A system for manufacturing shoes is provided that includes two or more pieces of equipment used in the customization and manufacturing of shoes and an alignment fixture that may engage with each piece of equipment by way of an alignment mounting member. The alignment fixture may secure to it a portion of a shoe, such as an upper portion, wherein the shoe portion remains in a flat position, and in a fixed relationship to the alignment fixture, throughout the various processes performed by the pieces of equipment. These processes may include, for example, printing, laser, embroidery, forming, cutting, or the like.

A detachment tool of the present invention is a tool for detaching a device attached to a wall portion. The detachment tool includes a member in which a first through hole and a second through hole are formed, a first screw that fixes the member to the device while inserted into the first through hole, and a second screw that pushes the wall portion while inserted into the second through hole. The first through hole is a threaded hole that screw-engages with the first screw or an unthreaded hole. The second through hole is a threaded hole that screw-engages with the second screw. According to such a configuration, the detachment tool in which operationality in detachment is good, flexible adaptation to a space can be made, and force applied in detachment is also easily managed, and a motor drive device provided with the same can be provided.

A surgical instrument operable to sever tissue includes a body assembly and a selectively coupleable end effector assembly. The end effector assembly may include a transmission assembly, an end effector, and a rotational knob operable to rotate the transmission assembly and the end effector. The body assembly includes a trigger and a casing having a distal aperture configured to receive a portion of the end effector assembly. First and second coupling mechanism portions cooperatively couple the end effector assembly to the body assembly for use. The coupling may mechanically and/or electrically couple the end effector assembly to the body assembly via various coupling mechanisms. For instance, a threaded slip nut may couple to threads within the body assembly. In one configuration, the end effector assembly may have locking tabs that rotate into rotational recesses in the body assembly. The locking tabs may include electrical contacts and/or optically perceivable indicators.

The present disclosure is related to a device 100 configured for aligning a first hole 131 of a first flange 130 with a second hole 141 of a second flange 140. The device 100 comprises a base 101, a shaft 110 extending from the base 101 and a first and a second pusher 115, 116. The shaft 110 is configured to move between a retracted position and an extended position. The shaft 110 in the extended position extends from the first hole 131 into the second hole 141. The first and second pushers 115, 116 are also configured to be moved radially outwardly from the shaft 110 to exert pressure against an inner wall of the first and second holes 131, 141. Methods for aligning a first and a second hole 130, 140 are also provided.

The present invention relates in general to the field of securing structural members to masonry, and more specifically, to a drop-in anchor setting tool and method of use. The drop-in anchor setting tool includes a hands-free safety feature that allows the drop-in anchor and setting tool to remain embedded in the masonry during installation. In particular, the drop-in anchor setting tool includes a threaded portion configured to screw together the drop-in anchor and the drop-in anchor setting tool during installation. A purpose of invention is to provide a drop-in anchor setting tool and method of use that minimizes risk of injury to the operator during installation, is easy to use, and cost-effective to manufacture.

Installation of a bushing into the shift cable end of an automatic transmission, without replacing the entire shift cable end, is accomplished via a method that does not require the use of compression tools and maintains the axial alignment of the bushing with the shift cable end during installation, thus preventing deformation of the shift cable end and bushing during installation, and ensuring the proper coupling of the shift cable end and shift lever. In one particular embodiment of the invention, the bushing may be installed by radially compressing the leading shoulder of the bushing and passing the bushing through the shift cable end, then releasing the leading shoulder of the bushing so that it engages the shift cable end and secures the bushing in place. This can be accomplished by pressing a bushing into the cavity of a tool having a cylindrical member with a first side and a second side, a cavity within the first side of the cylindrical member, and an elongated member extending perpendicularly from the second side of the cylindrical member, inserting said tool into one end of the shift cable end and passing the leading shoulder of the bushing beyond and through the shift cable end, thereby releasing the leading shoulder of the bushing to expand and secure the bushing.

Prosthesis devices can include sockets having adjustable features. In one example, a socket includes one or more panels that can move outwardly or inwardly relative to a receptacle portion of the socket. The panels can be moved by tightening a tensioning line.

A surgical instrument is separable into a transducer unit and a lower body portion. The lower body portion includes a waveguide and a casing. The transducer unit includes a transducer and a geared mechanism operable to couple the transducer to the waveguide. In some versions the geared mechanism includes bevel gears coupled to a rack and pinion such that linear motion may be used to rotatably couple a transducer to a waveguide. The rack gear may further include a handle extending out of the transducer unit casing to be actuatable by a user. The rack gear may also be flexible or rigid. In other versions, the bevel gears may be coupled to a threaded shaft that is operable to translate the transducer into the waveguide to form an interference fit. The transducer unit may also include a slide lock mechanism to couple to the casing of the lower body portion.

An apparatus includes an instrument body and transmission assembly. The instrument body includes a motor, a switch, and an energy source (e.g., an ultrasonic transducer). The transmission assembly includes an end effector, a transmission feature (e.g., an acoustic waveguide), and a switch engagement feature. The end effector includes an active feature (e.g., a harmonic blade) in communication with the energy source. The switch engagement feature is operable to mechanically couple the energy source with the transmission feature in response to the switch engagement feature triggering the switch. A yoke of the instrument body is configured to selectively engage a translating member of the transmission assembly. A release switch is operable to selectively disengage the yoke from the translating member.

A system for manufacturing shoes is provided that includes two or more pieces of equipment used in the customization and manufacturing of shoes and an alignment fixture that may engage with each piece of equipment by way of an alignment mounting member. The alignment fixture may secure to it a portion of a shoe, such as an upper portion, wherein the shoe portion remains in a flat position, and in a fixed relationship to the alignment fixture, throughout the various processes performed by the pieces of equipment. These processes may include, for example, printing, laser, embroidery, forming, cutting, or the like.