China high quality Excavator Spare Parts Swing Final Drive Gear Sun Gear Carrier Assy 11214031 Voe14570931 for LG CZPT Excavator top gear

Product Description

Excavator Travel gearbox Planet carrier
Product Description  
Place of Origin ZheJiang , China
Condition New, 1
Related Parts Excavator Spare Parts
Packing Standard Export Packing
MOQ 1 Piece
Applicable Industries Machinery Repair Shops, Retail, Construction works
Supply Ability 1
Part name planet carrier
Applicable machine EC240C EC290B 

Detailed Photos

Other products

WHY CHOOSE US
1.More than 10 years experience in excavator spare parts field;
2.We are experts in CHINAMFG excavator parts and have in this industry since 2571
3.Original parts from suppliers with ensured and high quality;
4.Large range of spare parts scope for excavators;
5.Have parts in stock and give you short lead time;
6.Reasonable and competitive price;

Company Profile
    HangZhou Junchi construction machinery Co., Ltd. is located in HangZhou logistics capital of China. We are a dealer specialized in excavator accessories, excavator parts genuine accessories one-stop shopping center. We provide all types of Volvo/LG/PC excavator spare parts for all kinds of excavator models. 
     It is convenient for you to buy all parts for Volvo/LG/PC excavators together.
    JUNCHI is our own brand, which integrates our industry experience over the years to provide you with products with better prices and higher quality. We are committed to meeting all your needs for excavator parts and providing you with the most perfect excavator parts solution. Use the best quality and the most competitive price to obtain long-term cooperation with customers.
    We sincerely hope to cooperate with all people around the world and welcome your visit to our company, In the meanwhile, we believe that through our continuous perfecting service system and technique, you can possess the world’s best products with the world’s first – class service!

About Us
Factory

Team 

Our Warehouse

Packing and shipment

Our Advantage
1  We have many highly qualified engineers and sale managers, with wide and specific knowledge in the sale, and repair of construction machines, the sales team prides itself on its knowledge of heavy machinery coupled with exemplary after sales service .
2  We have our transfer warehouse for all the spare parts, the warehouse is about 2000 square meter, hold about USD5,000,000.00 spare parts anytime.
3  we have high-efficient logistics operation system,which ensure shipment is on time and right.
4  our product is all over the world.
5  we hope create the future together with every Volvo/LG/PC machine customers.
FAQ
1.If I only know the excavator model, but can not offer parts No., what should I do ?
 If possible, you can provide pictures of old products, nameplate or size of the parts.
2.How can I pay the order?
We can receive payment through T/T, L/C, Western Union.
3.When will get the items after I place order?
Once we receive your payment, we will deliver the goods within 24 hours; if not in stock , we will communicate with you before placing orders.
4.How can I do if there is something wrong with the items?
First of all ,we can assure the  quality of our products ,if you really found something wrong ,pls provide pictures for us and we will check.  After it is confirmed, pls return to us , we will offer the correct item.
5.What is your main products ?
We are specialized in excavator spare parts, such as engines/or parts, undercarriage parts, electronic parts, hydraulic parts , covering parts, attachments and so on.  If you need other excavator parts, we also can supply as your requirements
 

After-sales Service: Online Support
Warranty: 6 Months
Type: Pistons
Application: Excavator
Certification: CE, ISO9001: 2000
Condition: New
Samples:
US$ 199/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

sun gear

How does the size of a sun gear affect the gear ratio in planetary systems?

The size of the sun gear plays a significant role in determining the gear ratio in planetary gear systems. The gear ratio determines the relationship between the input speed and torque and the output speed and torque in the system. Here’s an explanation of how the size of the sun gear affects the gear ratio in planetary systems:

  • Direct Proportion:

In a planetary gear system, the gear ratio is influenced by the relative sizes of the sun gear, planet gears, and ring gear. The gear ratio is typically expressed as the ratio of the output speed to the input speed or the ratio of the output torque to the input torque.

When considering the size of the sun gear, it is important to understand that the gear ratio is inversely proportional to the size of the sun gear. In other words, as the size of the sun gear increases, the gear ratio decreases, and vice versa.

  • Power Distribution:

The size of the sun gear affects the power distribution within the planetary system. As the sun gear rotates, it engages with the planet gears, which, in turn, mesh with the ring gear. The interaction between these gears determines the gear ratio.

A larger sun gear allows for a higher number of teeth on the sun gear itself as well as on the planet gears. This means that each rotation of the sun gear will result in a smaller rotation of the planet gears and the ring gear. Consequently, a larger sun gear leads to a lower gear ratio, reducing the output speed and increasing the output torque.

  • Torque Amplification:

Another factor influenced by the size of the sun gear is torque amplification. In planetary gear systems, the sun gear’s size affects the torque multiplication or reduction capabilities of the system.

With a larger sun gear, the system can provide higher torque output for a given input torque, resulting in torque amplification. This can be advantageous in applications where increased torque is required, such as during vehicle acceleration or heavy load conditions.

Conversely, a smaller sun gear reduces the torque output of the system, resulting in torque reduction. This can be useful in situations where a lower torque output is desired, such as when precise control is required or when operating in low-torque applications.

  • Overall Gear Ratio Range:

The size of the sun gear also affects the overall gear ratio range that can be achieved in a planetary system. By varying the size of the sun gear relative to the other gears, different gear ratios can be achieved, allowing for a wider range of output speeds and torques.

For example, if a system requires a higher gear ratio range, a larger sun gear can be used in combination with appropriately sized planet gears and a ring gear. Conversely, if a lower gear ratio range is desired, a smaller sun gear can be employed.

It’s important to note that the size of the sun gear alone does not determine the gear ratio. The gear ratio is influenced by the combination of the sizes of all the gears within the planetary system.

In summary, the size of the sun gear in a planetary gear system has a direct impact on the gear ratio, power distribution, torque amplification, and overall gear ratio range. A larger sun gear results in a lower gear ratio, while a smaller sun gear leads to a higher gear ratio. The size of the sun gear, along with the sizes of the other gears, determines the performance characteristics of the planetary system.

sun gear

How does a sun gear handle variations in load and speed conditions?

A sun gear is designed to handle variations in load and speed conditions in mechanical systems. Its unique positioning and interaction within a planetary gear arrangement contribute to its ability to adapt to changing load and speed requirements. Here’s an explanation of how a sun gear handles variations in load and speed conditions:

  • Load Distribution:

In a planetary gear system, the sun gear is located at the center and engages with multiple planet gears, which in turn interact with the outer ring gear. This configuration enables the sun gear to distribute the load among the planet gears. As the load on the system varies, the distribution of load among the planet gears adjusts accordingly. The load distribution mechanism allows the sun gear to handle variations in load conditions by effectively sharing the load across multiple contact points.

  • Torque Amplification:

The arrangement of the sun gear, planet gears, and ring gear in a planetary system allows for torque amplification. By changing the number of teeth on the gears and their relative sizes, the gear ratio can be customized. This capability enables the sun gear to adapt to variations in load and speed conditions. When higher torque is required, the gear system can be configured to provide torque amplification by increasing the gear ratio. Conversely, when lower torque is needed, the gear ratio can be adjusted accordingly. This flexibility in gear ratio configuration allows the sun gear to handle variations in load and speed by adapting the torque output.

  • Speed Regulation:

Another way the sun gear handles variations in load and speed conditions is through speed regulation. In a planetary gear system, the sun gear’s rotation speed is determined by the input speed and the gear ratio configuration. By adjusting the gear ratio, the rotational speed of the sun gear can be controlled. This speed regulation capability allows the sun gear to adapt to changing speed requirements. When higher speeds are necessary, the gear ratio can be adjusted to increase the rotational speed of the sun gear. Similarly, when lower speeds are desired, the gear ratio can be modified accordingly. The sun gear’s ability to regulate its rotational speed enables it to accommodate variations in load and speed conditions.

  • Sturdy Construction:

Sun gears are typically constructed from durable materials such as hardened steel or other high-strength alloys. This robust construction enables them to withstand the forces generated by variations in load and speed conditions. The sturdy design of sun gears ensures that they can handle the stresses and strains associated with changing operating conditions without experiencing premature wear or failure.

In summary, a sun gear handles variations in load and speed conditions through load distribution among the planet gears, torque amplification or reduction based on the gear ratio configuration, speed regulation by adjusting the gear ratio, and its sturdy construction. These features enable the sun gear to adapt to changing requirements, ensuring reliable and efficient operation in various mechanical systems.

sun gear

How does a sun gear affect the overall gear ratio in a system?

The presence and characteristics of a sun gear play a significant role in determining the overall gear ratio in a system. Understanding how the sun gear affects the gear ratio helps in analyzing and designing gear systems with the desired performance. Here’s an explanation of how a sun gear affects the overall gear ratio in a system:

  • Number of Teeth: The number of teeth on the sun gear influences the gear ratio. In a simple gear system, where the sun gear engages with a single gear, the gear ratio is determined by the ratio of the number of teeth on the two gears. For example, if the sun gear has 10 teeth and the other gear has 30 teeth, the gear ratio would be 1:3, meaning the output gear rotates three times slower than the sun gear.
  • Arrangement with Other Gears: In more complex gear systems, such as planetary gear configurations, the arrangement of the sun gear with other gears further influences the gear ratio. In a planetary gear set, the sun gear engages with multiple planet gears and an outer ring gear. By manipulating the sizes and arrangements of these gears, a wide range of gear ratios can be achieved. For instance, if the sun gear is fixed, the ring gear becomes the output and the gear ratio is determined by the relative sizes of the sun gear, planet gears, and ring gear.
  • Planet Gears: The number of planet gears in a planetary gear system also affects the gear ratio. Increasing or decreasing the number of planet gears alters the gear ratio by changing the load distribution and the interaction between the sun gear and the ring gear. More planet gears generally result in a higher gear ratio, while fewer planet gears tend to reduce the gear ratio.
  • Epicyclic Gear Trains: The arrangement of gears in an epicyclic gear train, which includes the sun gear, planet gears, and ring gear, allows for even more complex gear ratios. By fixing or holding certain gears while others are driven, various gear ratios can be achieved. For example, fixing the ring gear and driving the sun gear produces a different gear ratio compared to fixing the sun gear and driving the ring gear.
  • Variable Gear Ratio: In some systems, the gear ratio can be varied by changing the position or speed of the sun gear. This can be achieved using mechanisms such as adjustable clutches or continuously variable transmissions (CVTs). By modifying the engagement between the sun gear and other gears, the gear ratio can be adjusted to optimize performance for different operating conditions.

In summary, the presence and characteristics of a sun gear, including the number of teeth, its arrangement with other gears, the presence of planet gears, and the overall gear system configuration, all contribute to the determination of the gear ratio. Understanding these factors allows for the design and control of gear systems with specific gear ratios to meet the requirements of various mechanical applications.

China high quality Excavator Spare Parts Swing Final Drive Gear Sun Gear Carrier Assy 11214031 Voe14570931 for LG CZPT Excavator top gearChina high quality Excavator Spare Parts Swing Final Drive Gear Sun Gear Carrier Assy 11214031 Voe14570931 for LG CZPT Excavator top gear
editor by CX 2023-09-22

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