An illustrative wire processing machine includes at least one blade configured for at least one of cutting a conductor or at least piercing an insulation layer on the conductor. At least one gripper assembly includes a gripper configured to at least temporarily grasp a portion of a conductor during a wire processing operation. A generator, which is part of the gripper assembly, is configured to radiate a field toward a conductor. The gripper assembly also includes a detector that is configured to detect at least some of the field propagated along the conductor. A processor is configured to determine when a change in the propagated field detected by the detector indicates contact between a conductor and the blade.

A cable bushing fitting machine includes: a fitting region; a mandrel disposed at said fitting region, said mandrel being hollow to receive a cable therethrough; a first rotatably mounted stripping jaw arranged in the fitting region; a second rotatably mounted stripping jaw arranged in the fitting region; a drive configured to mount cable bushings onto cable by successively disposing respective ones of the cable bushings onto the mandrel, feeding the cable through the mandrel, and executing a relative movement between the mandrel and the first and second rotatably mounted stripping jaws to locate the respective cable bushings onto the cable; a camera directed toward the fitting region to capture images of the respective cable bushings located on the cable; and at least the first rotatably mounted stripping jaw having a rotation axis, the first stripping jaw rotation axis being laterally offset from an optical axis of said camera by a distance sufficient to permit the camera unimpeded views of cable bushings in the fitting region when the first stripping jaw is at least to a first selected extent opened.

A method for fitting a cable bushings bushing onto a cable includes: providing a fitting region; providing a mandrel at the fitting region, the mandrel being hollow to receive a cable therethrough; pushing a cable bushing onto the hollow mandrel; directing a camera towards the fitting region; providing at least two stripping jaws to grasp the cable bushing, the providing step including the step of providing at least rotatable one of the stripping jaws in rotatable manner to rotate on respective a stripping jaw rotation axes axis that are is laterally offset from a camera an optical axis of the camera; rotating the at least one of the stripping jaws towards closing to grasp the cable bushing with the stripping jaws; pushing a cable into the hollow mandrel; executing a relative movement between the hollow mandrel and the stripping jaws to push the cable bushing onto the cable; and rotating the at least one of the stripping jaws to open them to an a selected open extent that permits the camera to have an unimpeded view of the fitted cable bushing.

A crimping system for crimping fittings on hoses is disclosed and includes an interface and a crimper machine. The crimper machine is configured to analyze collected information based on identified hose and fitting properties; perform a crimping operation based on the collected information and the identified hose and fitting properties; measure crimping characteristics for the crimping operation; generate an alert based on the measured crimping characteristics and the collected information; and provide the alert to the interface.

Machines for fitting cable bushings on a cable have a hollow mandrel (11) for receiving cable bushing (12) and a cable in a fitting region (A). Rotatably mounted stripping jaws (8a, 8b) arranged in the fitting region (A) fit the cable bushing (12) on the cable. A camera (9a, 9b) is directed towards the fitting region (A). A rotation axis of at least one of the stripping jaws (8a, 8b) is at a lateral distance from ray-of-view (D) originating from the camera (9a,9b) and running through the fitting region (A). The stripping jaws (8a, 8b) may be opened to an extent that makes it possible for the camera (9a, 9b) to have an unimpeded view of the fitted cable bushing (12). Related methods for operating such machines (1) are also disclosed.

An elevator shaft door sill installation apparatus includes first and second assembly jig parts mounted at gage guide rails and a laser arranged at one of the parts for aligning the sill in the vertical direction. The alignment of the sill in the horizontal direction is undertaken with a line set including at least two lines, a first line having a first run extending from the first part to a first sill corner and from there by a second run to the second part, and a second line extending from the second part to a second sill corner. If the lines are tightened and a marking between the first and second runs is at the first corner of the sill, the sill is aligned in the horizontal direction.

Disclosed is a method for aiding in manual handling of a work piece during machining, which method comprises the steps of: reading a predetermined work plan, comprising a required orientation of the work piece for each machining step of the work plan; detecting the orientation of the work piece; comparing the detected orientation of the work piece with the required orientation; and projecting an indication on the work piece for aiding to manually orient the work piece to the required orientation for the machining step to be performed. Al disclosed is a device for performing the method.

Methods and apparatus for evaluating characteristics of components of a mechanically attached connection are disclosed. Characteristics that may be evaluated include, but are not limited to, the position of a conduit gripping device on a conduit, an amount of axial compression or stroke of the conduit gripping device, and an amount of clamping force applied to the conduit gripping device as the conduit gripping device is axially compressed or stroked.

A terminal crimping system for a crimping machine includes an anvil, a movable ram, an image acquisition device, and a display device. The anvil is located in a crimping zone and configured to receive a terminal thereon. The terminal has a wire crimp barrel configured to receive a wire therein. The ram has crimp tooling configured to crimp the wire crimp barrel of the terminal to the wire during a crimp stroke of the ram. The image acquisition device is configured to be mounted on the crimping machine above the crimping zone. The image acquisition device is positioned to acquire an image of the wire within the wire crimp barrel of the terminal in the crimping zone. The display device is configured to display the image.