China OEM L XL Mxl Htd T2.5 T5 T10 Timing Pulley Timing Belt Pulley pulley bearing

Product Description

 

Product Description

American standard chain sprocket with teeth hardened

With more than 15 years’ experience, high-precision equipment and strict management system, CIMO can provide sprockets for you with stable quality and best service.
 

Item Sprocket
Standard DIN, KANA, ANSI, ISO, etc
Material C45, stainless steel SS304 & SS316, Cast iron, etc
Bore Pilot bore, finished bore, taper bore
Surface Treatment Black oxided, Zinc plated, Electrophoresis, etc
Heat treatment Teeth inductive hardened HRC45-50
Process Forging, Cutting, Hobbing teeth, CNC Lathe machining

 

European Type 03B, 04B, 05B, 06B, 081B, 083B/084B, 085B, 086B, 08B, 10B, 12B, 16B, 20B, 24B, 28B, 32B
American Type 25, 35, 40, 50, 60, 80, 100, 120, 140, 160, 200, 240

Taper bore sprockets

 
Finished bore sprockets  

Idler sprockets with ball bearing

 

Double simplex sprockets

 

Sprockets with split taper bushings

 

Sprockets with QD bushings

 
Double sprockets for 2 single chains  

Double pitch sprockets   

C2042, C2052, C2062, C2082, C2040, C2050, C2060, C2080
Platewheels for Conveyor chain 20x16mm, 30×17.02mm

Detailed Photos

 

Workshop

 

 

Packaging & Shipping

 

Export wooden box

FAQ

 

Q1: Are you trading company or manufacturer ?
A: We are factory.

Q2: How long is your delivery time and shipment?
1.Sample Lead-times: 10-20 days
2.Production Lead-times: 30-45 days after order confirmed.

Q3: What is your advantages?
1. The most competitive price and good quality.
2. Perfect technical engineers give you the best support.
3. OEM is available.

 

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Standard Or Nonstandard: Nonstandard
Application: Motor, Electric Cars, Motorcycle, Machinery, Agricultural Machinery, Chain
Hardness: Hardened Tooth Surface
Manufacturing Method: Cut Gear
Toothed Portion Shape: Sprocket
Material: Steel C45
Customization:
Available

|

Customized Request

htd pulley

How do HTD pulleys contribute to the functioning of medical and laboratory equipment?

HTD pulleys play a significant role in the functioning of medical and laboratory equipment, enabling precise and reliable movement of components and facilitating essential processes. Here’s a detailed explanation of how HTD pulleys contribute to the functioning of medical and laboratory equipment:

1. Sample Handling and Transport:

In medical and laboratory equipment, such as centrifuges and automated sample handling systems, HTD pulleys are used to drive the movement of sample holders, racks, or trays. The pulleys, in conjunction with belts or timing systems, facilitate the precise and controlled transport of samples within the equipment. This allows for accurate positioning, sorting, and delivery of samples, ensuring efficient workflows and reliable analysis or testing.

2. Fluid Handling and Pumping:

HTD pulleys are utilized in medical and laboratory equipment that involves fluid handling and pumping, such as liquid chromatography systems or diagnostic instruments. The pulleys, combined with belts or timing systems, drive the rotation of pumps, valves, or syringe drives, enabling the controlled flow of fluids. This precise fluid handling is crucial for accurate dosing, mixing, or analysis, ensuring reliable results and maintaining the integrity of experiments or medical procedures.

3. Motion Control in Robotic Systems:

In robotic systems used in medical and laboratory applications, HTD pulleys are employed to control the movement of robotic arms, grippers, or other robotic components. The pulleys, along with belts or timing systems, drive the motion of these components, enabling precise positioning, sample handling, or instrument manipulation. This contributes to the automation and efficiency of various processes, such as sample preparation, liquid handling, or high-throughput screening.

4. Imaging and Scanning Mechanisms:

HTD pulleys are used in medical and laboratory equipment that involves imaging or scanning mechanisms, such as medical imaging devices or microscopy systems. The pulleys, in combination with belts or timing systems, drive the movement of scanning stages or sample holders, allowing for precise positioning and scanning of samples. This ensures accurate and high-resolution imaging or scanning, enabling detailed analysis, diagnosis, or research observations.

5. Instrument Calibration and Adjustment:

In medical and laboratory equipment that requires calibration or adjustment, HTD pulleys are utilized to drive the movement of calibration mechanisms or adjustment components. The pulleys, along with belts or timing systems, enable precise control over the positioning and fine-tuning of instruments or sensors. This ensures optimal accuracy, calibration, or alignment of the equipment, enhancing the reliability and quality of experimental or diagnostic results.

6. Variable Speed Control:

HTD pulleys are frequently employed to achieve variable speed control in medical and laboratory equipment. By adjusting the diameter or configuration of the pulleys and selecting the appropriate belts, the rotational speed of various components, such as sample transport systems or instrument drives, can be easily controlled. This flexibility in speed control allows for customization to specific experimental requirements, ensuring optimal performance and reproducibility.

7. Customization and System Integration:

HTD pulleys offer flexibility for customization and system integration in medical and laboratory equipment. They are available in various sizes, tooth profiles, and materials, allowing for the design and optimization of pulley systems to meet specific requirements. Pulleys can be easily integrated into existing equipment or incorporated into new system designs, providing compatibility and versatility. This facilitates the development of tailored solutions for medical and laboratory applications, optimizing performance and functionality.

In summary, HTD pulleys play a crucial role in the functioning of medical and laboratory equipment. They contribute to sample handling and transport, fluid handling and pumping, motion control in robotic systems, imaging and scanning mechanisms, instrument calibration and adjustment, variable speed control, as well as customization and system integration. By enabling precise motion control, reliable power transmission, and flexibility in system design, HTD pulleys enhance the efficiency, accuracy, and automation of processes in medical and laboratory settings.

htd pulley

What safety considerations should be kept in mind when using HTD pulleys?

When using HTD pulleys, it is important to keep several safety considerations in mind. Here’s a detailed explanation of the safety considerations associated with HTD pulley usage:

1. Machinery Guarding:

Proper machinery guarding is essential when using HTD pulleys. Machinery should be enclosed or fitted with guards to prevent accidental contact with moving pulleys and belts. Guards should be designed to restrict access to the pulley area, ensuring that operators and maintenance personnel are protected from potential hazards. This helps prevent injuries caused by entanglement, pinching, or shearing between the pulleys and other objects or body parts.

2. Lockout/Tagout Procedures:

Lockout/tagout procedures should be followed when working on machinery with HTD pulleys. Before performing any maintenance, repair, or adjustment tasks, the power source should be locked out and tagged out to prevent unexpected startup or energization. This ensures that the pulleys and associated machinery remain in a safe and de-energized state, reducing the risk of entanglement or other accidents during maintenance activities.

3. Proper Training and Procedures:

Operators and maintenance personnel should receive proper training on the safe operation and maintenance procedures related to HTD pulleys. They should be educated on the potential hazards associated with pulleys, such as pinch points, rotating parts, and the importance of following safety guidelines. Training should cover topics such as proper belt tensioning, alignment procedures, and safe handling practices to minimize the risk of accidents or injuries.

4. Personal Protective Equipment (PPE):

Appropriate personal protective equipment (PPE) should be worn when working with HTD pulleys or in the vicinity of machinery equipped with pulleys. This may include safety glasses, gloves, and protective clothing to protect against potential hazards like flying debris, chemical splashes, or accidental contact with moving parts. The specific PPE requirements should be determined based on the tasks being performed and the associated risks.

5. Regular Maintenance and Inspections:

Regular maintenance and inspections of HTD pulleys are crucial for safety and optimal performance. Pulleys should be inspected for wear, damage, or misalignment, and any issues should be promptly addressed. Routine maintenance tasks, such as belt tension checks and lubrication, should be carried out according to the manufacturer’s recommendations. This helps ensure that the pulleys operate safely and efficiently, reducing the risk of unexpected failures or accidents.

6. Risk Assessment:

A comprehensive risk assessment should be conducted when working with machinery that incorporates HTD pulleys. This assessment should identify potential hazards, evaluate the associated risks, and implement appropriate control measures to mitigate those risks. The risk assessment should take into account factors such as pulley speed, pinch points, accessibility, and the overall machinery design to establish a safe working environment.

In summary, several safety considerations should be kept in mind when using HTD pulleys. These include implementing proper machinery guarding, following lockout/tagout procedures, providing adequate training and procedures, using appropriate personal protective equipment, conducting regular maintenance and inspections, and conducting a thorough risk assessment. By addressing these safety considerations, the risks associated with HTD pulley usage can be minimized, ensuring a safe working environment for operators and maintenance personnel.

htd pulley

Can you explain the design features and profile of an HTD pulley?

An HTD pulley, which stands for “High Torque Drive” pulley, has specific design features and a unique tooth profile that distinguishes it from other pulley types. Here’s a detailed explanation of the design features and profile of an HTD pulley:

1. Tooth Profile:

The tooth profile of an HTD pulley is trapezoidal in shape. It consists of a series of trapezoidal teeth evenly spaced around the circumference of the pulley. The tooth profile is specifically designed to match the shape of HTD belts, which also have trapezoidal teeth. The trapezoidal tooth profile ensures a larger contact area between the pulley and the belt, enabling efficient power transmission and improved torque capacity.

2. Tooth Pitch:

The tooth pitch of an HTD pulley refers to the distance between the center of one tooth to the center of the adjacent tooth. HTD pulleys are available in different tooth pitches, such as 3 mm, 5 mm, 8 mm, and 14 mm, among others. The tooth pitch must match the tooth pitch of the corresponding HTD belt to ensure proper engagement and power transmission. It is essential to select a pulley with the correct tooth pitch for a given application.

3. Tooth Angle:

The trapezoidal teeth of an HTD pulley have a specific tooth angle. The tooth angle refers to the angle between the tooth face and a line perpendicular to the pulley’s axis. The tooth angle for HTD pulleys is typically 20 degrees. This angle ensures a positive engagement between the pulley and the belt, minimizing the risk of slippage and providing reliable power transmission.

4. Tooth Shape:

The teeth of an HTD pulley have a slightly curved or rounded shape to facilitate smooth engagement and disengagement with the HTD belt. The curved tooth shape allows for gradual contact between the pulley and the belt, reducing stress concentration and minimizing the risk of tooth or belt damage. The curved tooth shape also helps reduce noise and vibration during operation.

5. Flanges and Belt Retention:

HTD pulleys often feature flanges on either side of the toothed section. The flanges help keep the HTD belt properly aligned and prevent it from slipping off the pulley during operation. The flanges provide lateral guidance and improve the overall stability of the belt. In some cases, the flanges may have recessed areas or grooves to accommodate belt guides or tensioning mechanisms.

6. Material and Construction:

HTD pulleys can be made from various materials, including aluminum, steel, or plastic. The material choice depends on factors such as the application requirements, operating environment, and cost considerations. Aluminum pulleys are lightweight and commonly used in applications where weight reduction is important. Steel pulleys offer high strength and durability, suitable for heavy-duty applications. Plastic pulleys are often used in applications where corrosion resistance, low noise, and cost-effectiveness are priorities.

7. Number of Teeth:

HTD pulleys are available in different configurations with varying numbers of teeth. The number of teeth affects the speed ratio and the torque capacity of the pulley system. Pulleys with more teeth provide higher torque capacity but may result in a larger pulley size. The selection of the appropriate number of teeth depends on the specific application requirements, including the desired speed, torque, and space limitations.

In summary, an HTD pulley features a trapezoidal tooth profile designed to match HTD belts. Its design includes specific tooth pitch, tooth angle, tooth shape, flanges for belt retention, and a choice of materials. The design features and tooth profile of an HTD pulley ensure efficient power transmission, accurate timing, reduced slippage, and reliable operation in various applications requiring high torque capacity and precise synchronization.

China OEM L XL Mxl Htd T2.5 T5 T10 Timing Pulley Timing Belt Pulley   pulley bearing	China OEM L XL Mxl Htd T2.5 T5 T10 Timing Pulley Timing Belt Pulley   pulley bearing
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