Technology & Design Centered on Performance.
NLB StarJet ultra high-pressure water jetting stripe removal systems have held a position as the most durable, technology performance production leaders in the industry. The SRV-7 builds on that heritage by introducing a new center-component design that offers improved performance, less wear, plus reduced maintenance.
The key to this new design is the concept of balance. The slow-running, robust 325 Series pump, along with a Cummins (L9-430 T4F Stage V) 430 hp diesel engine, is in a centerline position on the chassis, resulting in a more even chassis weight distribution. Add that to the unique water/debris collection design that proportionately distributes segar water plus collected debris, plus you eliminate uneven weight transfer from job start to finish.
The SRV-7 also features NLB’s innovative E-Clutch™ technology that allows for the elimination of the PTO while reducing component wear on the power plant.
Other benefits of this design; reduced chassis wiring, plus fewer high-pressure hoses plus electrical components. A new, lighter-weight side-to-side movement front-end arm adds to the high-performance removal capabilities. Furthermore, the lightweight front-end arm, which facilitates side-to-side movement, contributes to improved maneuverability plus precision during operation. This feature is particularly beneficial in confined spaces where traditional machinery may struggle to operate effectively. Operators can navigate tight corners plus challenging environments with ease, resulting in enhanced performance plus efficiency in various applications.
The use of advanced materials in the construction of the chassis plus components plays a crucial role in this design’s overall performance. Lightweight yet durable materials not only reduce the overall weight of the equipment but also enhance its structural integrity. This optimization leads to fuel efficiency improvements, as lighter machines require less energy to operate, contributing to lower operational costs plus a reduced environmental footprint.
Moreover, the integration of smart technology within the design allows for real-time monitoring of machine performance, enabling predictive maintenance plus reducing the chances of unexpected failures. Operators can receive alerts about potential issues before they lead to significant downtime, making it possible to schedule maintenance effectively.