The invention is an an anchor for attaching an automated window mechanism to a sliding panel of a window. The sliding panel has a border with an outer face generally perpendicular to the window. The anchor includes a base configured to be secured to the outer face. The base and mechanism mount has a first tongue-and-groove component protruding from the base away from the outer face. The anchor also includes a mechanism mount configured to be secured to the automated window mechanism, the mechanism mount having a second tongue-and-groove component protruding therefrom. The first tongue-and-groove component and the second tongue-and-groove components are shaped and aligned to permit the mechanism mount to slide relative to the base in a direction generally perpendicular to the window, and to thereafter hold the mechanism in proper alignment relative to the sliding panel of the window.

An improved door stop adapted to be removably attached to an outer edge of a pivoting door, preferably the top edge, and is adapted to contact a door frame attached thereto and prevent the door from pivoting to a fully closed position and engaging the door frame and locking a person, or even an animal, within a room.

A patch fitting coverplate or cap for a patch fitting that extends a pivot point centerline of the patch fitting. The patch fitting coverplate may be constructed as a retrofit cover to integrate a patch fitting of one standard pivot point centerline to a door pane of another standard pivot point centerline. A patch fitting assembly including the patch fitting coverplate and patch fitting may also include buffers to fill in the interior portion between the extended patch fitting coverplate and the patch fitting. The patch fitting may be tapered at an edge close to the pivot axis of the door pane for smooth actuation of the door pane.

An exemplary method relates to operating a door closer assembly including a closer body, a pinion rotatably mounted to the closer body, a motor including a motor shaft, and a bidirectional clutch connected between the pinion and the motor shaft. The method generally involves permitting, by the clutch, rotation of the pinion in each of a first direction and a second direction without transmitting rotation of the pinion in either direction to the motor shaft; sensing, with a sensor, a rotational position of the pinion; comparing, by a controller, the rotational position of the pinion with a desired rotational position; based upon the comparing, driving the motor to rotate the motor shaft; and by the clutch, coupling the motor shaft with the pinion in response to rotation of the motor shaft, thereby transmitting torque from the motor shaft to the pinion and urging the pinion toward the desired rotational position.

A door operator including an output shaft, a ball screw, a powered driver, and a yoke. The output shaft is configured to be coupled to a door. The powered driver is operatively coupled to the ball screw and configured to rotate the ball screw in a first rotational direction. The yoke is coupled to the ball screw and configured to translate in response to rotation of the ball screw. The yoke is configured to rotate the output shaft.

A flap assembly for a vehicle includes a flap, which by way of a linear actuator drive is pivotably drivable about a pivot axis from a closed position to an opened position. The drive includes a spring assembly that acts in a supporting manner on the flap. The actuator drive has an actuator housing that has one end articulated on the body of the vehicle, and an actuator rod being deployable from the other end of the housing. An external end of the actuator rod is articulated on the flap at a radial spacing from the pivot axis. The spring assembly is releasably disposed on the other end of the housing and has a compression spring supported by the actuator housing. The compression spring acts on the flap between a closed position and an initial opening angle of the flap.

A smart door opening system includes a latch opening mechanism configured to be received in a latch hole of a door frame and configured to push a latch of a door out of the latch hole and a hinge opening mechanism configured to move the door from a closed position to an open position. A controller is operably coupled to the latch opening mechanism and the hinge actuator. The controller is configured to cause the latch opening mechanism to push the latch out of the latch hole and the hinge opening mechanism to move the door from the closed position to the open position in response to receiving a door open signal. The system includes a network interface configured to receive the door open signal via a network, and to communicate the door open signal to the controller.

A handicap accessibility assistance device includes a drone. The drone has a wedge mechanism at a first end. A controller is configured to cause the drone to approach a door, wedge the wedge mechanism under the door, shift the drone to an opening end of the door, and push the door open.

Disclosed is a door device that can ensure necessary catch function and/or assist function and give a neat impression is provided. The hinge includes a first part to be attached to a main body and a second part to be attached to a door. The door device includes a base, an arm rotatably supported on the base and a spring for applying torque to the arm in the closing direction and/or in the opening direction thereof. The base of the door device is attached to the first part of the hinge.

A barrier operator feature enhancement device is designed to provide one or more features found in modern barrier operator devices and to incorporate those features into a previously installed barrier operator system. To facilitate ease of use, the barrier operator feature enhancement device can communicate with a large variety of barrier operators. Such communication may be wireless or wired, depending on the communication protocol implemented by a particular previously installed barrier operator. To facilitate the ease of installation, the device is designed to configure itself to operate with the communication protocol of the previously installed barrier operator. Once configured to be able to communicate with the previously installed barrier operator, the feature enhancement device works with the barrier operator to provide one or more additional features to enhance the capabilities of the previously installed barrier operator.