#35-2 3/8″ Pitch QD Sprocket

#35-2 3/8" Pitch QD Sprocket Specifications

QD Sprocket No.35-2 Double Type is a commonly used sprocket in transmission systems. These sprockets are crucial components that facilitate the transfer of rotational motion between a driving chain and a driven shaft.

Definition and Basic Structure of QD Sprocket

QD sprocket is characterized by a quick-detachable (QD) bushing. Its basic structure includes teeth that engage with the driving chain, a hub for mounting onto the driven shaft, and a QD bushing that offers a secure and easy-to-install connection between the sprocket and the shaft.

Characteristics and Functions of QD Bushing

• Easy Installation: The QD bushing allows for swift and hassle-free installation of the sprocket onto the shaft.
• High Load Capacity: The standardized design of the QD bushing ensures reliable and efficient power transmission, even under heavy loads.
• Compact Design: The QD bushing provides a compact solution for connecting the sprocket with the shaft, conserving space in the transmission system.
• Low Maintenance Cost: Using a QD bushing minimizes maintenance requirements, resulting in cost savings over time.

One significant advantage of the QD bushing is its straightforward installation and removal process. The steps for installation and removal include:

1. Prepare the necessary tools and materials.
2. Clean the surface of the shaft and sprocket to ensure a proper connection.
3. Position the sprocket on the shaft.
4. Install the QD bushing onto the shaft, ensuring proper alignment.
5. Securely fasten the sprocket to the bushing.
6. Check the installation for any issues or misalignments.

Manufacturing Process of QD Sprocket

The manufacturing process for QD sprockets includes the following steps:

1. Prepare the raw materials.
2. Cut and shape the materials through forging or casting.
3. Machine the sprocket to achieve the desired dimensions and tooth profile.
4. Heat treat the sprocket to enhance strength and durability.
5. Apply surface treatments to improve corrosion resistance.
6. Conduct quality inspections to ensure the sprocket meets required standards.

Sprockets Supplier in Australia

GBC is the sales agent for Ever-power Group in Australia, providing high-quality sprockets and related products to meet various industrial needs.

Introduction to QD Sprocket No.35-2 Double Type

QD Sprocket No.35-2 Double Type is a type of sprocket commonly used in transmission systems. QD sprockets are essential components that transmit rotational motion between a driving chain and a driven shaft.

Definition and Basic Structure of QD Sprocket

QD sprocket is a type of sprocket that features a quick-detachable (QD) bushing. The basic structure of a QD sprocket consists of teeth that engage with the driving chain, a hub for mounting onto the driven shaft, and a QD bushing that provides a secure and easy-to-install connection between the sprocket and the shaft.

Characteristics and Functions of QD Bushing

• Easy Installation: QD bushing allows for quick and hassle-free installation of the sprocket onto the shaft.
• High Load Capacity: The standardized design of QD bushing ensures reliable and efficient power transmission, even under heavy loads.
• Compact Design: QD bushing offers a compact solution for connecting the sprocket with the shaft, saving space in the transmission system.
• Low Maintenance Cost: The use of QD bushing reduces maintenance requirements, resulting in cost savings over time.

One of the major advantages of QD bushing is its easy installation and removal process. The following steps outline the installation and removal procedure:

1. Prepare the necessary tools and materials.
2. Clean the surface of the shaft and sprocket to ensure a proper connection.
3. Position the sprocket on the shaft.
4. Install the QD bushing onto the shaft, ensuring it is properly aligned.
5. Securely fasten the sprocket to the bushing.
6. Check the installation for any issues or misalignments.

Manufacturing Process of QD Sprocket

The manufacturing process of QD sprocket involves the following steps:

1. Prepare the raw materials.
2. Cut and shape the materials through forging or casting.
3. Machining the sprocket to achieve the desired dimensions and tooth profile.
4. Heat treat the sprocket to enhance its strength and durability.
5. Apply surface treatments to improve corrosion resistance.
6. Conduct quality inspections to ensure the sprocket meets the required standards.

Frequently Asked Questions (FAQ)

1. Q: How do I choose the right QD sprocket for my application?

A: When selecting a QD sprocket, consider factors such as the required number of teeth, pitch, bore size, and load capacity to ensure compatibility with your specific application.

2. Q: Can I reuse a QD bushing?

A: QD bushings are designed for single-use and are not intended to be reused. It is recommended to use a new bushing when reinstalling the sprocket.

3. Q: What is the advantage of using a QD sprocket over a standard sprocket?

A: The main advantage of a QD sprocket is its quick and easy installation and removal process, allowing for efficient maintenance and replacement.

4. Q: Are QD sprockets suitable for high-speed applications?

A: Yes, QD sprockets can be used in high-speed applications as long as they are properly selected and installed to ensure smooth and reliable operation.

5. Q: Can QD sprockets be used with different chain sizes?

A: QD sprockets are available in various sizes and configurations to accommodate different chain sizes, allowing for flexibility in design and application.

Author: Miya

At our company, we offer a wide range of products and services, including the #35-2 3/8" Pitch QD Sprocket. In addition to standard sprockets, we also provide customized non-standard solutions based on customer requirements. We welcome all customers to reach out with their designs and samples for tailored solutions.