A connector for use with a fall protection system includes a body, a gate, and a double action locking mechanism. The body includes a spine and two arms extending from the spine to form a gate opening, the arms defining axially aligned first and second apertures respectively. The gate is adapted and configured to move axially through the first and second apertures. In an open position, the gate extends through the first aperture, but a forward end of the gate is spaced rearwardly of the second aperture. In a closed position, the gate extends through the first aperture and the second aperture. The double action locking mechanism is adapted and configured to require application of two distinct and different forces to unlock the locking mechanism and permit the gate to move to the open position.

A backpack body has an openable accommodation chamber having a top opening. The accommodation chamber utilizes a restricting structure to position an energy absorption band. The energy absorption band includes a first layer and a second layer that are coincidingly bound. The top ends of the first and second layers extend first and second connecting portions respectively. The first and second connecting portions divergently protrude from the backpack body via the opening. The first connecting portion is configured for coupling with a safety harness, while the second connecting portion is for coupling with an anti-falling device. When the user falls, the falling makes the restricting structure release the first and second layers, so that the first and second layers leave the accommodation chamber via the opening for anti-falling suspension. Accordingly, the present invention has real improvements, including fine appearance, economic efficiency, and etc.

A fall protection system includes a base assembly, a mast assembly, and a locking assembly adapted to lock the mast assembly with the base assembly. The locking assembly includes a first plate and a second plate. The locking assembly also includes a fixed member fixedly coupled to the second plate. The locking assembly further includes a locking pin including an elongate portion at least partially received within the fixed member and a first tab, the locking pin being movable relative to the fixed member between an engaged position and a disengaged position. In the engaged position, the first tab is at least partially received within a first groove such that the locking pin is engaged with the first plate. Further, in the disengaged position, the first tab is at least partially received within a second groove such that the locking pin is spaced apart from the first plate.

A fall protection system includes a base plate defining a first side and a second side defined opposite to the first side. The fall protection system also includes a mast assembly connected to the base plate proximate to the first side of the base plate. The fall protection system further includes a jib inclined with respect to the mast assembly and pivotably connected to the mast assembly. The fall protection system includes a counterweight connectable to the base plate proximate to the second side of the base plate.

A safety interlock system includes a safety harness comprising a plurality of buckles to secure the harness to a user and a safety attachment ring. A fall-arrest belt clip is configured to be releasably attached to the safety attachment ring, the fall-arrest belt clip attached to a fall-arrest tether of a machine. The system further includes a safety interlock means for disabling an operation of the machine when the fall-arrest clip is detached from the safety attachment ring, the machine coupled to the fall-arrest tether.

A load bar having a straight pipe body disposed between two opposite end sections, wherein the pipe body has a radial cross section; and two end loops, each end loop having a radial cross section and being disposed on a different end section of the load bar, wherein the radial cross sections of the two end loops are parallel with each other and perpendicular to the radial cross section of the pipe body. The load bar may be implemented within the harness adapter connector portion of a harness adapter system in order to prevent the compressive force from an attached load from being exerted on a secured lineman. Utilization of this load bar may increase the safe load limit while securing a lineman from 500 lbs. to 2000 lbs., effectively broadening the application for the harness adapter system. The load bar may also be used with lighter loads to prevent lineman discomfort.

A non-motorized fall-protection apparatus, comprises a drum, and a rotationally-activated braking device that comprises at least one pawl and at least one ratchet with at least one tooth that is engagable by an engaging end of the at least one pawl, wherein the rotationally-activated braking device comprises a limited-use, constant-contact friction brake comprising at least one layer of friction material with a friction-braking surface and at least one rotatable member with a contact surface that is in contact with the friction-braking surface of the layer of friction material.

A safety climb attenuation apparatus provides a more robust and visually inspectable apparatus for climbing safety. In an upper bracket, a pivot arm is attached to a base that is disposed upon a structure. The upper bracket includes an attenuation member such as an elastic bushing, mounted on the pivot arm or the base, that resists pivoting of the pivot arm relative to the base when a safety cable attached to the pivot arm causes the pivot arm to pivot. In a lower bracket, a similar attenuation member is attached to a base disposed on the structure, with an anchor bolt connecting the cable to the attenuation member so that the attenuation member resists upward movement of the cable.

The invention relates to a brake plate for a rope grab for rope climbing, comprising: a first section for supporting a rope on the brake plate, said first section being a first arc of a first circle with a first radius, and a second section for supporting the rope on the brake plate, said second section being arranged adjacently to the first section, wherein the brake plate is characterized in that the second section is a second arc of a second circle with a second radius, and the second radius is larger than the first radius. The invention additionally relates to a rope grab for rope climbing, comprising the brake plate, and to a method for retrofitting a rope grab with the brake plate.

A lanyard assembly and apparatus incorporating a lanyard assembly are disclosed. The lanyard assembly includes an elongate lanyard that includes a chain of multiple interconnected links, including an end link that forms one end of the chain and a second link immediately adjacent in the chain to the end link. A terminator includes a terminator body having a lanyard recess, in a floor of which a chain recess is formed. At least the end link is received within which chain recess. A retainer passes through the end link to prevent its removal from the chain recess. A connector element can be connected to an object to effect connection of the lanyard assembly to that object. The connector element is typically connected to the terminator body though an intermediate component, such as a swivel.