ASSEMBLY

CONNECTING THE MOTOR

The connection of the hoses to the motor will determine the direction of rotation of the rotor shaft. As reverse rotation is standard on the machine, then the following instructions will apply to reverse rotation. For forward rotation the pipe connections on the motor are interchanged.

A.Locate the relief valve at the pump outlet.

B.Connect hose attached to port marked 'P' for pressure, to the bottom rear fitting on motor and tighten.

C.Connect hose attached to port marked 'T' for tank, to the top fitting on motor and tighten.

D.For forward rotation interchange these hoses.(Same as tractor tires)

NOTE: When fitting Cowl Bracket in different positions on the cowl rear beam it is important that the motor hose cannot be caught up between the Arm and rear of the Cowl. It may be necessary to reposi- tion the hose in hose clamps on the second arm.

MECHANICAL BREAKOUT

The RBF-12C is equiped with a mechanical breakout, which is fitted at the bottom of the kingpost attach- ment point in the mainframe. This will reduce the risk of damage if an obstruction is encountered during work. This breakout mechanism is pre-set at the factory and should not need any adjustment. If it is ever dismantled it is important that the disc springs are replaced in the correct sequence.

HOSE LAYOUT

It is important that hoses are fitted correctly. To ensure that there are no kinks, sharp bends and that the hoses do not chafe against sharp edges, the following layout should be used as a guide.

Twists

Hoses should never be twisted or kinked. On most hoses there is a line which runs the full length of the hose acting as a useful guide (see FIGURE 3-8). If there is no guideline running along the hose follow the fitting instructions below.

 

FIGURE 3-8

RBF-19C 07-04

Assembly Section 3-10

© 2004 Alamo Group Inc.

 

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Tiger RBF-19C manual Connecting the Motor, Mechanical Breakout, Hose Layout, Twists

RBF-19C specifications

The Tiger RBF-19C is a remarkable example of advanced unmanned aerial technology, designed primarily for reconnaissance and battlefield surveillance. This drone has garnered attention for its exceptional capabilities and cutting-edge features that make it a valuable asset for military and defense operations.

One of the standout characteristics of the RBF-19C is its high-altitude endurance. The drone is engineered to operate at significant elevations, which allows it to cover vast terrains while remaining undetected. With a maximum altitude capability of 20,000 feet, it can conduct prolonged missions, gathering intelligence over hostile areas without risking human pilots.

Under the hood, the Tiger RBF-19C incorporates advanced sensor technologies that enable it to deliver real-time data. Equipped with high-definition cameras, multispectral sensors, and infrared technology, it can capture detailed images and videos even in adverse weather conditions and low-light environments. This capability significantly enhances situational awareness for ground forces, making decision-making faster and more efficient.

Another notable feature of the RBF-19C is its extended operational range. The drone can maintain a communication link over distances exceeding 200 kilometers, enabling it to operate far beyond the frontline. This extended range allows for strategic reconnaissance missions, providing vital intelligence without exposing personnel to danger.

In terms of maneuverability, the Tiger RBF-19C is designed for versatility. It features a robust flight control system that allows for nimble navigation in complex environments. The drone can perform various flight patterns, including loitering and waypoint navigation, which is particularly useful for surveillance missions where constant observation of a target is crucial.

Moreover, the RBF-19C is built with a modular design, allowing for quick modifications and upgrades to suit different mission requirements. This adaptability ensures that it can be easily retrofitted with new technology or payloads, keeping it relevant amidst rapidly evolving warfare tactics.

Lastly, the RBF-19C is renowned for its stealth capabilities. Designed with a low radar cross-section and noise-reduction technologies, it minimizes its visibility to enemy radar systems, enabling covert operations. This attribute is essential for missions that require undetected data gathering.

In conclusion, the Tiger RBF-19C represents a significant advancement in drone technology, combining endurance, advanced sensors, extended range, and stealth. Its sophisticated design and operational capabilities make it an invaluable tool for modern military forces, enhancing their ability to carry out reconnaissance and maintain situational awareness on the battlefield.