A heavy duty full energy, encoder driven non-handed electric door operator for industrial and commercial use a motor and an encoder configured to receive an external set of predetermined instructions. A motor mounting bracket connects the motor to a multi-layer housing. A controller is in electronic communications with the encoder and transmits external sets of predetermined instructions. Internally, the door operator contains a plurality of transfer shaft assemblies in communication with each other and connected with the motor at one end and an output shaft at the other end. The output shaft terminates at each end in a nondetachable spline. A detachable mounting plate serves as a base. The door operator operates heavy swing doors external to a building where the swing doors are required to be open or remain open in strong wind conditions.

A gate assembly is formed from a gate attached by hinges to a frame. A pair of L-shaped brackets are attached to the outer sides of the frame. The brackets are in turn attached to a pair of gate posts in a barrier. Bolt holes formed in the header section of the frame receive removable eye bolts that may be used as hoisting points as the frame is being positioned within a barrier. To maintain the shape of the frame during such positioning, a removable sill section is included in the base of the frame. The first upright section of the frame defines an unobstructed internal channel bounded by input and output portals. A cable may pass though the channel and into the gate by way of the output portal. Window openings in the gate may be fitted with removable window panels containing pickets and infill material. Dual gates may be positioned within an enlarged frame, and a removable mullion post positioned between the gates and supported by the frame.

A slide door harness includes a wiring material, a vehicle body-side fixing portion provided in a vehicle body to rotatably hold an end of the wiring material below a lower end of an inner surface member of a slide door, and a door-side fixing portion provided on the slide door to rotatably hold another end of the wiring material, and the door-side fixing portion includes a holding portion configured to hold the another end of the wiring material toward the lower end side of the inner surface member, a first rotating shaft configured to allow the holding portion to rotate around a first rotation axis, and a second rotating shaft configured to allow the holding portion and the first rotating shaft to integrally rotate around a second rotation axis intersecting the first rotation axis.

A guiding rail for guiding a door leaf between an opening position and a closing position in relation to a door opening in a wall includes: at least one guiding section with a guiding compartment, in which a sliding element is accommodated to be movable, wherein the guiding section includes a guiding opening, through which a bearing axis of the sliding element exits at least partially from the guiding compartment, at which axis a lever element is supportable to be rotationally movable, in order to establish an operative connection between the sliding element and the door leaf. The guiding rail further includes at least one functional section with a functional compartment, in which a transmission means is receivable, which serves for transferring electrical energy and/or data between at least a wall-sided energy source and a door leaf-sided energy recipient and a labyrinth guide between the guiding and functional compartments.

A movable window apparatus is disclosed. The movable window apparatus may comprise a window panel, a first electrical contact, and a second electrical contact. The window panel is operable between an opened position and a closed position. The first electrical contact is coupled to the window panel. The second electrical contact is coupled to the vehicle. Further, the first electrical contact is operable to engage the second electrical contact when the window panel is in a first position and disengage the second electrical contact when the window panel is out of the first position. Engagement of the second electrical contact by the first electrical contact forms a conductive connection. This conductive connection has the advantage of being engageable and dis-engageable. Accordingly, the movable window apparatus enables a conductive connection with a window panel without inhibiting the movement of the window panel between two or more positions.

A door, a door module therefor, and a method of constructing a door for a motor vehicle is provided. The door module includes a carrier; an electrical latch secured to the carrier, and a latch control system. The latch control system has an inside micro-switch operably connected to the electrical latch via an inner electrical connector, and an outside micro-switch operably connected to the electrical latch via an outer electrical connector. Electrical communication between the electrical latch and latch control system, initiated via selective actuation of the inside and outside micro-switches, provides full normal operation of a vehicle door without need for mechanical linkages.

A motor vehicle lock with a locking mechanism and a lock housing structure, a motorized drive arrangement to actuate a mechanical lock component, a control unit for the actuation of the drive arrangement, and an energy storage arrangement for the electric voltage supply of the drive arrangement and/or the control unit being provided in or on the lock housing structure. The lock housing structure has an inner housing part attached to the locking mechanism and the drive arrangement, a housing cover for closing an upper side of the inner housing part, and, between the inner housing part and the housing cover, a control housing part including a control board of the control unit and the energy storage arrangement, and leadframe lines extending at least in sections along the board plane and connected electrically via the leadframe lines of the leadframe to the control board and drive arrangement.

A sensor bracket for mounting, on a vehicle, a capacitance sensor in which a loop-shaped electric wire serving as a sensor electrode extends from a sensor main body includes a bracket main body on which the sensor main body is arranged with the electric wire looping back so as to extend in parallel with each other at a constant distance from each other, and a plate spring portion being supported by the bracket main body in a cantilever manner, having, on a tip side, a hooking portion disposed to which the electric wire can be hooked, and providing the electric wire hooked to the hooking portion with tension.

A door hinge, and a laundry treatment device provided with the door hinge, includes a hinge mount, a hinge shaft and a rotating arm, a side of the rotating arm is provided with a wire passing groove, the rotating arm further includes a fixing clip, and a cavity structure is formed by the fixing clip and the wire passing groove for allowing wire to pass. On the basis of the prior art, a wire passing structure of the door hinge is added, wiring of an energization component of the laundry treatment device with the door hinge can be facilitated, wires can be hidden by the wire passing structure, space is saved, and the attractiveness is improved; the wires are not liable to be worn or broken since the wires are placed in the groove; and all parts of the rotating arm can be disassembled for easy maintenance.

Door operator systems are described herein that include the use of an adaptor. It should be understood that the adaptor may be utilized in order to operatively couple separate door operator assemblies together in a double door operator system. The adaptor may include control components (e.g., switches, buttons, toggles, levers, or the like) that are used to turn the door operator system on and off. While the adaptor may be used to operatively couple two separate door operator assemblies together to form a double door operator system, the adaptor may also be used within a single door operator system. Furthermore, with respect to double door operator systems, the system may also utilize a back plate assembly comprising two or more separate back plates (e.g., two or more back plate portions).