There is provided a method of installing spiral hangers about a messenger line installed between first and second utility poles with a cable being lashed to the messenger line with a lashing wire. The method includes attaching a first and second spiral hangers to the messenger line between first and second utility poles with the first spiral hanger disposed about the messenger line and the cable. The method includes removing the lashing wire from being around the messenger line and the cable adjacent the second spiral hanger. The method includes moving the second spiral hanger towards the second utility pole. The method includes attaching a successive spiral hanger to the messenger line between the spiral hangers and repeating the moving of the second spiral hanger and attaching another successive spiral hanger.

Described herein is a storage system for installation onto a surface, such as a horizontal or vertical wall, such as an interior garage ceiling, floor, or wall. The system can be used to move, lift, and/or store articles, such as bicycles, skis, storage containers, and the like. The system generally comprises a track defining a longitudinally extending path and a trolley assembly coupled to the track. The trolley assembly generally comprises a trolley body, a pair of opposing sidewalls extending from the trolley body, and a roller assembly positioned between the pair of opposing sidewalls. The trolley assembly may further comprise a carrier attachment to secure an article thereto. A drive member and drive unit can be used for effecting movement so as to shift the trolley assembly from one position to another. The system generally comprises simple and easy-to-install components, thereby providing advantages over prior storage systems.

Methods and apparatus for constructing or reconstructing refractory structures, e.g., glass furnace regenerator structures and/or glass furnace structures having walls formed of refractory block and buck stays externally supporting the walls are provided. A header support beam assembly is provided so as to extend at an angle between respective pairs of side wall buckstays. A moveable hoist moveable hoist supporting assembly supported by the header support beam assembly and moveable between the opposed pairs of side and end walls. In such a manner, refractory components, e.g., refractory wall blocks and/or checker bricks, may be hoisted into position when constructing or reconstructing the refractory structure.

Methods and apparatus for constructing or reconstructing refractory structures, e.g., glass furnace regenerator structures and/or glass furnace structures having walls formed of refractory block and buck stays externally supporting the walls are provided. A header support beam assembly is provided so as to extend at an angle between respective pairs of side wall buckstays. A moveable hoist moveable hoist supporting assembly supported by the header support beam assembly and moveable between the opposed pairs of side and end walls. In such a manner, refractory components, e.g., refractory wall blocks and/or checker bricks, may be hoisted into position when constructing or reconstructing the refractory structure.

A structural support that can be used as a truss girder bridge crane, or the like. The support includes one or more rows 13 of segments 15, that are arranged in side by side relation along the length of the support. Each row 13 has extending there through at least one tensioning element 14 which is anchored at opposite ends of the row and is pretensioned with respect to the row in order to hold the segments of the row together. A support preferably includes one row 13 of segments 15 in a lower chord 11 of the support and another row 13 of segments in an upper chord of the support. Vertical framework is mounted between the chords with ends secured adjacent the segments 15 by the tensioning element. The individual segments and the tensioning elements may be directed to a construction site at the location of use and assembled into rows and the appropriate structural construction.

An underwater towing test device including a driving mechanism, an observation platform disposed under the driving mechanism, a towing member, and a towed body. The driving mechanism includes an operation platform, an extended platform connected to the operation platform, a crane, a first railing, a lifebuoy, a control center, a power distribution room, and a plurality of bus ports. The operation platform includes two rail grooves disposed in parallel and a moon pool provided with two pool slots on both ends thereof. The crane includes a chassis provided with a plurality of first guide rollers. The first railing is positioned along the edge of the operation platform and the extended platform, with the lifebuoy hanging thereon. The control center, the power distribution room, the plurality of bus ports, and the moon pool are fixedly disposed on the operation platform.

An underwater towing test device including a driving mechanism, an observation platform disposed under the driving mechanism, a towing member, and a towed body. The driving mechanism includes an operation platform, an extended platform connected to the operation platform, a crane, a first railing, a lifebuoy, a control center, a power distribution room, and a plurality of bus ports. The operation platform includes two rail grooves disposed in parallel and a moon pool provided with two pool slots on both ends thereof. The crane includes a chassis provided with a plurality of first guide rollers. The first railing is positioned along the edge of the operation platform and the extended platform, with the lifebuoy hanging thereon. The control center, the power distribution room, the plurality of bus ports, and the moon pool are fixedly disposed on the operation platform.

The invention relates to a handling device (1) comprising a drive carriage (2) that can be moved in relation to a beam (3), a scissor lift (7) comprising a plurality of scissor lift members (8) being arranged on the drive carriage (2) with the first end thereof, and a beam plate (11) that can move in relation to the drive carriage (2) by means of the scissor lift (7) being arranged on the second end of the scissor lift (7). A grip tool is arranged on the beam plate (11), and a drive (18) for actuating the scissor lift (7) is arranged on the drive carriage (2). The beam (3) has an H-shaped cross-section formed from a middle limb (25) and upper and lower limbs (26, 27) projecting from said middle limb.

The invention relates to a handling device (1) comprising a drive carriage (2) that can be moved in relation to a beam (3), a scissor lift (7) comprising a plurality of scissor lift members (8) being arranged on the drive carriage (2) with the first end thereof, and a beam plate (11) that can move in relation to the drive carriage (2) by means of the scissor lift (7) being arranged on the second end of the scissor lift (7). A grip tool is arranged on the beam plate (11), and a drive (18) for actuating the scissor lift (7) is arranged on the drive carriage (2). The beam (3) has an H-shaped cross-section formed from a middle limb (25) and upper and lower limbs (26, 27) projecting from said middle limb.

The invention relates to a handling device (1), having a drive carriage (2) that is movable relative to a carrier (3), wherein a scissor lift (7) having a plurality of scissor-lift members (8) is arranged with its first end on the drive carriage (2), wherein a carrier plate (11) that is movable relative to the drive carriage (2) by means of the scissor lift (7) is arranged at the second end of the scissor lift (7), wherein: a gripping tool is arranged on the carrier plate (11), the scissor-lift members (8) are hollow throughout and are sealingly interconnected in order to actuate the gripping tool by means of a gaseous medium.