Product Description
DIN 8187 Industry Sprocket Made to Order Stainless Steel Sprocket for Roller Chain & Agriculture Chain & Food Machinery (DIN, ANSI Standard)(06B20T)
Product Description
1. Produce strictly in accordance with ANSI or DIN standard dimension
2. Material: C45 steel / Stainless Steel 304 & 316
3. Standard: ANSI, DIN, JINS, ISO, Standard America or customer drawing
4. Pilot bore, finished bore, taper bore and special bore.
5. Bright surface and high precision
6. Advanced heat treatment and surface treatment craft
7. Best quality and competitive price.
8. Welcome OEM / ODM
9. Application: Sprocket is mainly used in agricultural machinery, conveying machinery, mine mining machinery, construction machinery, mechanical transmission equipment of oil and so on.
10. Processing equipment: Hobbing machine, Slotting machine, CNC lathes and other equipment.
11. Sprocket models: Contains special sprocket (custom) according to customer’s drawings, standard sprocket (American standard and metric).
Features:Sprocket / Gear / CZPT / Steel CZPT / Lost wax casting and accessories / Investment casting
Materials: Carbon steel, alloy steel, stainless steel, ductile iron, gray iron, high chromium iron
Product name | DIN 8187 Industry Sprocket (06B20T) |
Materials Available | 1. Stainless Steel: SS304, SS316, etc |
2. Alloy Steel: C45, 45Mn, 42CrMo, 20CrMo, etc | |
3. OEM according to your request | |
Surface Treatment | Heat treatment, Quenching treatment, High frequency normalizing treatment, Polishing, Electrophoresis paint processing, Anodic oxidation treatment, etc |
Characteristic | Fire resistant, Oil resistant, Heat resistant, CZPT resistance, Oxidative resistance, Corrosion resistance, etc |
Design criterion | ISO DIN ANSI & Customer’s Drawing |
Size | Customer’s Drawing & ISO standard |
Application | Industrial transmission equipment |
Package | Wooden Case / Container and pallet, or made-to-order |
Certificate | ISO9001: 2008 |
Advantage | Quality first, Service first, Competitive price, Fast delivery |
Delivery Time | 20 days for samples. 45 days for official order. |
Detailed Photos
View more products,please click here…
Company Profile
Standard Or Nonstandard: | Standard |
---|---|
Application: | Industry |
Hardness: | Hardened Tooth Surface |
Material: | Alloy Steel/Stainless Steel |
Type: | Sprocket |
Sample: | for Free |
Samples: |
US$ 0/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
Factors Affecting the Efficiency of a wheel sprocket Setup
Several factors can influence the efficiency of a wheel sprocket system in power transmission and motion control applications. These factors should be carefully considered and optimized to ensure the system’s overall effectiveness and performance:
- 1. Friction: Friction between the wheel, sprocket, and the chain or belt can lead to energy losses. Using high-quality materials and lubrication can help reduce friction and improve efficiency.
- 2. Alignment: Proper alignment between the wheel and the sprocket is critical. Misalignment can cause increased wear, noise, and reduced efficiency. Regular maintenance and alignment checks are essential.
- 3. Tension: The correct tension in the chain or belt is crucial for efficient power transmission. Too loose or too tight tension can lead to performance issues and premature wear.
- 4. Material and Design: The choice of materials for the wheel sprocket, as well as their design, can impact efficiency. High-quality materials and well-engineered components reduce wear and improve overall system performance.
- 5. Load Distribution: Uneven load distribution across the wheel sprocket can lead to localized wear and decreased efficiency. Ensuring proper load distribution helps maintain uniform wear and power transmission.
- 6. Environmental Factors: Harsh environmental conditions, such as dust, moisture, and extreme temperatures, can affect the efficiency of the system. Choosing suitable materials and implementing protective measures can mitigate these effects.
- 7. Maintenance: Regular maintenance, including lubrication, inspection, and timely replacement of worn components, is vital for the long-term efficiency of the system.
- 8. Speed and Torque: The operating speed and torque requirements of the application should be considered when selecting the appropriate wheel sprocket size and specifications.
- 9. Chain or Belt Type: Different types of chains or belts, such as roller chains, silent chains, or toothed belts, have varying efficiencies. Choosing the right type for the specific application is crucial.
- 10. System Integration: The wheel sprocket system should be integrated correctly with other components in the machinery to ensure smooth operation and minimal energy losses.
By carefully considering and optimizing these factors, it is possible to improve the efficiency of the wheel sprocket system, leading to reduced energy consumption, less wear and tear, and overall better performance.
Temperature Limits for wheel sprocket System’s Operation
The temperature limits for a wheel sprocket system’s operation depend on the materials used in the construction of the components. Different materials have varying temperature tolerances, and exceeding these limits can lead to reduced performance, premature wear, and even system failure.
Here are some common materials used in wheel sprocket systems and their general temperature limits:
- Steel: Steel sprockets and wheels, which are widely used in many applications, typically have a temperature limit ranging from -40°C to 500°C (-40°F to 932°F). However, the specific temperature range may vary based on the grade of steel and any coatings or treatments applied.
- Stainless Steel: Stainless steel sprockets and wheels offer improved corrosion resistance and can withstand higher temperatures than regular steel. Their temperature limit is typically between -100°C to 600°C (-148°F to 1112°F).
- Plastics: Plastic sprockets and wheels are commonly used in low-load and low-speed applications. The temperature limit for plastic components varies widely depending on the type of plastic used. In general, it can range from -40°C to 150°C (-40°F to 302°F).
- Aluminum: Aluminum sprockets and wheels have a temperature limit of approximately -40°C to 250°C (-40°F to 482°F). They are often used in applications where weight reduction is critical.
It’s essential to consult the manufacturer’s specifications and material data sheets for the specific components used in the wheel sprocket system to determine their temperature limits accurately. Factors such as load, speed, and environmental conditions can also influence the actual temperature tolerance of the system.
When operating a wheel sprocket system near its temperature limits, regular monitoring and maintenance are necessary to ensure the components’ integrity and overall system performance. If the application involves extreme temperatures beyond the typical limits of the materials, specialized high-temperature materials or cooling measures may be required to maintain reliable operation.
Choosing the Right Size of Sprocket to Match a Wheel
Choosing the correct size of sprocket to match a wheel is essential for ensuring efficient power transmission and proper functionality of a mechanical system. Here are the steps to help you choose the right size of sprocket:
1. Determine the Pitch Diameter of the Wheel:
Measure the diameter of the wheel from the center to the point where the teeth of the sprocket will engage with the wheel. This measurement is known as the pitch diameter of the wheel.
2. Identify the Desired Gear Ratio:
Determine the gear ratio you want to achieve for your application. The gear ratio is the ratio of the number of teeth on the sprocket to the number of teeth on the wheel and determines the speed and torque output.
3. Calculate the Number of Teeth on the Sprocket:
Once you have the pitch diameter of the wheel and the desired gear ratio, you can calculate the number of teeth on the sprocket using the formula:
Number of Teeth on Sprocket = (Desired Gear Ratio) * (Number of Teeth on Wheel)
4. Select a Standard Sprocket Size:
Based on the calculated number of teeth on the sprocket, choose a standard sprocket size that comes closest to the calculated value. Sprockets are available in various tooth counts, and you may need to choose the nearest size available.
5. Consider Chain Compatibility:
If you are using a chain drive system, ensure that the selected sprocket is compatible with the chain you plan to use. The chain pitch (distance between the centers of adjacent roller pins) should match the pitch of the sprocket.
6. Verify Center Distance:
Check that the center distance between the wheel and the sprocket is appropriate for your application. The center distance is the distance between the centers of the wheel and the sprocket and should be set to achieve the desired tension and alignment of the chain or belt.
7. Consider the Material and Tooth Profile:
Select a sprocket material suitable for your application, such as steel, stainless steel, or plastic, based on factors like load, environment, and operating conditions. Additionally, consider the tooth profile (standard or custom) to ensure smooth engagement with the chain or belt.
By following these steps and considering the specific requirements of your machinery and mechanical system, you can choose the right size of sprocket to match your wheel and achieve optimal performance and longevity of the system.
editor by CX 2023-10-05