China Good quality CZPT Road Roller Wheel Gear 2024034 cycle gear

Product Description

Hamm WHEEL GEAR – 2571034

We sell and supply spare part CHINAMFG 2571034 WHEEL GEAR

Bonfiglioli  Bonfiglioli speed reducer   715C3B 716C3B 717C3B 718C3B  713C3B CHINAMFG Planetary Gear  710C3 709C3 travel final drive without hydraulic motor for CHINAMFG 3520. Part nr.: 0125562 CHINAMFG nr.: R916561643
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CMV,SOILMEC,NSR  piling rig spare parts GEARBOX MOTOR

Soilmec, Bauer, Casagrande, Tescar, Mait winch gearbox Drilling Rig Machine CHINAMFG Sr280 Sr250c Sr2 14608847 TRAVEL REDUCTION GEAR BOX 
For CHINAMFG Final Drive

For CHINAMFG Travel Device

For CHINAMFG Traveling Motor

For CHINAMFG Traveling Reduction Gear

For CHINAMFG Swing Device

For CHINAMFG Swing Motor

For CHINAMFG Swing Reduction Gear

For CHINAMFG Main Pump & Pump Parts

For CHINAMFG Axle & Transmission Parts

For CHINAMFG Main Control Valve

For CHINAMFG Joystick and Pedal Valve

For CHINAMFG Center Joint
 

Hamm WHEEL GEAR – 2571034

For CHINAMFG Cylinder
Bonfiglioli  winch reducer 716  718  717C3H10A131J9H-145U26

Two light-duty tandem vibratory rollers 
Dual Drum Vibratory Roller 

 

Type XD111 XD121 XD131
Working mass(kg) 11230 12300 13080
Mass distributed on front drum(kg) 5670 6210 6540
Mass distributed on rear drum(kg) 5560 6090 6540
Static linear load on front drum(N/cm) 292 286 301
Static linear load on rear drum(N/cm) 287 280 301
Speed range(km/h) 0-10 0-10 0-10
Theoretical gradeability(%) 30 30 30
Min. inner/outer turning radius(mm) 4000/5900 3870/6000 3870/6000
Crab-walking distance (mm) 200 200 200
Min. ground clearance(mm) 420 420 420
Wheel base (mm) 4000 4000 4000
Steering angle(±) 46 46 46
Swinging angle(±) 12 12 12
Vibrating frequency(HZ) 30-48 30-45 30-45
Nominal amplitude(mm) 0.41/0.8 0.41/0.8 0.4/0.72
Centrifugal force(kn) 66/133 70/140 82/150
Model and manufacturer COMMINS 483.9
Rated rotating speed(t/min) 2200 2200 2200
Rated Power(KW)93 93 93 93
Rated oil wear (g. kw/h)229 229 229 229
Water tank capacity(L) 2*450 2*450 2*450
Fuel tank capacity(L) 200 220 220

  

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Product Groups
Wheel Loader
Truck Crane
Excavator
Bulldozer
Motor Grader
Road Roller
Backhoe Loader
Heavy Truck
Crawler Crane
Tower crane
 

Application: Motor
Function: Distribution Power
Layout: Three-Ring
Hardness: Hardened Tooth Surface
Installation: Torque Arm Type
Step: Three-Step
Customization:
Available

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Customized Request

epicylic gear

How do you calculate the gear ratio involving sun, planet, and ring gears?

The gear ratio in a planetary gear system can be calculated by considering the number of teeth on the sun gear, planet gears, and ring gear. The gear ratio determines the relationship between the input speed and the output speed of the system. Here’s how you can calculate the gear ratio:

  • Step 1: Count the Teeth:

Count the number of teeth on the sun gear (S), the planet gears (P), and the ring gear (R). These numbers represent the respective gear’s tooth count.

  • Step 2: Determine the Gear Arrangement:

Identify the gear arrangement. In a simple planetary gear system, the sun gear is at the center, surrounded by planet gears, and enclosed by the ring gear.

  • Step 3: Calculate the Gear Ratio:

The gear ratio (GR) can be determined using the formula:

GR = (R + P) / S

Where:

  • R represents the number of teeth on the ring gear
  • P represents the number of teeth on the planet gears (assuming they have the same number of teeth)
  • S represents the number of teeth on the sun gear

The resulting gear ratio represents the speed relationship between the input and output of the planetary gear system. A gear ratio greater than 1 indicates a speed reduction, while a gear ratio less than 1 indicates a speed increase.

It’s important to note that in more complex planetary gear systems, where there are multiple sets of planet gears or additional gears, the calculation of the gear ratio may involve considering multiple gear stages and their respective tooth counts.

In summary, to calculate the gear ratio involving sun, planet, and ring gears, you need to count the teeth on each gear and use the formula (R + P) / S, where R is the number of teeth on the ring gear, P is the number of teeth on the planet gears, and S is the number of teeth on the sun gear. This calculation provides the gear ratio that defines the speed relationship between the input and output of the planetary gear system.

epicylic gear

Can planetary gears be used in robotics and automation?

Planetary gears are commonly used in robotics and automation due to their numerous advantages and suitability for various applications. Let’s explore how planetary gears are utilized in robotics and automation:

  • Compact Size and High Power Density:

Planetary gears offer a high power density, meaning they can transmit significant torque in a compact size. This characteristic is particularly valuable in robotics and automation systems, where space is often limited. The compactness of planetary gears allows for efficient integration into robotic joints, gearboxes, and other motion control components.

  • Precision and Repeatability:

Planetary gears provide high precision and repeatability, making them suitable for precise positioning and motion control tasks in robotics and automation. The gear design and arrangement contribute to minimal backlash and accurate torque transmission, ensuring precise and predictable movements. This precision is essential in applications such as robotic arms, CNC machines, and pick-and-place systems.

  • Speed Reduction and Torque Amplification:

Planetary gears offer the capability of speed reduction and torque amplification, allowing robots to handle varying loads and achieve different levels of speed and force. By utilizing the gear ratios and multiple gear stages, planetary gears enable robots to perform tasks that require both high torque and precise movements, such as lifting heavy objects or performing delicate assembly operations.

  • Efficiency and Energy Savings:

Planetary gears are known for their high efficiency in power transmission. The gear design minimizes friction and ensures efficient torque transfer, resulting in reduced energy consumption. In robotics and automation, where energy efficiency is often a concern, the use of planetary gears can contribute to overall energy savings and longer battery life in battery-powered systems.

  • Reliability and Durability:

Planetary gears are designed to be robust and durable, capable of withstanding demanding operating conditions. They can handle high loads, provide long service life, and resist wear and fatigue. These characteristics are crucial in robotics and automation, where the gears are subjected to repetitive and continuous motion. The reliability and durability of planetary gears contribute to the overall performance and longevity of robotic systems.

  • Versatility and Customization:

Planetary gears offer versatility and customization options to meet specific requirements in robotics and automation. They can be combined with other mechanical components such as motors, encoders, and sensors to create tailored motion control systems. The ability to select different gear ratios, sizes, and configurations allows for the optimization of robotic designs for specific applications and performance criteria.

In summary, planetary gears are widely used in robotics and automation due to their compact size, high power density, precision, repeatability, speed reduction, torque amplification, efficiency, reliability, durability, versatility, and customization options. These qualities make planetary gears an excellent choice for various robotic applications, including industrial automation, collaborative robots, robotic prosthetics, unmanned vehicles, and many others.

epicylic gear

How do planetary gears differ from other types of gear arrangements?

Planetary gears, also known as epicyclic gears, possess unique characteristics and differ from other types of gear arrangements in several ways. Let’s explore the distinguishing features of planetary gears:

  • Internal Gear Meshing:

Unlike other gear arrangements where the gears typically mesh externally, planetary gears have internal gear meshing. This means that the gear teeth of the sun gear, planet gears, and ring gear are located on the inside surfaces, allowing for compact and space-efficient designs.

  • Multiple Gear Sets:

Planetary gear systems consist of multiple gear sets working in parallel or series. These gear sets include the sun gear, planet gears, and ring gear. By combining and configuring these gear sets, different gear ratios and torque distributions can be achieved, providing versatility and flexibility in various applications.

  • Central Sun Gear:

A distinctive feature of planetary gears is the presence of a central sun gear. The sun gear is typically driven by an input source, such as a motor or engine. It is located at the center of the gear arrangement and serves as the primary driver for overall gear operation.

  • Orbiting Planet Gears:

In planetary gears, the planet gears rotate on their own axes while simultaneously orbiting around the sun gear. This combination of rotational and orbital movement allows for efficient torque transmission and enables the gear arrangement to achieve different gear ratios based on the relative sizes and positions of the gears.

  • Compact Size:

One of the key advantages of planetary gears is their compact size. The internal gear meshing and the arrangement of multiple gear sets within a single gear system contribute to their space-saving design. This makes planetary gears suitable for applications where size and weight restrictions are important considerations.

  • Wide Range of Applications:

Planetary gears find applications in various industries and mechanical systems. They are commonly used in automotive transmissions, industrial machinery, robotics, aerospace systems, and more. Their ability to achieve different gear ratios, transmit torque efficiently, and operate in compact spaces makes them versatile solutions in diverse engineering applications.

In summary, planetary gears differ from other types of gear arrangements due to their internal gear meshing, multiple gear sets, central sun gear, orbiting planet gears, compact size, and wide range of applications. These characteristics make planetary gears suitable for achieving various gear ratios, transmitting torque efficiently, and meeting the space requirements of different mechanical systems.

China Good quality CZPT Road Roller Wheel Gear 2024034 cycle gearChina Good quality CZPT Road Roller Wheel Gear 2024034 cycle gear
editor by CX 2023-09-18