An alignment tool for positioning and aligning the adjacent ends of pipes in optimum desired relation for joining the tubular sections by welding. The alignment tool comprises a first and second annularly shaped clamping rings and a plurality of swivel assemblies connecting and circumferentially spaced about the first and second clamping rings, wherein the swivel assemblies adjust the distance between the first and second clamping rings and adjust the first and second clamping rings transversely and axially with respect to each other. Each swivel assembly comprises a first swivel portion connected to the first clamping ring, a second swivel portion connected to the second clamping ring, and a threaded bolt extending through the first swivel portion and the second swivel portion. The first swivel portion comprises an axel alignment swivel including a longitudinal shaft with a first partial spherical portion at its center, wherein the first partial spherical portion is retained within a bore extending through the first clamping ring. The second swivel portion comprises a second partial spherical portion that is retained within a bore extending through the second clamping ring.

An alignment gauge includes a generally u-shaped main body and an alignment member extending therefrom. The alignment gauge is configured to be positioned on the frame of a cabinet during installation of one or more attached components, such as attachment of a pair of doors to a refrigerator cabinet. Specifically, the alignment gauge may be positioned so that the alignment member establishes a proper spacing for the attached components.

An alignment gauge includes a generally u-shaped main body and an alignment member extending therefrom. The alignment gauge is configured to be positioned on the frame of a cabinet during installation of one or more attached components, such as attachment of a pair of doors to a refrigerator cabinet. Specifically, the alignment gauge may be positioned so that the alignment member establishes a proper spacing for the attached components.

A radar adjustment fixture and method for adjusting a radar device on a vehicle includes a base having wheels for moving on a ground surface, at least one adjustment tool mounted on the base, and at least one manipulator mounted on the base for adjusting an adjustable proximate distance to thereby adjust a vertical height of the at least one adjustment tool. The at least one adjustment tool is located proximally relative to the base and located said adjustable proximate distance relative to the ground surface. The at least one manipulator adjusts said adjustable proximate distance to thereby adjust a vertical height of the at least one adjustment tool. The at least one manipulator is located distally relative to the base and the at least one adjustment tool.

Blind hole locating systems, devices, and methods are provided. A method includes installing a guide screw into a blind hole of a first material and assembling a drill guide apparatus, which includes removably coupling a drill guide to a guide strap and inserting a guide pin through a drill guide hole of the drill guide so that a length of the guide pin protrudes past the guide strap. The method also includes placing the drill guide apparatus on the first material so that a portion of a length of the guide pin protrudes into the guide screw, securing a portion of the guide strap to the first material, and removing the guide pin while the guide strap remains secured and placing a second material over the blind hole (including the guide screw in the blind hole) and between the guide strap and the first material.

Blind hole locating systems, devices, and methods are provided. A method includes installing a guide screw into a blind hole of a first material and assembling a drill guide apparatus, which includes removably coupling a drill guide to a guide strap and inserting a guide pin through a drill guide hole of the drill guide so that a length of the guide pin protrudes past the guide strap. The method also includes placing the drill guide apparatus on the first material so that a portion of a length of the guide pin protrudes into the guide screw, securing a portion of the guide strap to the first material, and removing the guide pin while the guide strap remains secured and placing a second material over the blind hole (including the guide screw in the blind hole) and between the guide strap and the first material.

The device includes a tubular case having a through hole that extends therethrough in an axial direction, a test indicator capable of determining a minute amount of change of distance by a stylus, a tubular holder body rotatably attached to the case through the through hole, a supporting body for supporting the holder body, a slidable body provided on a radial inner side of the holder body and movable relative to the holder body along the axial direction, and a pivotal body having a pivotable leading end portion whose pivotal amount is transmitted to the slidable body. The slidable body has an axial extension portion formed along the axial direction and a radial extension portion formed along the radial direction. The stylus and the radial extension portion are configured to come into contact with each other.

The device includes a tubular case having a through hole that extends therethrough in an axial direction, a test indicator capable of determining a minute amount of change of distance by a stylus, a tubular holder body rotatably attached to the case through the through hole, a supporting body for supporting the holder body, a slidable body provided on a radial inner side of the holder body and movable relative to the holder body along the axial direction, and a pivotal body having a pivotable leading end portion whose pivotal amount is transmitted to the slidable body. The slidable body has an axial extension portion formed along the axial direction and a radial extension portion formed along the radial direction. The stylus and the radial extension portion are configured to come into contact with each other.

Disclosed systems couple two rotational shafts in axial alignment with each other such that torque can be transferred between the shafts without undesired loading occurring. A shaft coupling system can include an annular mounting housing positioned around a juncture of two rotational shafts with bearings positioned between the shafts and the housing so that the housing prevents radial motion of the shafts while allowing the shafts to rotate about their common axis. One shaft can be coupled to an engine and the other shaft can be coupled to a shaft-driven device such as a hydraulic pump. One shaft can be smaller in diameter and piloted into a recess in the end of the other shaft. In some embodiments, the two shafts have about the same diameter and are linked via a torque coupler within an annular mounting housing that allows rotation but limits radial motion of the shafts.

Disclosed systems couple two rotational shafts in axial alignment with each other such that torque can be transferred between the shafts without undesired loading occurring. A shaft coupling system can include an annular mounting housing positioned around a juncture of two rotational shafts with bearings positioned between the shafts and the housing so that the housing prevents radial motion of the shafts while allowing the shafts to rotate about their common axis. One shaft can be coupled to an engine and the other shaft can be coupled to a shaft-driven device such as a hydraulic pump. One shaft can be smaller in diameter and piloted into a recess in the end of the other shaft. In some embodiments, the two shafts have about the same diameter and are linked via a torque coupler within an annular mounting housing that allows rotation but limits radial motion of the shafts.