A tension rod has an outer shaft slidably receiving an inner shaft. A tension mechanism includes a partially threaded rod with a threaded portion. A first end extends from the threaded portion and is adapted for fixing to an inner surface of the inner shaft; a second end has a tapered body with a greater transverse dimension closer to the second end. A wedge has a slot and an inner surface in facing sliding engagement with the tapered body between a nut threadedly engaged with the threaded portion and the second end. The nut is rotationally fixed to the outer shaft. Upon relative rotation of the inner and outer shafts, the nut moves along the threaded portion toward the second end, the wedge abutting and moving with the nut. The wedge contacts the tapered body, expands radially, and contacts the inner surface of the outer shaft, locking the shafts together.

A tension rod has an outer shaft slidably receiving an inner shaft. A tension mechanism includes a partially threaded rod with a threaded portion. A first end extends from the threaded portion and is adapted for fixing to an inner surface of the inner shaft; a second end has a tapered body with a greater transverse dimension closer to the second end. A wedge has a slot and an inner surface in facing sliding engagement with the tapered body between a nut threadedly engaged with the threaded portion and the second end. The nut is rotationally fixed to the outer shaft. Upon relative rotation of the inner and outer shafts, the nut moves along the threaded portion toward the second end, the wedge abutting and moving with the nut. The wedge contacts the tapered body, expands radially, and contacts the inner surface of the outer shaft, locking the shafts together.

Apparatus are disclosed for coupling integrated segments of an assemblage. The coupler apparatus includes a carrier connectable to one segment and slidably receiving another segment and has an elongate slot defined at one wall portion of a cavity therein. A restraint includes a conic wedge receivable in the carrier and has an actuator arm angularly extending from the wedge that is receivable through the elongate slot of the carrier.

A support is provided, comprising a first bar with a first abutment element, a second bar with a second abutment element, and a guiding device by which the first bar is displaceably guided on the second bar. An actuating device which acts on the first bar and which comprises an actuating element is arranged on the second bar. A displacement of the first bar in a first direction of displacement can be initiated by actuation of the actuating element. The first direction of displacement is a direction of increase in distance between the first abutment element and the second abutment element. The actuating device comprises a blocking device which blocks a displacement of the first bar in relation to the second bar in a second direction of displacement, which is opposite the first direction of displacement, at least when no active releasing action occurs at the blocking device.

A tension rod has an outer shaft slidably receiving an inner shaft. A tension mechanism includes a partially threaded rod with a threaded portion. A first end extends from the threaded portion and is adapted for fixing to an inner surface of the inner shaft; a second end has a tapered body with a greater transverse dimension closer to the second end. A wedge has a slot and an inner surface in facing sliding engagement with the tapered body between a nut threadedly engaged with the threaded portion and the second end. The nut is rotationally fixed to the outer shaft. Upon relative rotation of the inner and outer shafts, the nut moves along the threaded portion toward the second end, the wedge abutting and moving with the nut. The wedge contacts the tapered body, expands radially, and contacts the inner surface of the outer shaft, locking the shafts together.

Apparatus are disclosed for coupling integrated segments of an assemblage. The coupler apparatus includes a carrier connectable to one segment and slidably receiving another segment and has an elongate slot defined at one wall portion of a cavity therein. A restraint includes a conic wedge receivable in the carrier and has an actuator arm angularly extending from the wedge that is receivable through the elongate slot of the carrier.

A support is provided, comprising a first bar with a first abutment element, a second bar with a second abutment element, and a guiding device by which the first bar is displaceably guided on the second bar. An actuating device which acts on the first bar and which comprises an actuating element is arranged on the second bar. A displacement of the first bar in a first direction of displacement can be initiated by actuation of the actuating element. The first direction of displacement is a direction of increase in distance between the first abutment element and the second abutment element. The actuating device comprises a blocking device which blocks a displacement of the first bar in relation to the second bar in a second direction of displacement, which is opposite the first direction of displacement, at least when no active releasing action occurs at the blocking device.

A ceiling mount for medical devices comprising a support that can be secured to a ceiling. A ceiling tube is longitudinally extended vertically in a mounting position and held on the support. A cover mounted in a fixed position relative to the support and to the ceiling tube for the support is provided. The cover has a pass-through opening for the ceiling tube (2), which is dimensioned slightly larger than an outer dimension of the ceiling tube, and can be placed against the ceiling with a free edge section. An elastomer ring surrounds the ceiling tube and is placed against the cover. The elastomer ring is dimensioned so that it lies against the ceiling tube on the lateral surface and is tensioned. The elastomer ring can be positioned on the ceiling tube so that it presses the cover against the ceiling in the mounting position.

A telescopic rod and a telescopic structure are provided. The telescopic rod includes an inner tube and an outer tube, an end portion of the inner tube extending into the outer tube is used as an extension end and is provided with a limiting portion, a bottom portion of the limiting portion is connected to the extension end, an outer diameter of an outer peripheral wall of the limiting portion gradually increases from the bottom portion to a top portion thereof, a positioning member is slidably connected with an elastic portion, the elastic portion has elastic expansion members, and the elastic expansion members form static friction with an inner wall of the outer tube, which result in a simple structure, convenient operation and very stable locking.

A pole locking device for a base of a sunshade comprises a coupling seat and a braking member pivotably connected to the coupling seat. When the braking member is in a braking position, a friction face of the braking member is in an interfering condition with an outer periphery of an upper pole. The coupling seat is securely coupled with the upper pole and a lower pole. When the braking member is in the braking position and the upper pole is coupled with the coupling seat, the braking member cannot prevent upward movement of the upper pole. When the braking member is in the braking position and the upper pole moves in a direction to disengage from the coupling seat, the braking member stops displacement of the upper pole.