A device for inhibiting the closing of a door that controls entry of an enclosure includes a first magnet disposed on a driven portion of the device and a second magnet disposed on a fixed portion of the enclosure. The first magnet and the second magnet are configured to be in register with each other as the door moves toward a closed position such that if the first magnet and the second magnet are in register with each other, a pole of the first magnet is in close proximity of a pole of the second magnet such that the first magnet and the second magnet react to each other to inhibit motion of the door towards the closed position.

A dual sliding door apparatus incudes a rectangular shaped frame configured for attachment to two opposing walls and a floor, the frame creating an opening, a top of the frame comprising a first rail parallel to a second rail, a first glass door sized so as to cover about one half of the opening, a pair of roller wheels coupled to a top of the first door, the pair of roller wheels including a concave outer surface designed to mate with the first rail, such that the first door rolls on the first rail, a second glass door with a pair of roller wheels coupled to a top of the second door, a first stop coupled to an outer circumference of the first glass door, and a second stop coupled to an outer circumference of the second glass door.

A braking system for a sliding door system includes a receiver and a driving wedge. The receiver is at a fixed location along a travel path and includes a first braking surface. The driving wedge is attachable to a sliding door assembly of the sliding door system and includes a second braking surface. The driving wedge is movable along the travel path relative to the receiver between a disengaged configuration and an engaged configuration. In the disengaged configuration, the driving wedge is disengaged from the receiver, and, in the engaged configuration, the second braking surface frictionally engages the first braking surface.

A door component has a controllable damping device and contains a magnetorheological fluid. Two connection units are movable relative to one another. One of the two connection units is connected to a support structure and the other one to a pivotable door unit. The device damps a movement of the door unit between a closed position and an open position in a controlled manner by way of a control unit. The magnetorheological damping device has a piston unit and a cylinder unit surrounding the piston unit. The piston unit divides a cylinder volume into two chambers. The piston unit is equipped with a first one-way valve. The two chambers are connected together, via an external return channel equipped with at least one controllable magnetorheological damping valve, to form a one-way circuit. When the piston unit moves in and out, the magnetorheological fluid flows through the piston unit in the same flow direction.

An opening device (1) having an opening part (2) and a stationary part (4). The opening part (2) is movable relative to the stationary part (4) between a closed position and an open position. The opening device further includes a device arranged to accompany the movement of the opening part. The accompanying device has a first part (10) secured to the opening part (2) and a second part (12) secured to the stationary part (4), with the first part (10) being movable relative to the second part (12). The accompanying device includes a safety blocking device (20) arranged to block the movement of the first part (10) relative to the second part (12) when an inertial force applied to the opening part (2) toward the open position is above a predetermined threshold force.

Disclosed is a low profile, adjustable, soft close hinge comprised of a hinge cup pivotally connected to a hinge body via a hinge arm and a hinge link in a four-bar linkage arrangement. A spring biases the hinge to a closed position. The hinge body is adjustably connected to an inner frame with an overlay adjustment screw and depth adjustment cam. The inner frame releasably connects the hinge body to a mounting plate. A stop bracket is adjustably and slidably connected to the hinge body by a cam. The adjustable position of the stop bracket relative to the hinge body determines the point at which the damping functionality of a damper begins during a hinge closing movement. A linkage sub-assembly pivotally connects the damper to the hinge link.

The present embodiments relate to a hinge for use in a mobile toilet having a toilet bowl, a toilet seat, and a toilet lid, wherein the toilet seat and the toilet lid each are swivel-mounted to the toilet bowl by the hinge and have a common pivot axis. Furthermore, the present embodiments relate to a damping device for retrofitting a hinge. The present embodiments also relate to a mobile toilet. In particular, the present embodiments relate to the problem to allow an easy retrofitting of a hinge and mobile toilets, respectively. This problem is in particular solved with the initially described hinge that in accordance with the present embodiments has at least one receiving area that is formed to receive at least one damping device for damping the swivel motion of the toilet seat or the toilet lid about the pivot axis.

A damping or return device for sliding door leaves, particularly for furniture, which is constituted by a steel pin that slideably and axially interacts within a magnet constituted by a diametrically differently-polarized collar.

A damping or return device for sliding door leaves, particularly for furniture, or for drawers, which is constituted by a pin the shank of which is constituted by a diametrically differently-polarized magnet that slideably and axially interacts with a steel plate or a complementarily-shaped collar, which is made of steel and polygonal

A damping or return device for sliding door leaves or drawers, particularly for furniture, is provided. The device has a first trolley, which is associated with a door leaf and is slideable with respect to an item of furniture, by a diametrically differently-polarized magnet, which is associated with the first trolley or with the item of furniture, and by at least one steel plate, which is associated with the item of furniture or with the first trolley. The first trolley interacts selectively with at least one elastically compressible element which abuts, in opening and in closing, with an abutment element which is associated with and protrudes from the item of furniture.