A user-controllable braking system, including a descent tether connectable to a support and configurable for descending a user; a rigid body configured to be connectable between the descent tether and a user for enabling control of the descent by the user; a pulley rotatably positioned on the rigid body, the descent tether positionable around the pulley; a brake member yieldably positioned on the rigid body adjacent the pulley; a bias member operatively associated with the brake member to bias the brake member away from the pulley; and a lever pivotally connected to the rigid body and operable to bear against the brake member to controllably overcome the bias member and controllably bear the brake member against a portion of the descent tether. Operation of the lever by the user enables the user to controllably bear the brake member against the portion of the descent tether positioned around the pulley to provide a braking force.

A user-controllable braking system, including a descent tether connectable to a support and configurable for descending a user; a rigid body configured to be connectable between the descent tether and a user for enabling control of the descent by the user; a pulley rotatably positioned on the rigid body, the descent tether positionable around the pulley; a brake member yieldably positioned on the rigid body adjacent the pulley; a bias member operatively associated with the brake member to bias the brake member away from the pulley; and a lever pivotally connected to the rigid body and operable to bear against the brake member to controllably overcome the bias member and controllably bear the brake member against a portion of the descent tether. Operation of the lever by the user enables the user to controllably bear the brake member against the portion of the descent tether positioned around the pulley to provide a braking force.

A hoist system having a drum primarily self-contained within a batten, for raising and lowering lighting, sound equipment, curtains and the like in a performance environment. The hoist system may be adapted with safety mechanisms including an overload sensor and/or a slack line detector. The system may be provided in the form of a point hoist. The compact system is highly scalable to a variety of spaces and applications, including school and public theaters and concert halls, as well as some homes, private business, etc. Additional features include various cable management systems and trim adjustment mechanisms for use with the hoist system.

A hoist system having a drum primarily self-contained within a batten, for raising and lowering lighting, sound equipment, curtains and the like in a performance environment. The hoist system may be adapted with safety mechanisms including an overload sensor and/or a slack line detector. The system may be provided in the form of a point hoist. The compact system is highly scalable to a variety of spaces and applications, including school and public theaters and concert halls, as well as some homes, private business, etc. Additional features include various cable management systems and trim adjustment mechanisms for use with the hoist system.

The invention discloses a power-loss triggering device, including: a frame, an electromagnet and an impact bar; the impact bar vertically and movably penetrates through the frame; an energy storage piece is arranged and the energy storage piece may exert a downward action force on the impact bar; when the electromagnet is energized, the impact bar is positioned through electromagnetic force; when the electromagnet loses power, the impact bar loses a holding power from the electromagnet and conducts a downward impact movement under the action force of the energy storage piece. The power-loss triggering device is implemented through the electromagnet and an intermediate mechanism. In this invention, the electric current, the energy consumption and the cost of the electromagnet are reduced, the service life of the long-time energized electromagnet is prolonged.

The invention discloses a power-loss triggering device, including: a frame, an electromagnet and an impact bar; the impact bar vertically and movably penetrates through the frame; an energy storage piece is arranged and the energy storage piece may exert a downward action force on the impact bar; when the electromagnet is energized, the impact bar is positioned through electromagnetic force; when the electromagnet loses power, the impact bar loses a holding power from the electromagnet and conducts a downward impact movement under the action force of the energy storage piece. The power-loss triggering device is implemented through the electromagnet and an intermediate mechanism. In this invention, the electric current, the energy consumption and the cost of the electromagnet are reduced, the service life of the long-time energized electromagnet is prolonged.

A telescopic column includes at least two linearly movable telescopic elements and a drive system. The drive system includes a drive unit having a first clutch element and an output unit having a shaft, a windable connecting element and a second clutch element connected to the shaft such that the clutch element and the shaft rotate together. The drive system includes a brake unit configured to transmit a retaining force onto the second clutch element and configured such that applying a drive moment to the first clutch element reduces the retaining force and allow the telescopic elements to move relative to each other. The brake unit is further configured such that applying an output-side torque to the second clutch element increases the retaining force acting on the second clutch element.

A telescopic column includes at least two linearly movable telescopic elements and a drive system. The drive system includes a drive unit having a first clutch element and an output unit having a shaft, a windable connecting element and a second clutch element connected to the shaft such that the clutch element and the shaft rotate together. The drive system includes a brake unit configured to transmit a retaining force onto the second clutch element and configured such that applying a drive moment to the first clutch element reduces the retaining force and allow the telescopic elements to move relative to each other. The brake unit is further configured such that applying an output-side torque to the second clutch element increases the retaining force acting on the second clutch element.

A descender device for manually raising and lowering an object or person on a rope has a housing (which has opposing first and second ends and opposing side walls), an attachment means (provided at the first end of the housing and configured for attachment to an anchor point or to the object or person to be raised or lowered), rope entry and exit ports (at the second end of the housing), a drive pulley (around which the rope may be engaged), a centrifugal brake (configured to limit the speed of rotation of the drive pulley), a gear assembly, a wheel (arranged to be gripped by a user of the device), and a rope retaining means provided on an outside of the housing. The wheel is connected to the gear assembly. The rope retaining means comprises a projection and at least one groove.

A descender device for manually raising and lowering an object or person on a rope has a housing (which has opposing first and second ends and opposing side walls), an attachment means (provided at the first end of the housing and configured for attachment to an anchor point or to the object or person to be raised or lowered), rope entry and exit ports (at the second end of the housing), a drive pulley (around which the rope may be engaged), a centrifugal brake (configured to limit the speed of rotation of the drive pulley), a gear assembly, a wheel (arranged to be gripped by a user of the device), and a rope retaining means provided on an outside of the housing. The wheel is connected to the gear assembly. The rope retaining means comprises a projection and at least one groove.