Classifications of Scissor Lifts & Aerial Lift Platforms
Aerial platforms and scissor lifts allow employees to work on elevated structures as they can get to many things and structures. These lifts offer friendly user controls which enable to independently operate the platform from the base. This enables the equipment to get around things. There are numerous lift designs available which are suitable for particular applications and environments.
Scissor Lift
Utilizing a series of crisscrossed linked steel arms, the scissor lift is designed to make an X patterned support system when the lift is raised vertically. Workers use a large rectangle platform which is connected to the top of the lifting mechanism. There are support railings along the edges to provide added protection.
The scissor lift features a low profile which is great for hard and compact dirt surfaces, concrete and pavement. These machines use either a combustion engine or an electric motor to power the lifting device and the lift.
Rough Terrain Scissor Lift
The rough terrain scissor lift uses the same lifting technology as the standard scissor lift model. The rough terrain unit varies in that it features a specific base that is designed for uneven surfaces. The rough terrain also offers a higher ground clearance and all terrain oversized tires. These models offer lower lifting heights overall due to the higher center of gravity of the machine.
Telescopic Boom Lift
The telescopic boom lift offers a telescoping beam that rises both vertically and diagonally. This equipment provides a small work platform equipped with controls to operate the boom. The controls make use of an IC or a combustion engine in order to power the hydraulics and lift the boom.
Articulating Boom Lift
Articulating booms have two telescopic booms connected together with a moving elbow. This lifting machinery offers a bucket or a small working platform outfitted with hand controls which are utilized to control the boom. The articulating lift can reach on top buildings and over things.