China factory NSE600H Cement Mill Conveyor Chain Bucket Elevator Chains Bucket Chain

Product Description

CZPT rollers enhance rotation on the bushing while reducing impact loads on the sprocket tooth during operation.

All components are heat treated to achieve maximum strength.

Pre-loaded during the manufacturing process to minimize initial elongation.

Hot dipped lubrication ensures 100% lubrication of all chain components to extend wear life and reduce maintenance costs.

CHAIN
NO.
PITCH BUSH
WIDTH
ROLLER
DIA
PIN PLATE DIMENSION OF ATTACHMENT MIN.
TENSILE
STRENGTH
d L h T
mm mm mm mm mm mm mm H d3 E F kgf
NSE200 100.00 51.80 44.50 19.10 111.50 60.00 10.00 150.00 18.00 100.00 105.00 420
NSE300 100.00 57.60 48.50 22.23 120.00 75.00 7.50 150.00 18.00 100.00 105.00 520
NSE400 125.00 67.40 63.50 31.75 139.30 90.00 12.00 180.00 18.00 125.00 130.00 735
NSE500-1 125.00 75.00 70.00 35.00 170.00 100.00 16.00 180.00 18.00 125.00 130.00 980
NSE500-2 125.00 75.00 71.50 36.00 165.00 102.00 16.00 180.00 18.00 125.00 130.00 1200
NSE600H 125.00 75.00 75.00 40.00 165.00 105.00 16.00 185.00 18.00 125.00 136.00 1260
NSE700 150.00 85.00 85.00 48.00 180.00 125.00 16.00 226.00 22.00 150.00 165.00 1470

Usage: Transmission Chain, Conveyor Chain, Dedicated Special Chain
Material: Alloy/Carbon Steel
Surface Treatment: Polishing
Feature: Heat Resistant
Chain Size: 2 3/4"*3"
Structure: Roller Chain
Samples:
US$ 10/Meter
1 Meter(Min.Order)

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Customization:
Available

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conveyor

How do you calculate the required horsepower for a conveyor chain drive?

The calculation of required horsepower for a conveyor chain drive involves considering various factors related to the conveyor system and the specific application. Here is a step-by-step process:

1. Determine the Total Resistance:

– Calculate the total resistance that the conveyor chain needs to overcome during operation. This includes the resistance due to the load being conveyed, frictional losses, elevation changes, and any other resistances in the system.

2. Convert the Resistance to Equivalent Inertia:

– Convert the total resistance to an equivalent inertia by multiplying it by the square of the chain speed.

3. Calculate the Total Inertia:

– Determine the total inertia of the system by considering the inertia of all the rotating components, such as the conveyor chain, sprockets, and any other driven elements.

4. Determine the Required Torque:

– Calculate the required torque by multiplying the total inertia by the desired acceleration or deceleration rate.

5. Convert Torque to Horsepower:

– Convert the required torque to horsepower by dividing it by the motor speed (in RPM) and multiplying by a conversion factor.

6. Consider Safety Factors and Efficiency:

– Apply safety factors to the calculated horsepower to account for variations, contingencies, and future growth.

– Consider the efficiency of the drive system, including the motor, gearbox, and other transmission components, to ensure accurate power transmission.

It’s important to note that the above calculation method provides an estimate of the required horsepower. Consulting with conveyor system manufacturers, engineers, or industry-specific guidelines is recommended for precise calculations and to ensure the selected conveyor chain drive meets the application requirements.

conveyor

How do you calculate the power requirements for a conveyor chain?

Calculating the power requirements for a conveyor chain involves considering various factors. Here’s a step-by-step process:

1. Determine the total weight to be transported: Measure or estimate the total weight of the material or product that will be carried by the conveyor chain. This includes the weight of the product itself, any packaging, and additional loads.

2. Determine the speed of the conveyor: Determine the desired speed at which the conveyor chain will operate. This is typically measured in feet per minute (FPM) or meters per second (m/s).

3. Calculate the required capacity: Multiply the total weight by the desired speed to determine the required capacity of the conveyor system. This will give you the weight per unit of time (e.g., pounds per minute or kilograms per hour).

4. Consider the conveyor’s design factors: Take into account various design factors such as the type and pitch of the conveyor chain, the coefficient of friction between the chain and the conveyor components, and any incline or decline angles of the conveyor system. These factors affect the power requirements.

5. Determine the required power: Use the following formula to calculate the power requirements:

Power (in horsepower) = (Capacity × Friction Factor) ÷ (33,000 × Efficiency)

Where:

– Capacity is the weight per unit of time (from step 3)

– Friction Factor is the ratio of chain tension to chain weight, taking into account the design factors

– 33,000 is a conversion factor to convert the units to horsepower

– Efficiency is the overall efficiency of the conveyor system, typically expressed as a decimal value (e.g., 0.95 for 95% efficiency)

6. Select a suitable motor: Based on the calculated power requirements, select a motor that can provide the necessary power to drive the conveyor chain. Consider factors such as motor type, motor efficiency, and overload capacity.

It’s important to note that the power requirements may vary depending on specific conveyor system designs and operating conditions. Consulting with a qualified engineer or conveyor manufacturer is recommended to ensure accurate calculations and proper motor selection.

conveyor

What factors should be considered when designing a conveyor chain system?

When designing a conveyor chain system, several factors need to be considered to ensure optimal performance and functionality. These factors include:

  • Load Capacity: The load capacity of the conveyor chain system is a critical consideration. It involves determining the maximum weight and size of the materials or products to be conveyed. This information helps in selecting the appropriate chain type, size, and strength to handle the expected load.
  • Speed and Throughput: The desired speed at which the conveyor system needs to operate and the expected throughput of materials are important factors. They influence the selection of chain pitch, sprocket size, and motor power to achieve the desired conveyor speed and material handling capacity.
  • Environmental Conditions: The operating environment plays a crucial role in the design of a conveyor chain system. Factors such as temperature, humidity, dust, corrosive substances, and presence of water or chemicals impact the selection of materials for the chain, sprockets, and other components to ensure durability and resistance to wear and corrosion.
  • Conveyor Layout and Configuration: The layout and configuration of the conveyor system are key considerations. Factors such as available space, conveyor path, incline or decline angles, and any required curves or turns affect the selection of chain type, sprocket arrangement, and overall system design.
  • Maintenance and Accessibility: Easy access for maintenance and servicing is crucial for the longevity and efficient operation of the conveyor chain system. Considering factors such as lubrication points, chain tension adjustment mechanisms, and overall accessibility for inspections and repairs ensures smooth operation and minimizes downtime.
  • Noise and Vibration: The level of noise and vibration generated by the conveyor chain system can impact the working environment. Design considerations such as selecting chain types with low noise characteristics, implementing proper lubrication, and using vibration-damping components help minimize noise and vibration levels.
  • Safety: Safety is of paramount importance in conveyor chain system design. Factors such as guarding, emergency stop systems, proper alignment, and anti-slip measures need to be incorporated to ensure the safety of operators and prevent accidents or injuries.

Considering these factors during the design stage helps in selecting the appropriate conveyor chain type, size, and configuration to meet the specific requirements of the application, ensuring smooth and efficient material handling operations.

China factory NSE600H Cement Mill Conveyor Chain Bucket Elevator Chains Bucket Chain  China factory NSE600H Cement Mill Conveyor Chain Bucket Elevator Chains Bucket Chain
editor by CX 2023-09-13