Product Description
Surface treatment for CNC Machining part:
1 | Zinc/nickel/chrome plating |
2 | hot galvanized |
3 | painting |
4 | powder coating |
5 | Anodize Oxidation, or with colors: like silver, blue, red, etc. |
6 | plating, silver-plated, Gold-plated, etc |
7 | polishing |
8 | electrolytic polishing |
9 | sank without electricity nickel |
etc | etc. |
HangZhou CHINAMFG Machinery Co., Ltd. is located in HangZhou, HangZhou. Based on the advantages of specialized talents, it has formed 4 professional project sections with excellent technical equipment, sound quality assurance system and standardized production environment: mechanical processing, sheet metal stamping production, Mold manufacturing, high-speed rice transplanter, with the high recognition of the majority of mature customers, cast the “Xin Rifeng” brand in the industry’s CHINAMFG position, and strive to build an intelligent manufacturing service system.
It is people-oriented, Difeng people focus on the production of high-quality rice transplanter planting department with high quality and advanced technology, all kinds of mold design, R&D and manufacturing required for sheet metal stamping; at the same time, develop continuous die and welding.
We always adhere to the customer’s position to solve the problem, the product to achieve process optimization, reduce costs, and continue to reduce materials for the purpose, so for the domestic major Asian high-speed main engine factory and high-speed rice transplanter market, some products are sold to Pakistan, Vietnam, Countries and regions such as India. It has successively become an excellent supplier of domestic famous enterprises such as Japanese Yanmar, Japan Kubota, Nideko Electric, Hailiwei and ZheJiang Xihu (West Lake) Dis.. The company has successively obtained the “HangZhou Small and Medium-sized Specialized Special New Product (Technology) Certificate” and “ISO9001 Quality Certification” and successfully registered the “Xin Rifeng” trademark.
Workshop equipment
Certifications
Packaging & Shipping
FAQ
Q1: Are you a factory or a trading company?
A1: We are a professional manufacturer of CNC parts for over 14 years.
Q2: How can I get quotation?
A2: Please help to send drawing (2D and 3D drawing) to us, so we can know the raw material, size and surface treatment, tolerance and other details of the product. And also inform us the quantity you need.
Q3: What kind of material you can process?
A3: Normally Aluminum alloy and stainless steel, but we also can do titanium alloy steel, copper alloy steel special alloy steel and non-metal material.
Q4: What is the minimum size tolerance you can do?
A4: The minimum size tolerance we can do is 0.001mm.
Q5: What is the biggest range you can do?
A5: The biggest range we can do is 1500mm.
Q6: Can you do precise and complicated CNC parts?
A6: Yes, we can do precise and complicated CNC parts by our 5/4/3 axis CNC machines
Q7: Can you accept sample order?
A7: Yes, we can do sample order per your requirement.
Q8:Can you accept custom packing?
A8: Yes, we can do custom packing as your requirement.
After-sales Service: | Lifelong After-Sales Service |
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Application: | Cow |
Power Source: | Electric |
Heating and Ventilation Equipment Type: | Hot Blast Stove |
Epidemic Prevention Equipment: | Aerosol Immune Machine |
Certification: | CE |
Samples: |
US$ 1/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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How do timing pulley systems ensure synchronized motion?
Timing pulley systems play a crucial role in ensuring synchronized motion in various mechanical systems. Here’s how timing pulley systems achieve synchronized motion:
1. Toothed Design:
Timing pulleys have teeth or grooves on their periphery that mesh with the teeth on the timing belt or chain. The toothed design creates positive engagement between the pulley and the belt or chain, preventing slippage and maintaining precise synchronization.
2. Timing Belts or Chains:
The timing pulley system works in conjunction with a timing belt or chain. The teeth on the belt or chain interlock with the teeth on the pulley, ensuring that the rotational motion is transferred accurately from the driving pulley to the driven pulley. The precise engagement of the teeth allows for synchronized motion between the pulleys.
3. Constant Pitch:
The teeth on the timing belt or chain and the corresponding teeth on the timing pulleys have a consistent pitch. The pitch refers to the distance between the teeth, and it remains constant throughout the length of the belt or chain. This constant pitch ensures that the teeth on the belt or chain engage with the pulley teeth at the same rate, maintaining synchronized motion.
4. Precise Manufacturing Tolerances:
Timing pulley systems are manufactured with tight tolerances to ensure accurate tooth profiles and consistent dimensions. The teeth on the pulleys and the teeth on the belt or chain are designed to match precisely, allowing for seamless interaction and precise synchronization. High manufacturing tolerances contribute to the reliability and efficiency of the system.
5. Tension Control:
Proper tension control is vital for achieving synchronized motion in a timing pulley system. The tension in the timing belt or chain needs to be adjusted correctly to ensure optimal engagement with the pulleys. Tensioners and idler pulleys are often used to maintain the appropriate tension, ensuring that the belt or chain remains securely engaged with the pulleys.
6. Suitable Pulley and Belt/Chain Selection:
Choosing the appropriate combination of timing pulleys and timing belts or chains is crucial for achieving synchronized motion. Factors such as pulley diameter, number of teeth, belt or chain pitch, and material selection need to be considered to match the specific requirements of the application. Proper selection ensures that the pulley system operates with accurate timing and synchronized motion.
7. Regular Maintenance and Inspection:
To ensure continued synchronized motion, regular maintenance and inspection of the timing pulley system are necessary. This includes checking for wear, proper tension, and alignment, and replacing any worn-out components. Routine maintenance helps identify and address potential issues that could affect the synchronized motion of the system.
By incorporating toothed design, timing belts or chains, constant pitch, precise manufacturing tolerances, tension control, suitable pulley and belt/chain selection, and regular maintenance, timing pulley systems ensure synchronized motion in mechanical systems. This synchronization is essential for accurate timing, coordination, and efficient operation of various applications.
What are the common applications of timing pulleys in robotics?
Timing pulleys play a vital role in various applications within the field of robotics. Here are some common applications of timing pulleys in robotics:
1. Robotic Arm Movement:
Timing pulleys are often used to control the movement of robotic arms. By connecting the motor to the driving pulley and the arm joint to the driven pulley with a timing belt or chain, the rotational motion of the motor is converted into precise and synchronized movement of the arm. This allows robots to perform tasks that require accurate positioning and controlled motion, such as pick-and-place operations in manufacturing or assembly processes.
2. Joint Actuation:
Robotic joints rely on timing pulleys to provide rotational movement. The driving pulley is connected to the motor, while the driven pulley is linked to the joint axis through a timing belt or chain. This configuration facilitates precise and coordinated movement of the robotic joint, enabling robots to perform tasks that require flexibility and dexterity, such as reaching different positions, manipulating objects, or mimicking human-like motions.
3. Linear Actuators:
Timing pulleys are utilized in linear actuator systems within robotics. By connecting the motor to the driving pulley and a linear mechanism, such as a lead screw or a linear belt, to the driven pulley, linear motion can be achieved. This enables robots to perform linear movements, such as extending or retracting a robotic arm or a gripper, adjusting the height of a platform, or executing precise linear positioning tasks.
4. Conveyor Systems:
Timing pulleys are employed in robotic conveyor systems to control the movement of objects or workpieces. By connecting the motor to the driving pulley and the conveyor belt to the driven pulley, the rotational motion of the motor is transferred to the conveyor belt, enabling the transportation of items. Timing pulleys ensure precise and synchronized movement of the conveyor belt, allowing robots to handle material handling tasks efficiently in industries such as logistics, manufacturing, and packaging.
5. Robot Mobility:
Timing pulleys are utilized in robotic mobility systems, such as wheeled or tracked robots. By connecting the motor to the driving pulley and the wheel or track mechanism to the driven pulley with a timing belt or chain, rotational motion is converted into linear motion, enabling the robot to move. Timing pulleys ensure precise and coordinated movement of the wheels or tracks, allowing robots to navigate and maneuver effectively in various environments.
6. Gripping and Manipulation:
Timing pulleys are employed in robotic gripper systems for precise gripping and manipulation of objects. By connecting the motor to the driving pulley and the gripper mechanism to the driven pulley, the rotational motion is converted into controlled gripping and releasing motions. Timing pulleys enable accurate and synchronized movement of the gripper, allowing robots to handle objects of different shapes, sizes, and weights with precision.
7. Articulated Limbs and Biomechanical Robotics:
Timing pulleys are used in robotics applications that aim to mimic human or animal movements. They are employed in the design of articulated limbs and biomechanical robots to provide precise and coordinated motion similar to natural joints and muscles. The timing pulleys facilitate the controlled movement of the robotic limbs, enabling robots to perform tasks that require lifelike motion, such as prosthetics, exoskeletons, or research in the field of biomechanics.
These are just a few examples of the common applications of timing pulleys in robotics. The precise and synchronized movement enabled by timing pulleys is crucial in achieving accurate and controlled robotic operations in various industries and research fields.
In which industries are timing pulleys commonly employed?
Timing pulleys find application in various industries where precise motion control, accurate timing, and reliable power transmission are crucial. Here are some industries where timing pulleys are commonly employed:
1. Manufacturing and Automation:
Timing pulleys are extensively used in manufacturing and automation industries. They play a vital role in conveyor systems, robotic arms, pick-and-place machines, packaging equipment, and assembly lines. Timing pulleys ensure precise movement, synchronization, and positioning of components, facilitating efficient and automated production processes.
2. Automotive and Transportation:
The automotive and transportation industries rely on timing pulleys for engine timing and power transmission. Timing pulleys are used in internal combustion engines to synchronize the rotation of the camshaft and crankshaft, ensuring proper valve timing. They are also employed in various vehicle systems such as steering, air conditioning, and powertrain components.
3. Aerospace and Aviation:
In the aerospace and aviation industries, timing pulleys are utilized in applications that require precise motion control and synchronization. They are used in aircraft engines, flight control systems, landing gear mechanisms, and wing flap systems. Timing pulleys contribute to the safety, efficiency, and reliability of aircraft operations.
4. Medical and Healthcare:
In the medical and healthcare fields, timing pulleys are utilized in medical devices, diagnostic equipment, surgical robots, and imaging systems. They enable precise movement and positioning in equipment such as infusion pumps, robotic surgery systems, and CT scanners. Timing pulleys contribute to accurate procedures, patient safety, and improved healthcare outcomes.
5. Printing and Paper Handling:
Printing presses and paper handling equipment utilize timing pulleys to ensure precise paper feeding, registration, and tension control. Timing pulleys enable accurate and synchronized movement of paper rolls, sheets, or labels, ensuring high-quality printing and efficient paper handling processes.
6. Textile and Garment Industry:
In the textile and garment industry, timing pulleys are employed in textile machinery, knitting machines, and sewing equipment. They assist in controlling the movement of fabric, yarn, and threads, ensuring precise and synchronized operations. Timing pulleys contribute to the efficiency and quality of textile and garment production processes.
7. Industrial Automation and Robotics:
Timing pulleys have widespread usage in industrial automation and robotics applications. They are employed in robotic arms, CNC machines, automated guided vehicles (AGVs), and material handling systems. Timing pulleys enable precise and synchronized movement, enhancing productivity, accuracy, and efficiency in industrial automation processes.
8. Semiconductor and Electronics:
The semiconductor and electronics industries utilize timing pulleys in equipment such as wafer handling systems, pick-and-place machines, and semiconductor manufacturing equipment. Timing pulleys ensure precise positioning, alignment, and synchronization of delicate components, contributing to the manufacturing of high-quality electronic devices.
These are just a few examples of industries where timing pulleys are commonly employed. Their versatile nature and ability to provide precise motion control make them valuable components in various applications across different sectors.
editor by CX
2023-10-04