China Standard Auto Parts Vvt Sprocket Variable Valve Timing Gear EL 6.4 Camshaft Adjuster for Mercedes-Benz M276 New A2780505000

Product Description

 

Product Description

 

Model No. SJ-BZ23-VVT Applicable Car Model For Mercedes BENZ
OEM No. A2780505000 Specification Engine model M278(New)
Transport Package Carton Package Lead Time 30 Days
HS Code 8708999990 Production Capacity 800000 Sits Per Year

Company Profile

   Our Factory was established in 2015,located in HangZhou City, ZHangZhoug province, near the ZheJiang port HangZhou port.
   As a supplier of OEM&ODM, we specialized in the production of automotive timing engine system. Our main product is timing chain kit, including timing chain, timing guide, timing sprocket and timing tensioner.         Our main market is Southeast Asia, Europe, North America and Middle East. We have auto parts industry experience over 8 years and individual sales department with 7 peoples for customer service. We are professional and responsible
   Welcome to visit our factory!

 

 

Factory Workshop&Office

 

 

 

Exhibition Shows

 

FAQ

Q1.Can you customize and design as the clients’ requirement?
A1: Yes,we can do OEM & ODM

Q2.How long is the warranty of your products?
A2: Normally 2 year or 24 months whichever occurs first.

Q3.Can you produce the products labeled with the client’s brand?
A3: With the authorization of the brand, we can OEM for our clients.

Q4.Can i buy the products directly on the website without asking customer service ?
A4: The price of the products is for reference only. Please consult the customer service for details. The products without communication will not be delivered.

Q5.What payment terms do you accept?
A5: On T/T term 30% down payment is required in advance,and 70% balance shall be settled before shipment. We’ll show you the photos of the products and packages before you pay the balance.

Q6.Delivery time?
A6: Standard hot-sell products are always in stock. The production period for Customizing products is 20-30 days depends on order quantity.

 

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Standard Or Nonstandard: Nonstandard
Application: Motor, Electric Cars, Motorcycle, Machinery, Marine, Agricultural Machinery, Car
Lead Time: 30 Days After Advance Payment
Transport Package: Carton Package
Trademark: SJP
Origin: China
Samples:
US$ 60/Piece
1 Piece(Min.Order)

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Request Sample

sprocket gear

How do I calculate the required torque for a sprocket gear setup?

Calculating the required torque for a sprocket gear setup involves considering several factors that influence the torque demand in the system. Here’s a step-by-step guide on how to calculate the required torque:

Step 1: Determine the Load: Identify the load or resistance that the sprocket gear setup needs to overcome. This could be the weight of the object being lifted, the force required to move a conveyor belt, or any other application-specific load.

Step 2: Calculate the Torque to Overcome Friction: The sprocket gear system experiences friction losses that must be accounted for in the torque calculation. Frictional torque can be estimated based on the type of bearings used, lubrication, and other factors.

Step 3: Account for Efficiency: No mechanical system is 100% efficient, and some power will be lost due to factors like friction and heat. Take the system’s efficiency into account when calculating the required torque.

Step 4: Determine Speed and Angular Velocity: The speed at which the sprocket gear system operates and the angular velocity of the driven sprocket are essential for torque calculation.

Step 5: Use the Torque Calculation Formula: The torque (T) required to drive the sprocket gear system can be calculated using the formula:

T = (Load × Distance) ÷ (2π × Speed)

Where:

Load = Load or resistance on the system (in Newtons, N)

Distance = Radius or effective radius of the driven sprocket (in meters, m)

Speed = Angular speed of the driven sprocket (in radians per second, rad/s)

Step 6: Apply Safety Factor: In real-world applications, it’s essential to apply a safety factor to the calculated torque to account for unexpected overloads or variations in the system’s performance.

Step 7: Select the Motor or Power Source: Once you have the calculated required torque, choose a motor or power source that can deliver the necessary torque while considering factors like the motor’s torque-speed curve and duty cycle.

Keep in mind that sprocket gear systems might have multiple stages with different gear ratios, so the torque calculation might vary for each stage. Additionally, consult with a mechanical engineer or specialist for critical applications or complex setups to ensure accurate torque calculations.

sprocket gear

What are the load-carrying capacities of different sprocket gear configurations?

Load-carrying capacity is a critical factor to consider when selecting a sprocket gear configuration for a specific application. The load-carrying capacity of a sprocket gear depends on various factors, including the material and design of the sprocket, the size and number of teeth, and the type of chain used in conjunction with the sprocket.

Here are some factors that influence the load-carrying capacities of different sprocket gear configurations:

1. Material: The choice of material significantly impacts the load-carrying capacity of the sprocket gear. High-strength materials, such as hardened steel or alloy materials, are often used for heavy-duty applications, as they can withstand higher loads without deformation or failure.

2. Number of Teeth: Sprocket gears with more teeth typically distribute the load over a larger surface area, which can improve their load-carrying capacity. However, an increase in the number of teeth may also lead to higher friction losses in the system.

3. Tooth Profile: The shape of the sprocket gear teeth, such as standard or modified tooth profiles, can affect the load distribution and efficiency of the gear system.

4. Chain Type: The type of chain used with the sprocket gear is crucial in determining the overall load-carrying capacity of the system. Different chain designs, such as roller chains or silent chains, have varying load-carrying capabilities.

It is essential to consult the manufacturer’s specifications and engineering data when determining the load-carrying capacity of a particular sprocket gear configuration. Additionally, factors like the speed of operation, environmental conditions, and duty cycle should also be considered to ensure the sprocket gear is appropriately sized for the application.

In heavy-duty and high-load applications, engineers often conduct detailed calculations and simulations to ensure the sprocket gear system can handle the required loads safely and reliably. Proper maintenance and periodic inspections are essential to preserve the load-carrying capacity and extend the life of the sprocket gear system.

sprocket gear

How do you select the right size and pitch of a sprocket gear for a specific application?

Choosing the correct size and pitch of a sprocket gear is crucial to ensure optimal performance and efficiency in a specific application. Here’s a step-by-step guide to help you make the right selection:

  1. Identify the Application Requirements: Understand the specific requirements of your application, including the desired speed, torque, power transmission, and operating conditions.
  2. Calculate the Gear Ratio: Determine the gear ratio required for your application. The gear ratio is the ratio of the number of teeth between the driving and driven sprockets and determines the speed and torque relationship between them.
  3. Consider the Pitch: The pitch of a sprocket refers to the distance between the centers of adjacent teeth. It is essential to choose sprockets with the same pitch as the chain or belt you plan to use in your transmission system.
  4. Choose the Number of Teeth: Once you have the gear ratio and pitch, calculate the number of teeth for both the driving and driven sprockets. The number of teeth affects the speed and torque characteristics of the transmission system.
  5. Verify Shaft Compatibility: Ensure that the sprocket gear’s bore size matches the diameter of your application’s input and output shafts.
  6. Consider Material and Strength: Select sprocket gears made from materials suitable for your application’s operating conditions. For heavy-duty applications, choose sprockets with high strength and wear resistance.
  7. Check Center Distance: Verify the center distance between the driving and driven sprockets to ensure proper chain or belt tension and alignment.
  8. Review Manufacturer Recommendations: Manufacturers often provide guidelines and specifications for their sprocket gears. Review their recommendations and consult with experts if necessary.
  9. Perform Regular Maintenance: Once the sprocket gear is installed, conduct regular maintenance, including lubrication and inspection, to ensure longevity and optimal performance.

Choosing the right size and pitch of a sprocket gear requires careful consideration of various factors to meet the specific needs of your application. By following these steps and consulting with experts when needed, you can select the most suitable sprocket gear for your mechanical system.

China Standard Auto Parts Vvt Sprocket Variable Valve Timing Gear EL 6.4 Camshaft Adjuster for Mercedes-Benz M276 New A2780505000  China Standard Auto Parts Vvt Sprocket Variable Valve Timing Gear EL 6.4 Camshaft Adjuster for Mercedes-Benz M276 New A2780505000
editor by Dream 2024-05-16