An assembly for loading a self-expanding prosthetic heart valve into a delivery device includes a support member including a body and a backing plate. The body has a longitudinal axis, a base end, a second end, and a recess extending along the longitudinal axis from the second end toward the base end. The recess has a bottom member defining a seating surface adapted to support the prosthetic heart valve. The backing plate is fixed to the body so as to define a void space between the backing plate and the body. The backing plate includes an inlet port and the recess includes a plurality of outlet ports. The inlet and outlet ports are in fluid communication with the void space. When the heart valve is received on the seating surface, each outlet port is rotationally aligned with a corresponding pocket formed between first and second cuffs of the heart valve.

A mechanism that is non-engaging in the forward direction and prevents direction change, comprising a dual ratchet sleeve (1). The dual ratchet sleeve is provided in the axial direction a one-way forward ratchet ring gear and a one-way reverse ratchet ring gear; a pawl base (2), the pawl base being provided with a first pawl (21) and a second pawl (22) capable of moving in a direction perpendicular to the axis of the dual ratchet sleeve; an eccentric drive mechanism (3) for driving the first and second pawl to act, the axis of the eccentric wheel axle (32) of the eccentric drive mechanism being perpendicular to the axis of the dual ratchet sleeve; a tool handle (4) for driving the pawl base to rotate, the tool handle being connected to and fixed on the eccentric wheel (31) or the eccentric wheel axle (32) of the eccentric drive mechanism so as to enable the linkage of the tool handle and the eccentric wheel. The mechanism that is non-engaging in the forward direction and prevents direction change meets the working requirements under multiple states and directly enables torque transmission and state change by means of the handle.

A wrench has a roller motion transmission mechanism that changes reciprocating motion of a driving member to unidirectional rotational motion of a driven member. The wrench as a head with an inside cylindrical wall surrounding a body with a plurality of protrusions. Each protrusion has a ramp inclined toward the cylindrical wall. A wedging member comprising a cylindrical roller engages each ramp and inside cylindrical wall of the head. A cage anchored to the protrusions retains the wedging members in engagement with the ramps and the inside cylindrical wall of the head.

An apparatus and method to a folding and a partially rotational device, comprising: stabilizing the frame holder of the device for the axis on which a partially rotational part rotates; spindle locking the partial rotation at two-ends using a spindle with screws at each-end of the spindle; defining the two-ends for the rotation with two or more stop pins; allowing the rotation with two or more compression springs; installing and cleaning the compression springs using a wiper; wherein tension of the rotation is adjusted by placement of one or more of the wiper or compression spring length.

An attachment tool includes an image capturing unit configured to capture an image of a random pattern provided on a comparison region of a part; and an identification result-outputting unit configured to output a part identification result obtained by comparing an image characteristic of the captured image of the random pattern with a previously stored image characteristic of a random pattern of a part.

Disclosed is a wrench, which is used for wrenching a workpiece and comprises a unidirectional transmission mechanism. The unidirectional transmission mechanism comprises rollers, a first member and a second member at least partially sheathed in the first member. The first member is fixedly provided at a wrenching portion of the wrench, and the second member is used for mating with the workpiece. The directions of the rotating torque from the wrenching portion are a first direction and a second direction along the axis of rotation of the first member. With regard to one of the rotating torque of the first direction and the rotating torque of the second direction, the second member is stationary relative to the first member so as to output the rotating torque to the workpiece; and with regard to the other one thereof, the second member rotates relative to the first member without outputting the rotating torque to the workpiece. The torque of the unidirectional transmission mechanism can meet the demand of using a wrench, and at the same time, the unidirectional transmission mechanism remains silent in use and has the characteristic of wear resistance of bearings.

A tool having a relatively ductile working end for engaging workpieces and a relatively hard non-working portion for driving the tool is disclosed, and a process for making same. The tool is formed with the material in a first state, such as by cold-working, and then only the non-working portion is heat treated to a second state. The working end is thus maintained in the ductile state while the non-working portion is hardened, thus imparting different materials performance characteristics to working end and non-working portion.

A tool having a relatively ductile working end for engaging workpieces and a relatively hard non-working portion for driving the tool is disclosed, and a process for making same. The tool is formed with the material in a first state, such as by cold-working, and then only the non-working portion is heat treated to a second state. The working end is thus maintained in the ductile state while the non-working portion is hardened, thus imparting different materials performance characteristics to working end and non-working portion.

What is described is a portable multifunctional tool having a handle portion and a tool accommodating portion having a tool function element arranged thereon configured to actuate a quick release chain fastener having two chain link plates and two chain link plate connection members. The tool function element has a first force exertion unit configured to exert a force on the first chain link plate connection member of the quick release chain fastener, and a second force exertion unit configured to exert a force on the second chain link plate connection member of the quick release chain fastener. The first force exertion unit and the second force exertion unit are translationally movable in relation to each other so as to actuate the quick release chain fastener by means of said translational movement. Moreover, the tool function element has a linear guide having a stationary first linear guide element and a second linear guide element movably arranged within the former, only one of the two force exertion units being arranged on the second linear guide element.

A socket adapter that increases the transfer of impacting torque forces from a torque application tool to a conventional fastener engaged by a socket. The socket adapter includes a body with a female end that is adapted to removably couple to the tool, and male end that is adapted to removable couple to a conventional socket. Ribs radiate outwardly from the body between the male and female ends. The ribs couple a mass ring to the body to provide for increased rotational inertia of the socket adapter.