A passage barrier includes two guide elements that define a gate region, through which a person passes from an entrance region into a passage region. At least one barrier element prevents and/or enables the passage of the person from the entrance region into the passage region within the gate region. At least one of the guide elements includes a profile attachment element for attaching at least one profile of a guide element to the base of a building structure. The profile attachment element has a vertical profile mount for mounting a vertically running profile on the profile attachment element and a horizontal profile feedthrough for feeding a horizontally running profile through the profile attachment element.

A one-way passage system (1) comprises an entrance door arrangement (2a) and offset therefrom an exit door arrangement (2b). First and second side wall arrangements (3a, 3b) are provided therebetween, thereby defining a passage area (4). A sensor device (5) can detect persons (10): a) before the entrance door arrangement (2a); b) in the passage area (4) and/or after the exit door arrangement (2b).
A control device is configured to enter a safety operating mode and to close the entrance door arrangement (2a) when an analysis of sensor data indicates that a person (10): a) in the passage area (4) goes back in the direction of the entrance door arrangement (2a); and/or b) goes back after the exit door arrangement (2b) in the direction of the passage area (4).
An illumination device (20), which is arranged in the passage area (4) can illuminate the passage area in different colors. The control device can enter different operating modes, wherein the entrance door arrangement (2a) and the exit door arrangement (2b) are controlled accordingly depending on the operating mode, and wherein the illumination device (20) illuminates the passage area (4) with different colors depending on the operating mode.

A design for a universal telescoping swing gate can be sized to obscure a wide range of openings while accommodating a multitude of installation options to make the gate versatile under many conditions. The swing gate can have a frame with a pivot member rotatable about a mounting seat between an open configuration and a closed configuration. The frame can have first and second telescoping members adjustable along an extension axis between a collapsed state and a fully extended state for changing the frame length so the gate can be quickly furnished to different sized openings. The gate can be spring loaded to bias the frame to a nominally closed position to reduce the chance for human error among workers. The gate can also be sized to have the structural rigidity to comply with OSHA requirements for handrails and guardrails around a walking-working surface.

A pedestrian gate (3) for an access control device, having a blocking element (7) and having an actuating element (8), wherein the blocking element (7) is fastened to the actuating element (8) and is pivotable via the actuating element (8) about a vertical axis of rotation (11) between a blocking position and an access position. The blocking element (7) is, in a vertical projection, formed so as to run substantially rectilinearly and, here, defines a vertical blocking plane (12) which does not include the axis of rotation (11).

The non-rigid gate device as described may be useful in many application for the general public; gateways in parks, special events, entries to open type office or business building, also large flee-markets often have rigid gates, problems with latches, Other possibilities exist; such as onboard a ship or pleasure boats whereas rigid purpose gates are sometimes left open, this gate is freely placed in a tapered receiver bracket or placed open with the free end resting on a solid surface, rigid gates slam violently in stormy conditions, The non-rigid gate device may be built of metal with a rubber foot to rest on hard surfaces. This gate may be automatically latched when it is placed in a receiver bracket with the auto locking device of this patent application. This invention could be used at airports, parks and welcome centers; or as a garden gate, whereby obstacles often block rigid gates from opening; the inventor foresees many possibilities beyond the stairway use for this non-rigid gate.

A passage barrier includes two guide elements that cooperate such that they define a gate region, through which a person passes from an entrance region into a passage region. The passage barrier has a drive with a drive unit and an output unit. The drive unit, output unit, and barrier element are operatively connected such that the barrier element is movable via the drive unit into a position closing and a position opening the gate region. The output unit has a hollow shaft with outer and inner shell surfaces. The inner shell surface and drive unit are configured such that the inner shell surface surrounds the drive unit in sections, preferably completely and the hollow shaft has a barrier element mount formed for fixing a barrier element on the hollow shaft. The barrier element mount is arranged on the outer shell surface and formed integrally with the hollow shaft.

A passage barrier has first and second guide elements that cooperate to define a gate region, through which a person passes from an entrance region into a passage region. The passage barrier has a drive a drive unit. The drive has an output unit including a hollow shaft having an outer shell surface. The hollow shaft has a barrier element mount formed for fixing a plate-shaped barrier element on the hollow shaft and is formed substantially in a U-shape. The barrier element is fixed between the limbs of the barrier element mount, wherein at least two adhesive grooves are provided on the inside at the base of the barrier element mount. At least two opposing adhesive grooves are provided for receiving an adhesive on the inside on both limbs of the barrier element mount and opposing grooves are formed on the inside at distal ends of the barrier element mount.

A passage barrier, includes a drive that has a drive unit and an output unit, wherein the output unit is formed as a hollow shaft. The hollow shaft is mounted so as to be rotatable with respect to the guide element and the hollow shaft surrounds the drive unit at least in sections, preferably completely. The drive unit includes a first torque transmission element that transmits torques from the drive unit to a guide element. The drive unit includes a second torque transmission element that transmits torques from the drive unit to the hollow shaft. The torque transmission elements are formed geometrically similar, in particular identically and arranged on the drive unit. The first torque transmission element is arranged in a frictional and/or positive manner with respect to the guide element to be detachable and the second torque transmission element is arranged in a frictional and/or positive manner in the hollow shaft to be detachable.

A design for a universal telescoping swing gate can be sized to obscure a wide range of openings while accommodating a multitude of installation options to make the gate versatile under many conditions. The swing gate can have a frame with a pivot member rotatable about a mounting seat between an open configuration and a closed configuration. The frame can have first and second telescoping members adjustable along an extension axis between a collapsed state and a fully extended state for changing the frame length so the gate can be quickly furnished to different sized openings. The gate can be spring loaded to bias the frame to a nominally closed position to reduce the chance for human error among workers. The gate can also be sized to have the structural rigidity to comply with OSHA requirements for handrails and guardrails around a walking-working surface.

The invention relates to a passage device comprising: at least one passage traversable by at least one person along a passage direction; at least two sidewalls spaced from each other along a direction extending perpendicularly to the passage direction, the sidewalls being connected with each other, wherein the passage is bounded along the direction by the sidewalls, and at least one capturing device by means of which a body temperature of the person located in front of at least a partial area of the passage along the passage direction can be contactlessly captured, wherein the passage device, considered on its own, is formed as a structural unit assembled and mobile.