A modular guided keeper base, guided keeper assembly, and related method includes a modular guided keeper base that mounts to a die member. The guided keeper base has an integrated stop for guide pin retention. The guided keeper base can also accommodate a variety of bushings within the base. The guided keeper base is attached to a die member using a mounting flange(s). Mounting fasteners pass through the fastener holes in the mounting flanges and are anchored in the die member to securely retain the guided keeper assembly in place. A retainer ring is mounted in an associated groove in the base over the heads of the mounting fasteners to prevent unintentional unfastening of the fasteners from the die member.

An embodiment of the present disclosure relates to a steering column disposed in a steering apparatus including a housing cover connected to a drive unit housing and a bearing disposed in the housing cover, the steering column including: a main body elongated in one direction and having one side inserted into and supported by the housing cover; an enlarged diameter portion formed as one side of the main body expands in diameter; and a through-hole penetratively formed in an outer periphery of the enlarged diameter portion so as to be coupled to the housing cover.

A flywheel device includes a base, a cantilever mounted on the base, a bearing seat mounted on the base, first magnetic members mounted on the base, a rotation shaft arranged between the cantilever and the bearing seat, a magnetically floating seat mounted on the rotation shaft, second magnetic members mounted on the magnetically floating seat and corresponding to the first magnetic members, third magnetic members mounted on the magnetically floating seat, a repulsion driver locked on the base and surrounding the magnetically floating seat, fourth magnetic members mounted on the repulsion driver and corresponding to the third magnetic members, and a flywheel unit mounted on the rotation shaft. The second magnetic members have a polarity the same as that of the first magnetic members. The fourth magnetic members have a polarity the same as that of the third magnetic members.

A modular guided keeper base, guided keeper assembly, and related method includes a modular guided keeper base that mounts to a die member. The guided keeper base has an integrated stop for guide pin retention. The guided keeper base can also accommodate a variety of bushings within the base. The guided keeper base is attached to a die member using a mounting flange(s). Mounting fasteners pass through the fastener holes in the mounting flanges and are anchored in the die member to securely retain the guided keeper assembly in place. A retainer ring is mounted in an associated groove in the base over the heads of the mounting fasteners to prevent unintentional unfastening of the fasteners from the die member.

A connection rod coupling assembly includes a settable shape mounting second component having a lateral, primary axis and a bearing assembly including a bearing assembly body. The bearing assembly body includes a substantially cylindrical outer surface and a center axis. The bearing assembly body is coupled to the settable shape mounting second component in a non-aligned configuration. That is, the bearing assembly body center axis is offset from the settable shape mounting second component primary axis. Thus, the position of the bearing assembly body center axis is adjustable by repositioning the settable shape mounting second component relative to a settable shape mounting first component on a swing lever. The adjustment of the bearing assembly body, in turn, adjusts the range of the ram assembly and the ram assembly body.

A connection rod coupling assembly includes a settable shape mounting second component having a lateral, primary axis and a bearing assembly including a bearing assembly body. The bearing assembly body includes a substantially cylindrical outer surface and a center axis. The bearing assembly body is coupled to the settable shape mounting second component in a non-aligned configuration. That is, the bearing assembly body center axis is offset from the settable shape mounting second component primary axis. Thus, the position of the bearing assembly body center axis is adjustable by repositioning the settable shape mounting second component relative to a settable shape mounting first component on a swing lever. The adjustment of the bearing assembly body, in turn, adjusts the range of the ram assembly and the ram assembly body.

A can bodymaker includes a housing assembly, a drive mechanism, a ram assembly, a domer assembly, and a ram body dampening assembly. The ram assembly includes an elongated ram body. The drive mechanism is operatively coupled to the ram assembly so that the drive mechanism imparts a reciprocating motion to the ram body. The ram body dampening assembly is disposed adjacent the ram body path of travel. The ram body dampening assembly includes a housing and a dampening member. The dampening member is disposed immediately adjacent the ram body path of travel.

A can bodymaker includes a housing assembly, a drive mechanism, a ram assembly, a domer assembly, and a ram body dampening assembly. The ram assembly includes an elongated ram body. The drive mechanism is operatively coupled to the ram assembly so that the drive mechanism imparts a reciprocating motion to the ram body. The ram body dampening assembly is disposed adjacent the ram body path of travel. The ram body dampening assembly includes a housing and a dampening member. The dampening member is disposed immediately adjacent the ram body path of travel.

A can bodymaker includes a housing assembly, a drive mechanism, a ram assembly, a domer assembly, and a ram body dampening assembly. The ram assembly includes an elongated ram body. The drive mechanism is operatively coupled to the ram assembly so that the drive mechanism imparts a reciprocating motion to the ram body. The ram body dampening assembly is disposed adjacent the ram body path of travel. The ram body dampening assembly includes a housing and a dampening member. The dampening member is disposed immediately adjacent the ram body path of travel.

A connection rod coupling assembly includes a settable shape mounting second component having a lateral, primary axis and a bearing assembly including a bearing assembly body. The bearing assembly body includes a substantially cylindrical outer surface and a center axis. The bearing assembly body is coupled to the settable shape mounting second component in a non-aligned configuration. That is, the bearing assembly body center axis is offset from the settable shape mounting second component primary axis. Thus, the position of the bearing assembly body center axis is adjustable by repositioning the settable shape mounting second component relative to a settable shape mounting first component on a swing lever. The adjustment of the bearing assembly body, in turn, adjusts the range of the ram assembly and the ram assembly body.