Classifications of Aerial Lift Platforms & Scissor Lifts
Scissor lifts and aerial platforms allow employees to work on high structures because they could reach lots of objects and structures. These lifts provide friendly user controls which enable to independently operate the platform from the base. This allows the machinery to get around objects. There are numerous lift designs available which are suitable for specific applications and settings.
Scissor Lift
The scissor lift utilizes a series of crisscrossed linked steel arms. These arms are designed to make an X patterned support system when the lift is raised vertically. Workers utilize a big rectangle platform which is attached to the top of the lifting mechanism. There are support railings along the edges to provide added protection.
Scissor lifts are great for pavement, hard and compact dirt surfaces and concrete since they feature a low profile. These machines make use of either a combustion engine or an electric motor to power the lift and the lifting device.
Rough Terrain Scissor Lift
Rough terrain scissor lifts make use of the same technology as the standard kind of scissor lift. The rough terrain unit differs in that it features a specialized base which is designed for uneven surfaces. The rough terrain also offers a higher ground clearance and oversized all terrain tires. These units offer lower lifting heights overall because of the machine's higher center of gravity.
Telescopic Boom Lift
The telescopic boom lift provides a beam which rises both vertically and diagonally. To operate the boom, the equipment has controls outfitted on the work platform. 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 attached together with a moving elbow. This lifting machine provides a bucket or a small working platform equipped with hand controls that are utilized to control the boom. The articulating lift could reach on top buildings and over objects.