ASSEMBLY INSTRUCTIONS/OPERATIONS

PROPER QUANTITY OF PERSONNEL IN PROPER PHYSICAL CONDITION.

The integral lifting bail device(s) can be used to facilitate lifting by a mechanical device incorporating a chain and suitable attachment device. The location of the lifting bail(s) may not always locate the exact position of the center of gravity for the Crack Saw.

Typical Hoisting Configuration

FIGURE 7 depicts a typical hoisting configuration for a Crack Saw with a mechanical lifting device.

FIGURE 10

DANGER

EXERCISE EXTREME CAUTION WHEN UTILIZING A MECHANICAL DEVICE FOR LIFTING THE CRACK SAW. UTILIZE THE MECHANICAL DEVICE IN ACCORDANCE TO BOTH ITS STATED STATIC AND DYNAMIC LOADING ENVELOPES. DO NOT UTILIZE THE

MECHANICAL DEVICE UNTIL THIS INFORMATION IS PROPERLY KNOWN AND UNDERSTOOD BY ALL APPLICABLE PERSONNEL. FAILURE TO PROPERLY UTILIZE THE MECHANICAL DEVICE CAN RESULT IN PROPERTY DAMAGE AND/OR PERSONAL INJURY.

8)Once on the job site, the Crack Saw can be lowered to the work surface by reversing the above steps.

General Transportation Information.

When transporting the Crack Saw on a motor vehicle, the fuel tank breather vent (if so equipped) must be completely closed to eliminate the accidental seepage of fuel and resulting potential fire and environmental hazards. To minimize the possibility of damage to the Crack Saw, always transport in its normal, upright position. All equipment must be secured in/on vehicles with suitable strapping or tie-downs. Personnel should not be transported in the same compartment as equipment and fuel supplies. Consult applicable

OSHA, AGA, CGA, etc. regulations for the proper transportation of flammable gases.

STARTING THE RCC130H SERIES GASOLINE POWERED CRACK SAW ON THE JOB SITE.

1)Position the Crack Saw on a flat and level surface of firm foundation.

2)Rotate the height adjustment lever counterclockwise to raise the blade to its maximum position above the work surface. FIGURE 15.

FIGURE 15

3)Position the quick-change height lever over center to its rear most (up) position. FIGURE 16.

FIGURE 16

DANGER

IMPROPER BLADE POSITION DURING THE STARTING PROCEDURE CAN ALLOW THE BLADE TO CONTACT THE WORK SURFACE BEFORE THE OPERATOR CAN ASSUME A PROPER OPERATING POSITION. THIS OCCURRENCE CAN RESULT IN IMPROPER DAMAGE AND/OR PERSONAL INJURY.

RCC130H-CRACK SAW

OPERATION AND PARTS MANUAL REV #1 (11/18/04)

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Stow RCC130H manual Proper Quantity of Personnel in Proper Physical Condition, Typical Hoisting Configuration

RCC130H specifications

The Stow RCC130H is an advanced compact ride-on compactor designed for efficient and powerful performance in various construction and road maintenance projects. Known for its reliability and versatility, the RCC130H is a popular choice among contractors and operators seeking optimal results in soil and asphalt compaction.

One of the key features of the RCC130H is its robust engine. Equipped with a high-performance diesel engine, the compactor provides excellent power and torque, enabling effective operation even in challenging terrains. The engine is designed for fuel efficiency, ensuring lower operational costs while delivering superior compaction force. The machine's hydraulic system is equally impressive, allowing smooth operation of the vibratory system that enhances productivity by increasing compaction density in less time.

User comfort is another priority in the design of the RCC130H. It features an ergonomic control layout that allows operators to easily reach all necessary functions, reducing fatigue during long hours of operation. The operator's platform is spacious and designed with optimal visibility in mind, enhancing safety and control when navigating through job sites.

The RCC130H showcases advanced compaction technologies, including dual amplitude settings. This feature lets operators choose between different settings depending on the material being compacted—whether it’s granular soils, cohesive materials, or asphalt. The machine’s heavy-duty drum is specially designed to maximize contact with the surface, ensuring uniform compaction results.

Durability is also a hallmark of the Stow RCC130H. Constructed with high-quality materials and components, the machine is built to withstand the rigors of demanding work environments. Its frame design offers stability and reduces the impact of vibrations on the operator, which enhances long-term comfort and control.

Maintenance is made simple with the RCC130H, featuring easy access points for routine checks and servicing. The design minimizes downtime, ensuring that the machine stays operational and productive on the job.

In summary, the Stow RCC130H is a feature-rich compact ride-on compactor designed for maximum efficiency and performance. With its powerful engine, ergonomic design, advanced compaction technology, and durable construction, the RCC130H is an excellent investment for those looking to enhance their compaction operations on various job sites.