A non-contact, automatic door hinge operator system that allows a common door to be opened and closed automatically through use of a voice-activated sensor, optical switch or mobile app.

A large diameter portion is provided on one side of a closing side drum in an axial direction, a small diameter portion having a diameter gradually decreasing from the large diameter portion to the other side of the closing side drum is provided on the other side of the closing side drum, a partition wall disposed between adjacent small diameter cable grooves in the axial direction of the closing side drum to prevent a closing side cable from slipping out of the small diameter cable grooves is provided in the small diameter portion. Accordingly, the thick partition wall provided in the small diameter portion can reliably prevent the closing side cable from slipping out (derailing) from the small diameter cable grooves even when a winding position of the closing side cable on the closing side drum is changed and transferred from the large diameter portion to the small diameter portion.

A drive unit is configured such that a closing side drum and an opening side drum are provided parallel to each other. In a state in which a closing side cable is wound around a small diameter portion of the closing side drum and an opening side cable is wound around a small diameter portion of the opening side drum, the sliding door moves from a predetermined position relative to an opening portion to a position where the opening portion is fully closed, and, in the state in which the closing side cable is wound around a large diameter portion of the closing side drum and the opening side cable is wound around a large diameter portion of the opening side drum, the sliding door moves from the predetermined position relative to the opening portion to a position where the opening portion is fully open.

A device for manually and/or electromotively adjusting or securing a first vehicle part and a second vehicle part relative to each other is provided. The device comprising an adjustment part which has a joint for pivotable arrangement on the first vehicle part, wherein the adjustment part is to be arranged on the first vehicle part in such a manner that, when the vehicle parts are adjusted relative to each other, the adjustment part moves relative to the second vehicle part, a traction cable which is fastened at a first end and at a second end to the adjustment part, and a cable drum which is to be arranged on the second adjustment part, is rotatable about a longitudinal axis and on which the traction cable is arranged.

A drive device includes a drum housing rotatably supports a drum, allows an outer tube end to be inserted into an outer tube connecting portion and allows a wire to pass through a wire passage portion, and a drive member rotates the drum. An anti-deflection portion limits deflection of the wire and is formed on the drum housing/drive member. The anti-deflection portion includes a range surrounded by a line connecting one end of the formation range of the spiral groove and one end of the formation range of the insertion hole at the outer tube end connected to the outer tube connecting portion and a line connecting the other end of the spiral groove formation range and the other end of the insertion hole formation range at the end of the outer tube connected to the outer tube connecting portion, in the rotational axis direction of the drum.

An assembling determination method and an assembling determination device for a vehicular opening-closing body driving device can determine a normal/abnormal winding of a drive wire around a spiral groove to ensure a quick and accurate action. The assembling determination method includes winding a drive wire around the spiral groove on the peripheral surface of a drive drum, wherein the drive wire drives a vehicular opening-closing body, arranging an inspection jig to face the drive drum surface via a clearance, determining that the drive wire is wound around the spiral groove in an abnormal manner when the inspection jig contacts the drive wire, and determining that the drive wire to be wound around the spiral groove in a normal manner when the inspection jig and the drive wire are contactless.

A device for manually and/or electromotively adjusting or securing a first vehicle part and a second vehicle part relative to each other is provided. The device comprising an adjustment part which has a joint for pivotable arrangement on the first vehicle part, wherein the adjustment part is to be arranged on the first vehicle part in such a manner that, when the vehicle parts are adjusted relative to each other, the adjustment part moves relative to the second vehicle part, an output element which is to be arranged on the second vehicle part, is operatively connected to the adjustment part and is drivable in order to move the adjustment part relative to the second vehicle part, a shaft connected to the output element, and a flexible force transmission element which is fastened at a first end and at a second end to the adjustment part.

A window regulator for a motor vehicle includes a drive unit assembly with a module plate. The drive unit for the window regulator includes a cable drum housing with a cable drum and a motor assembly. The cable drum housing includes a stepped annular ring extended from the cable drum housing and a snap-fit post protruded from each of the stepped annular ring for engaging with the module plate. The cable drum housing is positioned on a receiving site of the module plate, and the stepped annular ring and the snap-fit post is coupled with a locating site on the receiving site. Each locating site includes a circular bead for engaging with the stepped annular ring of the cable drum housing.

A drive device for adjusting a cover element of a vehicle, for use in a window lift apparatus, including a gearing element rotatable about a rotation axis and a motor unit which has an input shaft rotatable about a shaft axis for driving the gearing element. The shaft axis of the input shaft is oriented at an oblique angle to the rotation axis of the gearing element.

Disclosed is a sliding window for a building, including a frame, an opening member and a motorized drive device. The device includes an electromechanical actuator, a flexible element and a pulley for winding the flexible element. The pulley is rotated by an output shaft of the actuator. One end of a first strand of the flexible element connects to a first portion of the pulley. One end of a second strand of the flexible element connects to a second portion of the pulley. The pulley and the output shaft have the same axis of rotation. The device also includes a first angle transmission mechanism engaging the first strand, so as to guide the first strand relative to the first portion of the pulley, and a second angle transmission mechanism engaging with the second strand, so as to guide the second strand relative to the second portion of the pulley.