GS-4069 RT
The only 40-ft full drive height unit in its class, the Genie® GS™-4069 RT rough terrain scissor lift features four-wheel drive and positive traction control, offering up to 40% gradeability when driving on slo...
The Genie® GS™-4390 RT rough terrain scissor lift features four-wheel drive and positive traction control — giving it up to 50% gradeability when driving on slopes. This tough, construction-oriented machine is built to tackle the most rigorous jobsite conditions.
Overview
Specification | Value |
---|---|
Max Working Height | 49 ft | 14.75 m |
Capacity | 1,500 lb | 680 kg |
Machine Width | 7 ft 8 in | 2.36 m |
Machine Length | 12 ft 11.25 in | 3.94 m |
Weight | 12,894 lb | 5,849 kg |
Chassis Options
Chassis - Tire Options
Engine Options
Platform Options
The only 40-ft full drive height unit in its class, the Genie® GS™-4069 RT rough terrain scissor lift features four-wheel drive and positive traction control, offering up to 40% gradeability when driving on slo...
A tough, construction-oriented four-wheel drive machine with positive traction control, the Genie® GS™-5390 RT rough terrain scissor lift is ideal for increasing productivity in demanding outdoor worksites.
ANSI (United States) and CSA (Canada) standards have, for almost four decades, provided best practices for safe, reliable access to work at height and have delivered a consistent benchmark for safe machine design in North America.
The new standards are based on an ISO model, so they are very similar to the current European EN280 standard. As a global manufacturer, Genie can leverage our experiences in Europe to help with the transition, but we have to remember that North American aerial operators are very different.
With Tier 4 emissions standards compliance underway, we now need to turn our attention to the next “big thing” to impact the aerial rental market — pending changes to the ANSI A92/CSA B354 standards series* (which cover all North American aerials).
With the pending changes to ANSI 92* and CSA B354 standards, there is a need for education in the aerial market about the implications of the new standards, as well as how they will work with current industry regulations.
ANSI A92 and CSA B354 standards are about to get a facelift. Pending standards changes, which are estimated to go into effect this year, are written to be more in line with the ISO model so standards will be in global alignment for trade and exporting.
The current ANSI and CSA standards for safe use and training have not been updated for many years (the current ANSI boom, scissor lift and manually propelled standards were last updated in 2006, and CSA standards go back even further).
With so much changing in the updated ANSI/CSA standards, it is important to call attention to one key item that every user (identified in the standards as employers) needs to be aware of.
With the pending changes to the ANSI A92 and CSA B354 estimated to go into effect in 2018, it is important for you to start preparing your business and your customers now for what will be different.
In addition to the terminology and language changes in the new ANSI A92 and CSA B354 standards, which are projected to go into effect later in 2018, the standards also include several big changes to the equipment itself.
Changes to ANSI A92 and CSA B354 standards are coming; we expect to the standards to go into effect in 2018. One of the more significant equipment changes coming from the updated standards will be the addition of platform load sense.
Changes to North American standards (ANSI A92 in the United States and CSA B354 in Canada) are expected to come in 2018 and will create a new “normal” for mobile elevated work platforms (MEWPs), formerly known as aerial work platforms (AWPs), worldwide.
The upcoming implementation of the new ANSI A92.22 Safe Use and A92.24 Training Standards for Mobile Elevating Work Platforms (MEWPs) in the United States is creating quite a bit of confusion in the industry.