Rover 53179 warranty Loose Parts KIT, Setting UP Instructions, Installing Steering Wheel

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LOOSE PARTS KIT

DESCRIPTION

QTY

USE

 

 

 

Steering wheel

1

On steering shaft

Roll Pin

1

Secure steering wheel to shaft

Stone guard assembly

1

Fitted to cutterhead

Spring stone guard

1

On stone guard pivot rod

“E” Clip

1

In groove in pivot rod

Ignition keys

2

To start machine

Plug spanner

1

Plug removal and fitting

Pop Rivets

2

Seat safety switch

 

 

 

SETTING UP INSTRUCTIONS

Fig. 2

Fig. 4

INSTALLING STEERING WHEEL

1.Slip the steering wheel over the steering shaft and align the wheel hole with the shaft hole.

2.Insert a drift punch – partially through the holes to maintain alignment and insert the roll pin in the opposite side. Fig. 2

3.Drive the roll pin in until flush with the outside of the wheel.

INSTALLING STONE GUARD

1.Slip the spring into the stone guard pivot rod so that the short leg rests on top of the stone guard.

2.Now twist the spring as shown and feed the end of the pivot rod into the forward pivot bracket. Fig 3.

3.Insert the short end of the pivot rod fully into the rearward pivot bracket.

4.Release the spring. It should spring down onto the top of the cutterhead and be tensioning the stone guard down.

5.Secure by clipping the “E” Clip into the groove on the pivot rod. Fig. 4.

Fig. 3

3

Image 4
Contents Rangertm Safety Features Specifications Setting UP Instructions Installing Steering WheelInstalling Stone Guard Loose Parts KITInstalling the Battery Before OperatingFill Crank Case with OIL Fill Fuel TankControls Operating Instructions Page Maintenance Brake Caliper Adjustment Brake ARM AdjustmentCutting Unit Cutterhead RemovalCutterhead Brake Adjustment Cutter Drive AdjustmentSteering Gears Drive Chain Adjustment AUTO-DRIVEDrive Selector Pedal Auto Belt TensionerHeight of CUT Adjustment Safety Interlock SystemTo FIT NEW Belt Steering RodsStorage Safety Switch AdjustmentsRemoval from Storage Page Trouble Shooting Problem Possible Causes Corrective ActionSafety and Instruction Decals Circuit Diagram and Spares Safety Instructions Damaged Blades and Worn Bolts are Major HazardsWarranty Conditions Australia & NEW Zealand only

53179 specifications

Rover 53179 is an innovative rover designed for exploratory missions on distant planets, particularly in the challenging environments of Mars and the Moon. This advanced robotic vehicle showcases a variety of features, technologies, and characteristics that enable it to efficiently navigate and gather valuable data from extraterrestrial terrains.

One of the standout features of Rover 53179 is its robust mobility system. Equipped with six articulated wheels, the rover is designed to traverse a variety of surfaces, including rocky landscapes, sandy dunes, and steep inclines. The wheels are made of a lightweight yet durable composite material that provides both traction and flexibility, allowing the rover to maintain stability across uneven terrain.

The rover's power system is another key aspect of its design. It utilizes a combination of solar panels and advanced battery technology to ensure a continuous energy supply during day and night cycles. The solar panels are strategically placed to maximize sunlight absorption, while the batteries are optimized for quick charging and exceptional longevity, enabling prolonged operational periods during missions.

Rover 53179 is outfitted with an array of scientific instruments that facilitate data collection and analysis. This includes a high-resolution camera system capable of capturing 3D images and video, a spectrometer for analyzing soil and rock composition, and environmental sensors designed to monitor temperature, humidity, and atmospheric pressure. These instruments work in concert to provide crucial information that enhances our understanding of celestial bodies.

In terms of communication, the rover is equipped with a state-of-the-art communication system that allows for real-time data transmission back to mission control on Earth. It leverages both radio frequency and laser techniques to ensure reliable connectivity over vast distances, even in challenging environments.

Moreover, Rover 53179 incorporates advanced artificial intelligence algorithms to support autonomous navigation. This technology enables the rover to make independent decisions based on real-time data, thus optimizing its path and ensuring efficient exploration without constant oversight from Earth.

Rover 53179 exemplifies the pinnacle of modern robotics and space exploration technology. Its combination of robust mobility, advanced scientific capabilities, reliable power systems, and autonomous navigation positions it as a vital tool for uncovering the mysteries of our solar system. As we continue to explore the cosmos, rovers like 53179 will play an essential role in paving the way for future discoveries.