Four models in Sinoboom’s range of electric and diesel rough-terrain scissor lifts have received a variety of technical upgrades, which are designed to enhance off-road performance, operating experience,and reliability. They are 1323RD, 1323RE, 1623RD, and 1623RE (also known as the 4389RD, 4389RE, 5389RD and 5389RE).
Several key aspects of the machines have been adjusted. The speed ratio has been increased, with a 20% improvement in walking and climbing torque. The wheelbase has been enlarged, and the tyres have a greater depth of tread and spacing for better grip. Finally, the machines’ overall weight has been optimised, helping to reduce the tyre ground pressure. Single tyre ground pressure is reduced by 10%.
The extension platform has been upgraded to help improve the operating experience, with the bearing mechanism optimised for a smoother retraction and the ability to be locked in any position. There is also an optional 7.4m-long platform, which provides a larger working space for greater working efficiency.
A range of features has been introduced to boost product reliability. A small door has been added to the ground operation window, providing enhanced water- and dustproofing for electrical components. A fuel level detection function has been introduced. The ground control panel has been upgraded to an electric control box, and an optimised wiring harness and simplified components allow for more stable signal transmission. After the product upgrade, the weight is reduced and the energy consumption of the lifting and lowering cycle is reduced by 33%.
“The advantages introduced to this new generation of rough-terrain scissor lifts are designed to meet real-world needs," said Sinoboom Product Manager Jane He. "We listen carefully to the feedback from our partners and customers on their experiences of owning and operating Sinoboom machines, and the features they would like to see. We integrate this information into our R&D process to ensure that Sinoboom equipment continues to support safe and reliable work at height.”