Product Description
Factory high quality Aluminum alloy 5mm bore 2 flanges GT2 GT3 GT5 GT8 GT14 timing belt pulleys
1) Warranty: our timing pulley’s quality is very good and with ensurance within 1 year, when you receive the products and find quality problems, we promise you could return it back and free maintenance.
2) Drawings: please send you timing pulleys’ drawings to us to get the best quotation; If you have no drawings, then we could work out CAD drawings and the best quotation to you ASAP.
3) Sample: we accept 1 piece sample’s order, we could do samples until you’re satisfied.
4) Confidentiality agreetment: Strictly adherence to client confidentiality agreetment for timing pulleys.
Product Description |
Product Name |
Timing Belt Pulley | |
Teeth profile | Trapezoidal toothed | MXL, XXL, XL, L, H, XH, XXH |
T-toothed | T2.5, T5, T10, T20 | |
Arc toothed | HTD3M, HTD5M, HTD8M, HTD14M, HTD20M, Gt2, Gt3, Gt5 | |
S-toothed | S2M, S3M, S4.5M, S5M, S8M, S14M | |
Parabolic-toothed | P2M, P3M, P5M, P8M, P14M | |
Y-toothed | G2M, G3M, G5M, Y8M | |
Teeth Quantity | 10-150 teeth or customized | |
Inner Bore | 2-200mm H7 precision or customized | |
Belt width | 4mm, 6mm, 9mm, 10mm, 12mm, 15mm, 20mm, 25mm, 30mm, 40mm, 50mm, 1/4”, 5/16”, 3/8”, 1/2”, 3/4”, 1”, 1.5”, 2”or customized | |
Accessories | We can provide the service of assembling setscrews, bearings, shafts or taper bush | |
Surface treatment | Anodize,Black Oxide,Phosphate and Galvanization | |
Drawing Format | Timing belt pulley cad drawing,timing belt pulley UG drawing,Timing belt Pulley Soliwork drawing,Timing Pulley PDF drawing |
What is timing pulley?
Timing pulleys are specialized pulleys that have either teeth or pockets around the outside diameter of the pulley body. Timing teeth engage holes in the metal belt, while timing pockets engage drive lugs on a belt’s inner circumference. These teeth or pockets are used only for timing, not for power transmission.
How timing pulleys work?
The synchronous wheel transmission is composed of an endless belt with equal-spaced teeth on the inner peripheral surface and a pulley with corresponding teeth. During operation, the toothed teeth mesh with the tooth grooves of the pulley to transmit motion and power, which is integrated with the belt. A new type of belt drive with the advantages of transmission, chain drive and gear transmission.
What is gt2 timing pulley?
2mm pitch GT2 Pulley. The GT2 or 2GT Tooth Profile timing pulley prevails in the 3d printing hobby cause the Round tooth profile brings high precision of non-backlash, were known as today’s Reprap Pulley.
What is a timing pulley flange?
Timing pulley flanges are used to maintain belt contact with a timing pulley in power transmission applications.Timing pulley flanges are manufactured to fit timing pulleys of the same pitch and size. The dimensions of a pitch, including the mating flange, are specified by the number of grooves.
What are synchronous belts used for?
The trapezoidal tooth profile first used on synchronous belts is recognized as standard. Belts with this configuration are commonly used in machine tools, textile machinery, home appliances, business equipment, and as camshaft drives in engines.
Note:Please confirm you need teeth profile, teeth quantity, belt width, bore diameter, quantity and type (please refer below drawings) to get our the most complete CAD drawings and the best quotation.
Related Products
Certification: | ISO |
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Pulley Sizes: | Type F |
Manufacturing Process: | Forging |
Material: | Iron |
Surface Treatment: | Baking Paint |
Application: | Chemical Industry, Grain Transport, Mining Transport, Power Plant |
Samples: |
US$ 50/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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What is the impact of tooth pitch and belt compatibility on XL pulley performance?
The tooth pitch and belt compatibility play a significant role in the performance of XL pulleys. Here is a detailed explanation of their impact:
1. Tooth Pitch:
The tooth pitch refers to the distance between the center of one tooth to the center of the adjacent tooth on a pulley. In the case of XL pulleys, they are designed to match XL belts with a specific tooth pitch. The tooth pitch directly affects the pulley’s performance in several ways:
a. Transmission Accuracy:
A precise tooth pitch ensures accurate transmission of motion and power between the pulley and the belt. Any deviation in the tooth pitch can result in inconsistent power transmission, leading to reduced performance and potential system errors.
b. Synchronization:
In applications that require multiple pulleys working together, such as in timing belt systems, maintaining the correct tooth pitch is crucial for proper synchronization. The teeth of the pulleys and belts must mesh precisely to ensure synchronized movement and timing accuracy.
c. Torque Capacity:
The tooth pitch affects the pulley’s torque capacity. A smaller tooth pitch allows for more teeth to engage simultaneously, distributing the load over a greater number of teeth and increasing the torque capacity. XL pulleys with a smaller tooth pitch can handle higher torque loads compared to those with a larger tooth pitch.
2. Belt Compatibility:
The compatibility between the XL pulley and the belt used in the system is crucial for optimal performance. Consider the following aspects of belt compatibility:
a. Size and Dimensions:
The XL pulley and the belt should have compatible sizes and dimensions. This includes the width and length of the belt, as well as the number of teeth on the belt. Proper sizing ensures a secure fit, prevents slippage, and maximizes power transmission efficiency.
b. Tooth Profile:
The tooth profile of the belt should match the tooth profile of the XL pulley. In the case of XL pulleys, the teeth have a trapezoidal shape. Using a belt with a different tooth profile can lead to improper engagement, increased wear, and reduced performance.
c. Material and Construction:
The belt material and construction should be suitable for the intended application and operating conditions. Factors such as the belt’s tensile strength, flexibility, and resistance to wear and temperature influence its compatibility with the XL pulley. Choosing the right belt material ensures optimal performance and longevity.
d. Manufacturer Recommendations:
It is important to refer to the manufacturer’s recommendations and specifications for both the XL pulley and the belt. Manufacturers provide guidelines for selecting compatible belts based on the pulley’s design, tooth pitch, and intended application. Adhering to these recommendations ensures proper performance and avoids compatibility issues.
In summary, the tooth pitch and belt compatibility have a significant impact on the performance of XL pulleys. The tooth pitch influences transmission accuracy, synchronization, and torque capacity. Belt compatibility, including size, dimensions, tooth profile, material, and following manufacturer recommendations, ensures optimal performance and reliable operation of the XL pulley system.
How does the size of an XL pulley impact its load-bearing capacity?
The size of an XL pulley plays a significant role in determining its load-bearing capacity. Here’s how the size of an XL pulley impacts its load-bearing capacity:
1. Surface Area:
The size of the pulley affects the surface area over which the force is distributed. Larger pulleys generally have a larger surface area, allowing for better force distribution and reducing the stress concentration on the pulley. This increased surface area helps in handling higher loads and reduces the risk of pulley failure.
2. Moment Arm:
The size of the pulley also affects the moment arm, which is the perpendicular distance from the center of the pulley to the line of action of the force. A larger pulley typically has a longer moment arm, resulting in a larger torque or moment applied to the pulley. This increased torque capacity allows the pulley to handle higher loads without experiencing excessive deflection or failure.
3. Tooth Engagement:
XL pulleys transmit power through the engagement of their teeth with the corresponding teeth on the timing belt. The size of the pulley determines the number of teeth and the contact area between the pulley and the belt. A larger pulley with more teeth provides increased contact area and better tooth engagement, resulting in improved load-bearing capacity and power transmission efficiency.
4. Material Strength:
The size of the pulley can also impact the selection of materials with appropriate strength properties. Larger pulleys may require materials with higher strength to withstand the increased loads. The choice of materials with adequate tensile strength, fatigue resistance, and durability becomes crucial in ensuring the load-bearing capacity of the pulley.
5. Speed and Torque:
The size of the pulley influences the speed and torque characteristics of the system. Larger pulleys can accommodate larger belts, resulting in increased belt contact surface and improved power transmission. This allows for higher torque transfer capabilities, enabling the pulley to handle heavier loads.
It’s important to note that while larger pulleys generally have higher load-bearing capacities, other factors such as material properties, design considerations, and proper installation also influence the overall load capacity of the pulley system. Therefore, it is essential to consult the manufacturer’s guidelines and engineering calculations to determine the appropriate pulley size and ensure safe operation under the desired load conditions.
In which applications and industries are XL pulleys commonly used?
XL pulleys find extensive use in various applications and industries that require precise motion control and power transmission. Here are some common applications and industries where XL pulleys are commonly employed:
1. Robotics:
XL pulleys are utilized in robotic systems for precise positioning and movement control of robot arms, grippers, and other robotic components. They enable accurate and synchronized motion, allowing robots to perform complex tasks with precision.
2. CNC Machines:
CNC (Computer Numerical Control) machines, such as milling machines and lathes, rely on XL pulleys for precise control of spindle speed and tool positioning. The accurate motion provided by XL pulleys ensures high-quality machining and dimensional accuracy in CNC operations.
3. 3D Printers:
XL pulleys are commonly used in 3D printers to control the movement of the print head and the positioning of the build platform. The precise motion control facilitated by XL pulleys contributes to the accuracy and fine detail of the printed objects.
4. Automated Systems:
XL pulleys are employed in various automated systems, including conveyor systems, packaging machinery, assembly lines, and material handling equipment. These systems require synchronized and precise motion to ensure efficient and accurate operation.
5. Industrial Machinery:
In industrial settings, XL pulleys are used in a wide range of machinery, such as textile machines, printing presses, woodworking equipment, and industrial automation systems. They provide reliable power transmission and motion control in these demanding applications.
6. Automotive Industry:
XL pulleys are utilized in automotive applications, including engine timing systems, accessory drives, and power steering systems. The precise control and synchronization offered by XL pulleys contribute to efficient and reliable operation of these automotive components.
7. Medical Devices:
In the medical field, XL pulleys are found in equipment such as diagnostic machines, laboratory automation systems, and surgical instruments. They enable accurate movement and positioning, ensuring the precision required for medical procedures and diagnostics.
8. Aerospace and Defense:
XL pulleys are used in aerospace and defense applications, such as satellite positioning systems, guidance systems, and unmanned aerial vehicles (UAVs). The reliable motion control provided by XL pulleys is crucial for the accurate operation of these aerospace and defense systems.
9. Research and Development:
In research and development laboratories, XL pulleys are employed in experimental setups, prototyping systems, and testing equipment. Their precise motion control capabilities support the development and validation of new technologies and products.
In summary, XL pulleys are commonly used in applications and industries that require precise motion control and power transmission. Their versatility and reliability make them suitable for a wide range of applications, from robotics and CNC machines to 3D printers, automated systems, automotive components, medical devices, aerospace, and research and development.
editor by CX
2023-10-10