Product Description
Pressure Casting Steering Gear Parts Chain with ISO 9001:2008
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 |
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Machining: | Pressure Casting |
Material: | Iron |
Surface Treatment: | Polishing |
Design: | 2D |
Casting Tolerance: | +/-0.2mm |
Samples: |
US$ 0/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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How do you calculate the required horsepower for a gear chain drive?
To calculate the required horsepower for a gear chain drive, you need to consider several factors:
1. Speed of the Drive:
– Determine the desired speed of the gear chain drive in revolutions per minute (RPM).
2. Torque Requirement:
– Calculate the torque required by the load or driven equipment. Torque is typically given in pound-feet (lb-ft) or Newton-meters (Nm).
3. Efficiency of the Drive:
– Determine the efficiency of the gear chain drive system. This is usually expressed as a decimal value ranging from 0 to 1.
4. Conversion Factor:
– Determine the appropriate conversion factor to convert the torque units to pound-feet per minute (lb-ft/min) or Newton-meters per minute (Nm/min).
Once you have these values, you can use the following formula to calculate the required horsepower:
Horsepower = (Torque x RPM) / (5252 x Efficiency)
Make sure to use consistent units throughout the calculation.
It is important to note that this calculation provides an estimate of the required horsepower. Actual operating conditions, such as friction, load variations, and other factors, may affect the actual horsepower requirements. Consulting with a qualified engineer or using manufacturer-provided data is recommended for accurate and specific calculations.
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 is a gear chain and how does it work?
A gear chain, also known as a roller chain with sprockets, is a type of power transmission chain that is commonly used to transfer rotational motion between two parallel shafts. It consists of a series of interconnected links, known as roller links, which engage with teeth on sprockets to transmit power.
The basic components of a gear chain include:
– Roller Links: These are the individual links that form the chain. They have cylindrical rollers that are connected by side plates.
– Pins: The pins hold the roller links together and allow them to rotate freely.
– Bushings: The bushings are inserted into the roller links and provide a smooth surface for the pins to rotate on.
– Sprockets: The sprockets are toothed wheels that engage with the roller links. They are mounted on the shafts and transmit power by engaging with the rollers.
The operation of a gear chain is based on the principle of meshing between the teeth of the sprockets and the rollers of the chain. When one sprocket is rotated, the engaged rollers are driven, causing the entire chain to move and transmit power to the other sprocket.
The meshing between the sprocket teeth and chain rollers ensures a positive and efficient power transfer. The roller links rotate on the pins and bushings, allowing the chain to smoothly engage and disengage with the sprockets during operation.
Gear chains are widely used in various applications, such as industrial machinery, automotive systems, bicycles, and conveyors, where reliable and efficient power transmission is required.
editor by CX 2024-04-13