A corner support assembly for metal framed doors reinforces mounting of a metal door, so that the door molding easily attaches to extruded vertical and horizontal frame members of the corner support assembly. A top wall of the frame members with guide lines and molding that sits into a snap-fit mating relationship with corresponding frame members; thereby negating the need for notching. A heavy shear block provides structural integrity. The shear block abuts the intersection of the horizontal and vertical frame members, sliding between molding grooves in the vertical frame member. The shear block and horizontal and vertical frame members are secured into place with at least one of: a shear screw and a plug weld. An elongated threaded bolt reinforces connections between the horizontal and vertical frame members. A rubber glass setting block rests adjacent to the top wall of frame members to receive a glass pane.

A hatch power lift and locking system may include a hatch configured to cover an opening, the hatch being pivotable about an axis between a closed position and an open position. The assembly may also include at least one latch dog attached to the hatch, and at least one dog catch pin engaging with the at least one latch dog in the closed position. The at least one latch dog may include a latch slot for receiving the at least one dog catch pin, and a latch catch for engaging the at least one dog catch pin. The assembly may further include an actuator configured to move at least a portion of the hatch between the closed position and the open position.

Example aspects of a sliding door assembly and a method for using a sliding door system are disclosed. The sliding door assembly can comprise a track assembly comprising a track assembly comprising a first track and a second track; a pivot assembly comprising a pivot carriage and a pivot mechanism engaging the pivot carriage, the pivot carriage configured to move along the first track; a locking carriage configured to move along the second track; and a sliding door comprising a door body and a locking pin, the locking pin removably engaging the locking carriage, and the door body configured to pivot at the pivot assembly relative to the track assembly.

The invention relates to a weight compensation device for a drive of a lifting door, for the position-dependent compensation of the weight force of a door leaf of the lifting door, with a force transmission unit which can be coupled to the drive in order to carry out an opening movement which raises the door leaf and a closing movement which lowers the door leaf, wherein at least one compression spring is provided which is arranged in such a way that it supports the opening movement. The invention also relates to a lifting door, in particular an industrial lifting door, which has a door leaf, with a drive, such as a motor, and with a weight compensation device according to the invention.

Monitoring systems for automatic doors comprise at least one input device configured for sensing at least one characteristic of at least one operational parameter of an automatic door system, a door system controller coupled to the at least one input device, at least one monitor display comprising a first interface operatively coupled to the door system controller, and at least another interface operatively coupled to the at least one monitor display and configured to be operatively coupled to at least one remote display device. The at least one monitor display is configured to continuously request information representative of the at least one operational parameter characteristic from the door system controller and display the information. Methods of monitoring an automatic door system comprise transmitting data representative of an operational parameter characteristic from an input device to at least one door system controller; sending a description of the operational parameter to a monitor display continuously; and displaying indicia representative of the description of the operational parameter.

A sliding door assembly includes a track assembly comprising an inner track component, and outer track component, and a central track component, the inner track component and the central track component defining an inner track, the outer track component and the central track component defining an outer track; a pivot assembly engaged with and movable along the inner track; a sliding door pivotably mounted to the pivot assembly; and a locking pin coupled to the sliding door and movable between an extended configuration and a retracted configuration, wherein, in the extended configuration, the locking pin is engaged with and movable along the outer track.

The invention relates to electrically switchable motor vehicle glazing, such as a side or rear window pane of a motor vehicle, wherein at least one optical property can be changed by feeding an electrical signal through a line arranged on a window-pane holder of the motor-vehicle glazing, wherein an open-loop or closed-loop control unit for feeding the electrical signal is provided in a housing, which is arranged in a stationary manner in relation to a motor-vehicle body.

The lid opening and closing mechanism in the present disclosure has an operating member which is displaceable relative to a housing body, and a drive mechanism. When the operating member is in a first position relative to the housing body, the drive mechanism locks the lid so that the lid does not move in a predetermined direction, and when the operating member is moved to a second position relative to the housing body, the drive mechanism releases the lock on the lid, moves the lid in the predetermined direction by at least a predetermined distance, and separates the lid from a predetermined face in a direction perpendicular to the predetermined face.

A movable wall panel system may include a bottom drop seal assembly that maintains a constant force relative to a floor portion of an environment through a damper. The movable wall panel system may include an automatic top seal assembly that seals a gap between the movable wall panel system and a ceiling of the environment. The moveable wall panel system may include multiple panels and a plurality of seals positioned between adjacent panels to seal a gap between the adjacent panels.

A movable wall panel system may include a bottom drop seal assembly that maintains a constant force relative to a floor portion of an environment through a damper. The movable wall panel system may include an automatic top seal assembly that seals a gap between the movable wall panel system and a ceiling of the environment. The moveable wall panel system may include multiple panels and a plurality of seals positioned between adjacent panels to seal a gap between the adjacent panels.