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公开(公告)号:US20060102442A1
公开(公告)日:2006-05-18
申请号:US10524799
申请日:2003-08-20
申请人: Kevin Dein
发明人: Kevin Dein
CPC分类号: B25B13/461 , B25B13/462 , B25B15/001 , B25B23/0035 , B25G1/063 , B25G1/105
摘要: A torque transmission mechanism (1) comprises an outer body (10) defining a cavity (12) and an inner body (30) located at least partially inside the cavity and able to rotate therein. A plurality of rollers (22, 24, 26) located between the outer and inner bodies interact with cam surfaces (14a, 16a, 18a, 20a) so that rotation of the inner body in a first direction is substantially unimpeded but rotation in the opposite direction is prevented or impeded by interaction of rollers with one or more cam surfaces. One of the rollers (18) is larger than at least one other roller and is located in a recess formed in one of the outer and inner bodies. In one embodiment the recess (18) is formed in a part of the outer body which has a greater wall thickness, excluding the effect of the recess than the rest of the outer body, so that the larger roller is accommodated without adding bulk to the outer body.
摘要翻译: 扭矩传递机构(1)包括限定空腔(12)的外体(10)和至少部分地位于空腔内并能够在其中旋转的内体(30)。 位于外主体和内体之间的多个辊(22,24,26)与凸轮表面(14a,16a,18a,20a)相互作用,使得内体在第一方向上的旋转基本上不受阻碍,但是 通过辊与一个或多个凸轮表面的相互作用来防止或阻碍相反方向的旋转。 辊子(18)中的一个大于至少另一个辊子,并且位于形成在外部主体和内部主体之一中的凹部中。 在一个实施例中,凹部(18)形成在外体的具有更大壁厚的部分中,不包括凹部的效果而不是外部本体的其余部分,使得较大的辊容纳而不增加体积 外身。
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公开(公告)号:US20180056488A1
公开(公告)日:2018-03-01
申请号:US15558561
申请日:2016-03-16
申请人: Kevin Dein
发明人: Kevin Dein
CPC分类号: B25B13/462 , B25B23/0035 , B25B23/16 , F16D41/086 , F16D41/088 , F16D2041/0643
摘要: A reversible wrench includes a handle and a carrier arranged on the handle. A torque transmission assembly is arranged in the carrier. The assembly includes an inner driven member having an inner, outwardly facing bearing surface and an outer driving member having an outer, inwardly facing bearing surface, the driven and driving members being arranged in the carrier about a common rotation axis and the surfaces being spaced from each other. A selector is positioned between the bearing surfaces. At least one motion transfer device is positioned between the bearing surfaces. The bearing surfaces, the selector and the at least one motion transfer device define at least two roller bearing passages. At least one roller bearing is positioned in each passage. The roller bearings can be shifted between a tightening condition in which the roller bearings lock the bearing members together for tightening rotation of the carrier and a loosening condition in which the roller bearings lock the bearing members together for loosening rotation of the carrier. Opposite rotation of the carrier with respect to the tightening and the loosening rotation, respectively, unlocks the roller bearings to permit freewheeling of the carrier during the opposite rotation. The selector and the at least one motion transfer device are configured so that the selector is operable to shift the roller bearings between the tightening and loosening conditions, via the at least one motion transfer device. A biasing mechanism is operatively arranged with respect to the roller bearings so that the roller bearings are unlocked against a bias of the biasing mechanism during the opposite rotation and are driven back into one of the tightening and loosening conditions upon ceasing of the opposite rotation.
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