Rover Chip N Shred Safety Instructions and Specifications

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Rover Mowers Limited

Chip ‘N’ ShredTM

SAFETY INSTRUCTIONS

General Electrical Safety Rules

1.Avoid dangerous environments such as damp locations.

2.Do not abuse the power cord. Never pull a machine by the cord or pull the cord to disconnect it from the outlet socket. Keep the cord away from excessive heat, oil, and sharp edges.

3.Disconnect the machine when not in use, before servicing and when changing attachments.

4.Avoid accidental starting. Be sure to switch off before plugging the cord into a power outlet.

5.To prevent electrical shock, use the machine only with an extension cord suitable for outdoor use as recommended by the extension cord manufacturer; the use of suitable extension cords is extremely important for the operator’s personal safety.

6.Never use an indoor type of extension cord: these cords are designed for use with lamps and small appliances and are inadequate for high-powered machines.

7.Make sure the extension cord is in good condition. A cord with cracked or broken insulation is hazardous, particularly in the presence of moisture or combustible material. It is also important that the cord connectors be of rugged construction, in good condition, and securely attached to the outer jacket.

8.If the extension cord is damaged in any manner while operating the machine, immediately switch off the power supply and remove the extension cord from the power outlet.

9.If the supply cord is damaged it must be replaced by a CMG Service Agent or similarly qualified person in order to avoid a hazard.

Electrical Supply Capacity and Fuses

1.Use only an electric circuit having adequate capacity.

2.Blowing a fuse or tripping a circuit breaker is a warning that you are overloading your machine or have too many devices in use on that circuit, or both. Determine the cause and correct it. Do not install a higher capacity fuse.

1.SPECIFICATIONS

Rover Model No.

9885 (Electric)

9848 (Petrol)

9862 (Petrol)

 

98117 (Petrol)

 

Engine Model No.

A09189

93302

 

127432

 

G200F

 

Power Rating

2.2 kW

2.6 kW

 

4.1 kW

 

4.1 kW

 

 

 

 

 

 

 

 

 

Fuel Capacity

 

2.4 litres

 

4.5 litres

 

3.6 litres

 

Oil Capacity

 

600ml

 

600ml

 

600ml

 

Oil Grade

 

Refer engine manufacturer's

Refer engine manufacturer's

Refer engine manufacturer's

 

 

 

booklet

 

booklet

 

booklet

 

Voltage

230-240 volts

 

 

 

 

 

 

 

Current FL

9.8 amps

 

 

 

 

 

 

 

Frequency

50Hz

 

 

 

 

 

 

 

Phase

Single

 

 

 

 

 

 

 

No. Flails

12

12

 

12

 

12

 

 

No. Chipper Blades

1

1

 

1

 

1

 

 

Chipper Opening

71 x 71 mm

71 x 71 mm

71 x 71 mm

 

71 x 71 mm

 

Weight (kg)

56

51

 

56

 

56

 

 

 

 

 

 

 

 

2. SETTING UP

 

 

 

 

 

 

 

 

 

2.1 Loose Parts Kit

 

 

Nyloc nuts- 1/4” unc

4

 

 

Screws- 3/16” x 5/8” mush.head

4

 

 

 

Feed hopper half LH

 

1

Nyloc nuts- 3/16” unc

4

 

Washer- 3/16” x 1/2” x 20g.flat

4

Feed hopper half RH

 

1

 

Washer- 3/16” x 3/4” x 16g.flat

4

Hopper baffle

 

1

 

Nyloc nuts- 5/16” unc

7

Hopper handle

 

1

 

Setscrew- 5/16” x 1” unc. hex

7

Hopper washers

 

4

 

Washers- 5/16” x 5/8” x 18g. flat

7

Chipper tube assembly

 

1

Manual

 

1

When disassembling the timber packing, discard the four

Bar screen assembly

 

1

 

nuts and retain the bolts and washers for the handle as-

Screws- 10 x 3/4” pan p/head

12

sembly. The four nyloc nuts found in the loose parts list

Bolts- 1/4” x 1-1/2” unc. cuphead

4

are to be used on the handle bolts.

 

 

 

 

 

 

 

 

 

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Contents Chip ‘N’ ShredTM Hopper Assembly Clutch Lever Petrol Models Preface IllustrationsTraining Safety InstructionsMaintenance PreparationSetting UP General Electrical Safety RulesSpecifications Electrical Supply Capacity and FusesSetting UP Rotor disengagement Petrol Models FuelRotor engagement Petrol Models Operation Electric ModelsOperation Maintenance Composting Warranty Conditions Remember

98117, 9885, 9848, 9862 specifications

Rover 9862, 9885, 98117, and 9848 are part of a new generation of advanced robotic systems designed for various applications across multiple sectors, including aerospace, automotive, and healthcare. These models embody the latest innovations in robotic technology, showcasing a blend of robustness, precision, and versatility.

Rover 9862 is designed for reconnaissance and exploration tasks. It features a lightweight chassis made from durable composite materials, allowing it to traverse rough terrains with ease. The robotic system is equipped with high-resolution cameras and LIDAR technology, enabling it to map and survey its surroundings accurately. Its autonomy is enhanced by advanced AI algorithms that allow for obstacle detection and path planning, making it suitable for both remote and autonomous operations.

Model 9885 focuses on industrial applications, particularly in manufacturing and logistics. This rover incorporates collaborative technologies, allowing it to work alongside human operators seamlessly. The system is fitted with an array of sensors that ensure precise object handling and transportation. Its robust power management system uses lithium-ion batteries, providing extended operational time, while real-time data analytics help optimize processes and monitor performance.

Rover 98117 represents a leap forward in healthcare applications. Designed for patient monitoring and assistance, it features ergonomic design and user-friendly interfaces. Equipped with biometric sensors and machine learning capabilities, the rover can track vital signs and adapt to individual patient needs. Its mobility allows it to navigate hospital corridors autonomously, delivering medications or supplies and assisting healthcare professionals.

Lastly, Rover 9848 emphasizes connectivity and integration. This model is built on a modular design, allowing for easy upgrades and customization based on user requirements. It supports various communication protocols, enabling it to connect with other devices and systems in a smart ecosystem. The rover’s onboard processing unit utilizes edge computing technology, significantly reducing latency and enhancing real-time decision-making capabilities.

Together, these rovers represent a significant advancement in robotics, driving innovation across different fields with their unique features and capabilities. As technology continues to evolve, these models are set to play a crucial role in shaping the future of automated systems.