイールが嵌合される充分な軸方向のスペース19cが予め設けられている。
Reference numeral 18 denotes a frame body of a hoisting machine, which is formed by die casting using an aluminum alloy or lost wax casting.
As shown in FIG. 1, the frame body 18 includes a drive side frame 18a and a deceleration side frame 18b, and a connection frame 18c that connects and couples both, and the frames 18a and 18b project to the drive side and the deceleration side, respectively. The drive side cover 20a and the reduction gear side cover 20b are attached in close contact with the outer peripheral edge. An opening 19a facing the drive side is formed in the drive side overhanging portion of the drive side frame 18a, and the pressure receiving member 4, the brake plate 8, the reverse rotation preventing wheel 5, the claw 6, and the spring 7 are accommodated in the opening 19a. Is done. An annular groove 19b into which the handwheel 9 is fitted is provided at a side end portion of the driving side frame 18a. The annular groove 19b has an annular groove even when the handwheel 9 is moved in the axial direction by a mechanical brake. A sufficient axial space 19c in which the handwheel is fitted in the groove 19b is provided in advance.
この構成によって、開口部19aに収容される受圧部材4、ブレーキ板8、逆転防止輪5、爪6、バネ7は、駆動側フレーム18aの側端部に設けた環状溝19bにハンドホイール9が装着されていることにより、外部から密閉されるため、外部からの粉塵の侵入を防止することができ、粉塵によるメカニカルブレーキや過負荷防止装置の性能低下を防止することができる。   With this configuration, the pressure receiving member 4, the brake plate 8, the anti-reverse wheel 5, the claw 6, and the spring 7 that are accommodated in the opening 19 a have the handwheel 9 in the annular groove 19 b provided at the side end of the drive side frame 18 a. Since it is sealed from the outside by being mounted, it is possible to prevent dust from entering from the outside, and it is possible to prevent performance degradation of the mechanical brake and the overload prevention device due to dust.
また、18d、18eは、連結フレーム18cの内側に固設され、ロードシーブ1を回転可能に軸承する軸受プレートと、ロードシーブ1の軸受部の耐摩耗を向上させることができ、ダイキャスト成形によるアルミ合金製とすることで、耐摩耗性を低下させないので軽量化することができる。   18d and 18e are fixed to the inside of the connecting frame 18c, and can improve the wear resistance of the bearing plate for rotatably supporting the load sheave 1 and the bearing portion of the load sheave 1 by die casting. By using an aluminum alloy, the wear resistance is not lowered, and thus the weight can be reduced.
次に、本実施の形態による駆動力切替え動作について説明する。通常操作時において、ハンドホイール9の回転は、回転駆動部材11、駆動部材10、受圧部材4を介して、駆動軸2に伝達され、駆動軸2から減速ギヤ3a、ロードギヤ3bで減速されて、ロードシーブ1を減速駆動する。   Next, the driving force switching operation according to the present embodiment will be described. During normal operation, the rotation of the handwheel 9 is transmitted to the drive shaft 2 through the rotation drive member 11, the drive member 10, and the pressure receiving member 4, and is decelerated from the drive shaft 2 by the reduction gear 3a and the load gear 3b. Drives the load sheave 1 at a reduced speed.
次に、過負荷時に作動する過負荷防止装置の構成及び作用について説明する。ハンドホイール9には、コイルバネ12、回転駆動部材11、駆動部材10が内設されており、バネ12は回転駆動部材11を軸方向すなわち駆動部材10側に付勢している。また、回転駆動部材11は、嵌合凸部11bがハンドホイール9の嵌合凹部9aと嵌合し、ハンドホイール9と一体的に回転可能で、かつ軸方向にスライド可能に連結している。駆動部材10は、駆動部材10の係合歯10dが回転駆動部材11の過負荷防止用係合歯11aと噛合し、正常回転時には、回転駆動部材11の回転に追従して回転できるようになっている。すなわち、ハンドホイール9を操作して、回転駆動部材11を回転させると、回転駆動部材11の過負荷防止用係合歯11a、駆動部材10の係合歯10dを介して、駆動部材10を回転し、駆動部材10は受圧部材4を押圧して回転させ、受圧部材4が回転することで駆動軸2を回転し、駆動軸2から、減速ギヤ3a、ロードギヤ3bを介して、ロードシーブ1を回転し、荷の巻き上げを行う。   Next, the configuration and operation of the overload prevention device that operates during overload will be described. The handwheel 9 includes a coil spring 12, a rotation drive member 11, and a drive member 10. The spring 12 biases the rotation drive member 11 in the axial direction, that is, the drive member 10 side. Further, the rotation driving member 11 is connected so that the fitting convex portion 11b is fitted with the fitting concave portion 9a of the hand wheel 9, and can rotate integrally with the hand wheel 9 and can slide in the axial direction. The drive member 10 can rotate following the rotation of the rotary drive member 11 when the engagement tooth 10d of the drive member 10 meshes with the overload-preventing engagement tooth 11a of the rotary drive member 11. ing. That is, when the handwheel 9 is operated to rotate the rotation drive member 11, the drive member 10 is rotated via the overload prevention engagement teeth 11 a of the rotation drive member 11 and the engagement teeth 10 d of the drive member 10. Then, the drive member 10 presses and rotates the pressure receiving member 4, and the pressure receiving member 4 rotates to rotate the drive shaft 2, and the load sheave 1 is moved from the drive shaft 2 through the reduction gear 3a and the load gear 3b. Rotates and rolls up the load.
この荷の巻き上げ動作時に、過負荷状態で荷が吊上げられ、ハンドホイールに所定値以上のトルクが加わった状態で、ハンドホイール9、回転駆動部材11を回転させると、駆動部材10の係合歯10dと噛合している回転駆動部材11の傾斜歯部11dは、バネ12の付勢力に抗して、係合歯10dの傾斜歯部10k係合面をスライドして軸方向に押し戻され、回転駆動部材11の過負荷防止用係合歯11aは、駆動部材10の係合歯10dを乗り越え、バネ12の付勢力により、駆動部材10の次の係合歯10dと噛合し、過負荷状態では、回転駆動部材11の過負荷防止用係合歯11aによる駆動部材10の係合歯10dの乗り越え動作が継続して行われるため、回転駆動部材11から駆動部材10に駆動が伝達されない。   When the load is lifted in an overload state and the handwheel 9 and the rotation drive member 11 are rotated in a state where a torque of a predetermined value or more is applied to the handwheel during the hoisting operation of the load, the engagement teeth of the drive member 10 are obtained. The inclined tooth portion 11d of the rotary drive member 11 meshing with 10d slides the inclined tooth portion 10k engaging surface of the engaging tooth 10d against the biasing force of the spring 12 and is pushed back in the axial direction to rotate. The engagement tooth 11a for preventing overload of the drive member 11 gets over the engagement tooth 10d of the drive member 10 and meshes with the next engagement tooth 10d of the drive member 10 by the biasing force of the spring 12, and in the overload state Since the operation of overriding the engagement tooth 10d of the drive member 10 by the overload prevention engagement tooth 11a of the rotation drive member 11 is continuously performed, the drive is not transmitted from the rotation drive member 11 to the drive member 10.
このように、過負荷状態では、ハンドホイール9を巻上げ方向に回転させると、回転駆動部材11は回転するが、回転駆動部材11の過負荷防止用係合歯11aは、駆動部材10の係合歯10dをスライドして乗り越え、空転するため、回転駆動部材11の回転は、駆動部材10には伝達されず、過負荷時の巻き上げ動作が防止される。   Thus, in the overload state, when the handwheel 9 is rotated in the winding direction, the rotation drive member 11 rotates, but the overload prevention engagement teeth 11 a of the rotation drive member 11 are engaged with the drive member 10. Since the tooth 10d is slid to get over and idle, the rotation of the rotary drive member 11 is not transmitted to the drive member 10, and the winding operation at the time of overload is prevented.
本発明の巻上機における回転駆動装置は、環状リンク11eと、環状リンク11eの外周から駆動部材10の軸方向に延びて突出し、ハンドホイール9の内周に設けた嵌合凹部9aと嵌合する複数の横長状嵌合凸部11bを有し、前記嵌合凸部11bの直下で、駆動部材側端部に、駆動部材10の係合歯10dと噛合する過負荷防止用係合歯11aを設け、過負荷防止用係合歯11aを横長状嵌合凸部11bの端部に設ける構成としたため、過負荷防止用係合歯11aの強度を従来装置に比して強化することができるとともに、耐久性を大幅に向上することができ、かつ環状リンク部11eには、過負荷防止用係合歯が設けられないため、過負荷時において、前記係合歯が駆動部材の係合歯を乗り越える際の前記係合歯から受ける反力に耐える強度確保が不必要となり、環状リンク部11eを従来装置に比して薄くでき、小形、軽量化が可能となる。また、横長状嵌合凸部11bに負荷防止用係合歯11aを設け、係合歯11aの強度を高めた結果、係合歯11aの傾斜歯部の傾斜角度を大きくでき、係合歯11aのスベリ抵抗を大きく設定することができるため、バネ圧の小さいバネを使用でき、小型化が可能となる。   The rotary drive device in the hoisting machine of the present invention is fitted with an annular link 11e and a fitting recess 9a provided on the inner circumference of the handwheel 9 that protrudes from the outer circumference of the annular link 11e in the axial direction of the drive member 10. And a plurality of horizontally long fitting protrusions 11b, and an engagement tooth 11a for preventing overload that engages with an engagement tooth 10d of the driving member 10 at an end portion on the driving member directly below the fitting protrusion 11b. And the overload-preventing engagement teeth 11a are provided at the ends of the horizontally long fitting projections 11b. Therefore, the strength of the overload-prevention engagement teeth 11a can be enhanced as compared with the conventional device. In addition, since the durability can be significantly improved and the engagement teeth for preventing overload are not provided in the annular link portion 11e, the engagement teeth are engaged with the engagement teeth of the drive member at the time of overload. Withstands the reaction force received from the engaging teeth when getting over Securing the strength becomes unnecessary, the annular link portion 11e can be made thin in comparison with the conventional device, compact, thereby enabling weight reduction. Further, as a result of providing the load-preventing engagement teeth 11a on the horizontally long fitting projection 11b and increasing the strength of the engagement teeth 11a, the inclination angle of the inclined teeth of the engagement teeth 11a can be increased, and the engagement teeth 11a Therefore, it is possible to use a spring having a small spring pressure and to reduce the size.
また、過負荷防止用係合歯11aの高さも大きくすることができるため、過負荷防止用係合歯11aの高さに対する製造公差の誤差の割合いを小さくでき、スリップ荷重のばらつきの発生を抑制することができ、巻上機の出荷時における調整も不要とすることができる。   Further, since the height of the overload preventing engagement teeth 11a can be increased, the ratio of the manufacturing tolerance error to the height of the overload preventing engagement teeth 11a can be reduced, and the occurrence of slip load variation can be reduced. Therefore, adjustment at the time of shipment of the hoisting machine can be made unnecessary.
さらに、横長状嵌合凸部11bの突起部の高さを高くし、ハンドホイール9との係合を大きくすることにより、回転駆動部材はハンドホイール9の作動時に傾動動作が発生せず、ハンドホイール9に嵌合してスムースに移動でき、さらに、回転駆動部材11は、ハンドホイール9と接触しないので、摩擦抵抗が小さく、作動安定性を向上することができる。   Further, by increasing the height of the protrusion of the horizontally long fitting projection 11b and increasing the engagement with the handwheel 9, the rotational drive member does not tilt when the handwheel 9 is operated, and the hand The rotary drive member 11 can be smoothly moved by being fitted to the wheel 9, and the rotational drive member 11 does not come into contact with the handwheel 9, so that the frictional resistance is small and the operation stability can be improved.
本発明の巻上機における回転駆動装置は、環状リンクの外周から突出する横長状突起の端部に過負荷防止用係合歯を設けたので、係合歯の耐久性を向上でき、かつ環状リンクを薄くすることができるため、小型巻上機において特に好適である。   In the rotary drive device of the hoisting machine according to the present invention, the engagement teeth for preventing overloading are provided at the ends of the horizontally long protrusions protruding from the outer periphery of the annular link, so that the durability of the engagement teeth can be improved and Since the link can be made thin, it is particularly suitable for a small hoisting machine.
本発明の巻上機の正面図。The front view of the winding machine of this invention. 図1の過負荷防止装置の要部拡大図。The principal part enlarged view of the overload prevention apparatus of FIG. 図2の分解斜視図。FIG. 3 is an exploded perspective view of FIG. 2. 図2のハンドホイールの正面図。The front view of the handwheel of FIG. 図4のA−A断面図。AA sectional drawing of FIG. 図2の駆動部材の正面図。The front view of the drive member of FIG. 図6の平面図。The top view of FIG. 図7のA−A断面図。AA sectional drawing of FIG. 図2の回転駆動部材の正面図。The front view of the rotation drive member of FIG. 図9の底面図。The bottom view of FIG. 図9の嵌合凸部側斜視図。The fitting convex part side perspective view of FIG. 過負荷防止係合歯側斜視図。The overload prevention engagement tooth side perspective view. 図2のバネ押えの正面図。The front view of the spring retainer of FIG. 図13のA−A断面図。AA sectional drawing of FIG. 従来の装上機の正面図。The front view of the conventional mounting machine. 図14の過負荷防止装置の主要部を示す分解斜視図。The disassembled perspective view which shows the principal part of the overload prevention apparatus of FIG.
符号の説明Explanation of symbols
1 ロードシーブ
2 駆動軸
2a 嵌合部
2b 空転部
2c 係合部
2d ネジ部
3a 減速ギヤ
3b ロードギヤ
4 受圧部材
4a ボス部
5 逆転防止輪
6 爪
7 バネ
8 ブレーキ板
9 ハンドホイール
9a 嵌合凹部
9b 挿入溝
9c 内側内周
9d 内周端面
9e 環状ガイド部
9f 空間
10 駆動部材
10a メネジ
10b フランジ
10c ボス部
10d 係合歯
10e ネジ溝
10f 係止段部
10g ガイド部
10h 開口部
10i 端部
10j 係止歯部
10k 傾斜歯部
11 回転駆動部材
11a 過負荷防止用係合歯
11b 嵌合凸部
11c 係止歯部
11d 傾斜歯部
11e 環状リンク部
12 バネ
12a 内バネ
12b 外バネ
12c 嵌合凸部
13 バネ押え
13a ネジ部
13b 当接部
13c ガイド部
14 回転規制部材
15 上フック
16 ロードチェーン
17 ハンドチェーン
18 フレーム本体
18a 駆動側フレーム
18b 減速側フレーム
18c 連結フレーム
18d、18e 軸受プレート
19a 開口部
19b 環状溝
19c スペース
20a 駆動側カバー
20b 減速機側カバー
DESCRIPTION OF SYMBOLS 1 Load sheave 2 Drive shaft 2a Fitting part 2b Idling part 2c Engaging part 2d Screw part 3a Reduction gear 3b Road gear 4 Pressure receiving member 4a Boss part 5 Reverse rotation prevention wheel 6 Claw 7 Spring 8 Brake plate 9 Hand wheel 9a Fitting recessed part 9b Insertion groove 9c Inner inner periphery 9d Inner peripheral end surface 9e Annular guide portion 9f Space 10 Drive member 10a Female screw 10b Flange 10c Boss portion 10d Engagement tooth 10e Screw groove 10f Locking step portion 10g Guide portion 10h Opening portion 10i End portion 10j Locking Tooth part 10k Inclined tooth part 11 Rotation drive member 11a Overload prevention engaging tooth 11b Fitting convex part 11c Locking tooth part 11d Inclining tooth part 11e Annular link part 12 Spring 12a Inner spring 12b Outer spring 12c Fitting convex part 13 Spring retainer 13a Screw part 13b Abutting part 13c Guide part 14 Rotation restricting member 15 Upper foot 16 Load chain 17 Hand chain 18 Frame body 18a Drive side frame 18b Deceleration side frame 18c Connection frame 18d, 18e Bearing plate 19a Opening 19b Annular groove 19c Space 20a Drive side cover 20b Reduction gear side cover

Claims (3)

  1. 巻上機の操作手段の内周と係合し、操作手段の駆動を駆動部材に伝達する巻上機における回転駆動装置であって、前記回転駆動装置は、環状リンクと、環状リンクの外周から駆動部材の軸方向に延びて突出し、操作手段の内周と幅方向に嵌合する複数の横長状突起を有し、前記横長状突起駆動部材側端部に駆動部材に巻装されたバネの付勢力により軸方向に付勢されて、駆動部材に設けた係合歯と噛合し、過負荷時に前記バネの付勢力に抗して軸方向に押し戻されて係合歯を乗り越えて空転する過負荷防止用係合歯を設けたことを特徴とする巻上機における回転駆動装置。 Engage the inner and the operating means of the hoisting machine, a rotary drive device in hoist you transfer a driving operation means to the drive member, the rotation driving device, an annular link, the outer circumference of the annular link And extending in the axial direction of the drive member, and having a plurality of horizontally long protrusions fitted in the inner circumference and the width direction of the operating means, and the horizontally long protrusions are wound around the drive member at the end of the drive member. It is urged in the axial direction by the urging force of the spring, and meshes with the engagement teeth provided on the drive member, and is pushed back in the axial direction against the urging force of the spring during overload, overcoming the engagement teeth A rotary drive device for a hoisting machine, characterized in that it is provided with overload-preventing engagement teeth that run idle .
  2. 前記過負荷防止用係合歯を横長状突起の駆動部材側端部で、環状リンク端面から突出して設けたことを特徴とする請求項1記載の巻上機における回転駆動装置。 2. The rotary drive device for a hoist according to claim 1, wherein the overload-preventing engagement teeth are provided so as to protrude from the end face of the annular link at the end of the horizontally long protrusion on the drive member side.
  3. 前記環状リンクを横長状突起の長さに対して薄く形成したことを特徴とする請求項1または2記載の巻上機における回転駆動装置。   The rotary drive device for a hoist according to claim 1 or 2, wherein the annular link is formed thin with respect to the length of the horizontally long protrusion.
JP2005094070A 2005-03-29 2005-03-29 Rotation drive device for hoisting machine Active JP4698265B2 (en)

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JP2005094070A JP4698265B2 (en) 2005-03-29 2005-03-29 Rotation drive device for hoisting machine
DE112006000681.9T DE112006000681B4 (en) 2005-03-29 2006-03-02 Device for preventing an overload of a hoist
PCT/JP2006/303981 WO2006103866A1 (en) 2005-03-29 2006-03-02 Overload prevention device in hoist
KR1020077022142A KR101156519B1 (en) 2005-03-29 2006-03-02 Overload prevention apparatus in hoist
CN2006800092740A CN101146735B (en) 2005-03-29 2006-03-02 Overload prevention apparatus in hoist
US11/886,313 US7575223B2 (en) 2005-03-29 2006-03-02 Overload preventing apparatus in hoist
TW095107902A TWI330617B (en) 2005-03-29 2006-03-09

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Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000351584A (en) * 1999-06-07 2000-12-19 Vital Kogyo Kk Winch with overloard prevention device

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6310079B2 (en) * 1981-04-27 1988-03-03 Nakamoto Tetsukosho Kk
JPH0117994B2 (en) * 1984-03-22 1989-04-03 Vital Chain Block Mfg
JPH0396290A (en) * 1989-09-08 1991-04-22 Nippon Soken Inc Manufacturing method for semiconductor laser

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000351584A (en) * 1999-06-07 2000-12-19 Vital Kogyo Kk Winch with overloard prevention device

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