Dust cover installation tool configured for placement of a dust cover in an annular opening of an idler pulley includes a frame and a cap press. The frame includes an actuator end core, an opposed placement plate, and at least first and second arms extending therebetween, and a third arm disposed between the first and second arms. The cap press includes a press plate and a rotatable threaded rod extending through a threaded bore in the actuator end core. Rotation of the threaded rod in a first direction within the threaded bore advances the press plate toward the placement plate.

A sensor cap exchange tool device may include a support bolt; a support bracket that is fixed to a front end portion of the support bolt; a mover that has a second screw thread that is engaged with the first screw thread at of the support bracket; a tool guide that is rotatably engaged with the mover and that moves in the predetermined direction together with the mover according to a rotation of the mover and that has a tool insertion opening open in the predetermined direction; and a separation device and mounting device that are mounted in the tool guide and that moves with the tool guide according to a rotation of the mover and that comes in close contact with the sensor cap that is mounted in the wheel bearing assembly.

A tire valve stem insertion device and a method of using.

A disassembling device for removing fastening components embedded in a workpiece includes a supporting base, a clamping assembly, and a pushing assembly. The pushing assembly includes a sliding assembly, an adjusting rod, and an ejecting pin. The workpiece defines a first through hole which communicates with a positioning hole. The workpiece is clamped by the clamping assembly, the sliding assembly is connected to the supporting base and can slide along a first direction and a second direction perpendicular to the first direction. The adjusting rod passes through the sliding assembly to connect with the ejecting pin, the ejecting pin is driven to extend into the first through hole and to move in a direction perpendicular to the first and second directions, so as to push the fastening component out of the positioning hole.

The load coupling provided here comprises a first coupling member operatively associated with an actuator. The first coupling member has at least one first coupling formation. The load coupling further comprises a second coupling member adapted for operative coupling with the first coupling member. The second coupling member includes an attachment formation operatively adapted to attach the second coupling member to a target component to which force generated by the actuator is to be transferred. The second coupling member defines a second coupling formation operatively associated with a selected first coupling formation of the first coupling member. The selected first coupling formation has (i) a secure orientation relative to the second coupling formation in which the first coupling member is secured to the second coupling member and (ii) a release orientation relative to the second coupling formation in which the first coupling member is adapted to be removed from the second coupling member.

An Inflation Changing Tool is a tool having a C-clamp, handle, punch, angle iron, stopper and duckbill. The tool is configured to facilitate the removal and replacement of a milk inflator.

A cap removal device is adapted to remove end caps from water pump devices. The cap removal device has a cap remover that is adapted to be secured to the end caps of pressure vessels. The cap removal device further has a honed tube that is adapted to stabilize the cap removal device and the end cap during removal of the end cap thereby preventing cross-threading. The cap removal device also has a puller handle that is adapted to make removal of the end cap more efficient.

A broken pipe extraction device includes first, second, and third pressure plates, a fixing member, a fastening member, and a needle. The first pressure plate includes a first perforation and a second perforation connected to the first perforation. The second perforation passes through a side wall of the first pressure plate. The second pressure plate faces the first pressure plate. Projecting portions of the first perforation and the second perforation on the second pressure plate overlap. The third pressure plate includes a through hole. The third pressure plate is detachably received in the first perforation and the second perforation. The fixing member mounts on the second pressure plate and faces the first perforation and the second perforation. When the third pressure plate is received in the first and second perforations, the through hole faces the fixing member.

A puller spacer has a cylindrical and elongated body. The puller spacer has a slot formed in a side of the body. The slot extends from a center bore of the puller spacer to an exterior of the puller spacer. Wires that extend out of a steering column are routed through a bottom of the puller spacer and into a center bore of the puller spacer, with an end of each of the wires extending out of the slot formed in a side of the puller spacer. The puller spacer is positioned between a distal end of a center threaded member of a steering wheel puller and the top of the steering column. The steering wheel puller engages the steering wheel and the center threaded member of the steering wheel puller is advanced to pull the steering wheel away from the steering column.

A method for disassembling a pipe joint is provided. A radially expandable sleeve positioned on a shaft is inserted into a distal open end of a pipe of the pipe joint. A sleeve nut on a threaded portion of the shaft is tightened against the sleeve to urge the sleeve to longitudinally slide along a tapered distal end of the shaft in a distal direction. The sleeve radially expands as the sleeve slides in the distal direction along the tapered distal end of the shaft. The sleeve is radially expanded until an interference fit is formed between the sleeve and the pipe. A force is then exerted upon the shaft to urge the shaft in a proximal direction and remove the pipe from a pipe fitting of the pipe joint.