Product Description
ISO 9001:2008 Approved Pressure Casting Steering Gear Parts Chain(X348, X458)
Product Description
When the chain forms into a ring, it can be utilized as a conveyor chain for heavy loads. Our drop forged chain is often found on the conveying equipment and suspension equipment, automobile, food processing, and steelmaking industries.
Our company is the lagrest drop forged chain manufacturer. The main products are standard drop forget chain.
| Name | Forging parameters | Weight (KG) |
Single point load (KG) | Allowable load (KG) | Limit load (KG) |
||||||
| P | H | A | C | D | F | G | |||||
| X348-1 | 83 | 42 | 105 | 40 | 50 | 48 | 10 | 1.35 | 100 | 1100 | 1800 |
| X348-11 | 85 | 45 | 93 | 40 | 60 | 48 | 10 | 1.35 | 100 | 1100 | 1800 |
| X458 | 95 | 44 | 120 | 54.5 | 50 | 54 | 10 | 2.5 | 200 | 1800 | 3600 |
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Company Profile
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| Application: | Machinery Parts |
|---|---|
| Machining: | Pressure Casting |
| Material: | Iron |
| Surface Treatment: | Polishing |
| Design: | 2D |
| Casting Tolerance: | +/-0.2mm |
| Samples: |
US$ 0/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
What are the design considerations for a gear chain system?
Designing a gear chain system requires careful consideration of several factors to ensure optimal performance and reliability. Here are the key design considerations:
1. Load and torque requirements:
– Determine the maximum load and torque that the gear chain system will need to transmit. This will dictate the size and strength of the gears and chains selected.
2. Speed and power requirements:
– Consider the desired operating speed and power output of the gear chain system. This will influence the gear ratio selection and the size of the gears and chains to handle the required power.
3. Space constraints:
– Evaluate the available space for the gear chain system. Consider the dimensions of the gears, chains, and associated components to ensure proper fit and clearance.
4. Environmental conditions:
– Assess the operating environment for factors such as temperature, humidity, dust, and corrosive elements. Select materials and coatings for the gears and chains that can withstand the specific environmental conditions.
5. Lubrication requirements:
– Determine the lubrication method and frequency needed to maintain proper lubrication of the gear chain system. Consider factors such as speed, load, temperature, and the type of lubricant required.
6. Maintenance and accessibility:
– Consider the ease of maintenance and accessibility for inspection, lubrication, and potential repairs. Design the gear chain system to allow for convenient maintenance procedures.
7. Noise and vibration:
– Evaluate the noise and vibration levels produced by the gear chain system. Take measures to minimize noise and vibration through proper gear and chain selection, alignment, and damping techniques.
8. Safety considerations:
– Ensure that the gear chain system is designed with adequate safety features to prevent accidents or injuries. Consider aspects such as guarding, emergency stops, and proper labeling.
By carefully considering these design factors, you can develop a gear chain system that meets the specific requirements of your application and delivers reliable and efficient performance.
How do you calculate the gear ratio in a gear chain system?
The gear ratio in a gear chain system is determined by the number of teeth on the driving gear and the driven gear. The gear ratio is defined as the ratio of the number of teeth on the driven gear to the number of teeth on the driving gear. It represents the relative rotational speed and torque between the two gears. The formula to calculate the gear ratio is:
Gear Ratio = Number of Teeth on Driven Gear / Number of Teeth on Driving Gear
For example, if the driven gear has 40 teeth and the driving gear has 20 teeth, the gear ratio would be:
Gear Ratio = 40 / 20 = 2
This means that for every revolution of the driving gear, the driven gear will make two revolutions. The gear ratio determines the speed and torque conversion between the gears, allowing for power transmission and motion control in the gear chain system.
What are the advantages of using a gear chain in mechanical systems?
Using a gear chain in mechanical systems offers several advantages:
– High Efficiency: Gear chains provide a high level of power transmission efficiency, ensuring minimal power loss during operation. This efficiency is achieved through the positive engagement of the chain with the sprockets, resulting in reliable torque transfer.
– Precise Speed Ratio: Gear chains allow for precise speed ratio control between the driving and driven shafts. By selecting different sprocket sizes, the rotational speed can be adjusted to match specific application requirements.
– Compact Design: Gear chains have a compact design, making them suitable for applications with limited space. The chain can transmit power over relatively long distances while occupying a small footprint.
– High Load Capacity: Gear chains are capable of handling high loads due to their robust construction. The interlocking of the chain with the sprockets ensures a secure power transmission, enabling the chain to withstand heavy-duty applications.
– Versatility: Gear chains are versatile and can be used in a wide range of mechanical systems, including machinery, automotive systems, agricultural equipment, and more. They can accommodate various speeds, loads, and operating conditions.
– Durability: Gear chains are designed to be durable and long-lasting, with resistance to wear and fatigue. They are typically made from high-quality materials such as alloy steel, which provides excellent strength and durability.
– Easy Maintenance: Gear chains are relatively easy to maintain. Regular lubrication and periodic inspection of the chain’s condition are essential to ensure optimal performance and prolong its service life.
– Cost-Effective: Gear chains offer a cost-effective solution for power transmission in mechanical systems. They are generally more affordable compared to other types of power transmission systems and provide reliable performance over an extended period.
In summary, the advantages of using a gear chain in mechanical systems include high efficiency, precise speed control, compact design, high load capacity, versatility, durability, easy maintenance, and cost-effectiveness.
editor by CX 2024-04-30