Drive Motion Flow Wheel Pulley Large Range Speed Ratio Large Payload Low Backlash Reducer Hub Planetary Gearbox AGV
PLANETX planetary reduce
AGV reducer advantage:
AGV reducer is also a kind of planetary reducer. By changing the output mode of the planetary mechanism, we can convert the standard shaft output to the internal gear ring output, so as to achieve the purpose of outer ring rotation. The successful development of this product meets the requirements of similar products with the highest transmission efficiency value and the lowest axial length value. It successfully solves the shortcomings of AGV logistics trolley in limiting the axial size of deceleration installation and the large loss of transmission efficiency of ordinary reducer.
The minimum single-stage reduction of AGV reducer can be 2, the maximum speed ratio generally does not exceed 9, the common reduction ratio is 3, 4, 6, 9, and the number of reducer stages generally does not exceed 2, and the speed ratio does not exceed 50; Due to the adoption of planetary transmission mechanism, the rotary accuracy can be comparable to that of standard planets, up to 3 minutes of arc. The operating temperature can be between – 40 ºC and 120 ºC.
The transmission efficiency is high, the axial dimension is short, the structure is compact, and the AGV structure is simplified.
|Rated output torque
|Rated input speed
|Maximum radial bearing capacity
|Maximum axial bearing capacity
|Full load efficiency
|Degree of protection
|Hub stress mode
|Long term effect
|Long term effect
|Long term effect
|Long term effect
|Customizable reduction ratio
|3:1 4:1 6:1 9:1 15:1 21:1 28:1 30:1 40:1 42:1 60:1
HangZhou CHINAMFG Transmission Equipnenit Co,Ltd
is based on the global industrial automation field. it is
saies of planetary reducers, hollow rotary platforrres,
a manufacturer specializing in R&D, production and
and special reducers. It belongs to “National High-tech
Enterprise”. The headquarters and production center are located in HangZhou City,ZheJiang Province, which is known as the “world factory”, and there are service centers and transit warehouses in ZheJiang . ZheJiang ,HangZhou and other places.
The company’s core team members have more than 10 years of experience in the transmission industry and gear processing industry, and are good at solving a variety of internal and external gears and processing solutions. The company has summed up a complete set of “transmission quality management system” to ensure the relative accuracy of each component after combination,and provide high pass rate and high efficiency guarantee for the whole machine to leave the factory. We use advanced computer software for design and demonstration,combined with years of experience in mechanical transmission and motion
control, to provide global motion and control solutions. Our products have the characteristics of high precision, large bearing torque, long life, low noise, stable operation, strong versatility and maintenance-free Quality is the foundation of enterprise survival. We provide the market with stable and high-quality products and provide more optimized automation
solutions. Always take “user demand” as the business purpose of the enterprise, take “scientific and
technological innovation” as the foundation of the company’s development, and implement the Iso
quality management system operation into all aspects of the company.
Our products are widely used in aerospace,CNC machine tools, cutting and welding equipment,textile printing and dyeing machinery packaging machinery, food machinerymedical machineryships,radardata communication systems,robots,robotic arms, composite materials equipmentprecision testing
Instruments, testing machines,plastic machinery, glass machinery,coal mining machinery,lifting machinery, metallurgical machinery,construction machinery and other fields.
The process of our pursuit of success is the process of continuous sublimation of our relationship with you. The success of the company is inseparable from the long-term support and help of many customers and friends. Facing the future, we will serve you more. HangZhou CHINAMFG Transmission Equipment Co.,Ltd. will go hand in hand with you to create brilliant!
Authoritative certification, guarantee of Xinnai
The company has long adhered to the business policy of “technical progress as the guide, quality improvement as the main line, fully optimize the overall quality of the enterprise, and then meet the needs of the society for development”.
Q: How to get a quick quote
A: Please provide the following information when contacting us
- Motor brand
- Motor model
- Motor dimension drawing
- What is the gear ratio
Q: How long is your delivery date
A: We all install it now, but it takes 3-5 days if it is not non-standard. Non standard 10-15 days, depending on the specific situation
Q:Do you provide samples, free or extra
A: A: You can reserve 1 first, and purchase it on demand
How do drive pulleys contribute to the functioning of conveyor belts and escalators?
Drive pulleys play a crucial role in the functioning of conveyor belts and escalators by providing the necessary power transmission and control. They enable the movement of materials or people along a defined path, offering efficiency, reliability, and safety. Here’s a detailed explanation of how drive pulleys contribute to the functioning of conveyor belts and escalators:
In conveyor belt systems, drive pulleys are typically located at the ends of the conveyor, where they provide the driving force to move the belt and transport materials from one point to another. Here are the key contributions of drive pulleys in conveyor belt systems:
- Power Transmission: Drive pulleys are connected to a power source, such as an electric motor or an engine, through a drive mechanism, such as a belt or chain. They transfer rotational motion and torque from the power source to the conveyor belt, allowing it to move and carry materials along the desired path.
- Tension Control: Drive pulleys are often equipped with tensioning mechanisms, such as adjustable bearings or take-up systems. These mechanisms help maintain the proper tension in the conveyor belt, ensuring optimal grip between the pulleys and the belt. Proper tension is crucial for preventing belt slippage, ensuring efficient power transmission, and minimizing the risk of material spillage.
- Belt Tracking: Drive pulleys, along with idler pulleys, help maintain proper belt tracking. They guide the conveyor belt and keep it centered on the pulleys, preventing it from veering off course. Proper belt tracking ensures smooth and consistent movement, reducing the risk of damage to the belt and improving overall system performance.
- Load Carrying Capacity: Drive pulleys are designed to withstand the load placed on the conveyor belt. They are typically larger and stronger than other pulleys in the system to handle the weight of the materials being transported. The robust construction of drive pulleys enables them to carry heavy loads and maintain the integrity of the conveyor system.
In escalator systems, drive pulleys are used to provide the power and control necessary for the movement of the escalator steps. Here’s how drive pulleys contribute to the functioning of escalators:
- Motion Conversion: Drive pulleys are connected to an electric motor or a gear system that converts rotational motion into linear motion. The drive pulleys transfer the rotational force to the escalator step chains or belts, causing them to move in a continuous loop and ensuring the upward or downward movement of the steps.
- Tension Control: Drive pulleys in escalators often incorporate tensioning mechanisms to maintain the proper tension in the step chains or belts. Adequate tension is crucial for smooth and reliable movement of the steps, ensuring passenger safety and minimizing the risk of slippage or derailment.
- Speed Control: By adjusting the speed of the drive pulleys, the overall speed of the escalator can be controlled. The rotational speed of the drive pulleys determines the speed at which the steps move, allowing for variable speed operation to match the desired passenger flow or system requirements.
- Emergency Stop Function: Drive pulleys are equipped with safety features, such as emergency stop buttons or systems, to quickly halt the escalator’s operation in case of an emergency. These safety mechanisms disengage the drive pulleys, stopping the movement of the steps and ensuring passenger safety.
In summary, drive pulleys are essential components in both conveyor belt and escalator systems. They provide power transmission, tension control, belt tracking, load carrying capacity, and speed control. By efficiently transferring rotational motion and torque, drive pulleys enable the reliable and safe movement of materials on conveyor belts and people on escalators.
How are drive pulleys utilized in agricultural machinery and equipment?
Drive pulleys play a crucial role in various agricultural machinery and equipment, enabling the transfer of power and motion between different components. Here are some common applications of drive pulleys in agriculture:
1. Belt-driven Systems:
Many agricultural machines use belt-driven systems, where drive pulleys are utilized to transmit power from the engine to different components. For example, in combines and harvesters, drive pulleys connect the engine to the threshing mechanism, cleaning system, and grain handling equipment. These pulleys help drive the belts that transfer power and enable the operation of different functions within the machine.
2. Conveyor Systems:
In agricultural operations such as grain handling facilities, drive pulleys are used in conveyor systems. These pulleys provide the driving force to move materials such as grains, seeds, or feed along the conveyor belts. The drive pulley’s rotation creates the necessary tension and friction to propel the belt, allowing for efficient and controlled material handling and transportation.
3. Augers and Grain Handling Equipment:
Drive pulleys are integral components of augers and other grain handling equipment. Augers are commonly used in agriculture for tasks like loading and unloading grain, transferring feed, or moving bulk materials. Drive pulleys are used to power the rotational motion of the auger, enabling efficient and precise material handling. The pulley’s size and speed determine the auger’s capacity and performance.
4. Irrigation Systems:
Irrigation systems in agriculture often utilize drive pulleys to transmit power from a motor or engine to pumps or water distribution mechanisms. The pulleys drive belts that connect the power source to the irrigation pump, allowing for the pressurized delivery of water to crops. Drive pulleys help regulate the speed and torque required for efficient irrigation operations.
5. Mowers and Hay Balers:
Drive pulleys are employed in mowers and hay balers used for cutting and baling crops such as grass, hay, or straw. These pulleys transfer power from the tractor’s engine to the cutting blades or baling mechanisms, enabling the efficient operation of these machines. The pulleys ensure that the rotational energy from the engine is effectively converted into the desired cutting or baling action.
6. Seeders and Planters:
Seeders and planters in agriculture often rely on drive pulleys to power the distribution mechanisms that sow seeds or plant seedlings. The pulleys drive belts or chains that rotate the seed metering units or planting mechanisms, ensuring precise seed or plant placement in the field. This allows for accurate spacing and depth control during the planting process.
7. Sprayers and Fertilizer Spreaders:
Drive pulleys are utilized in sprayers and fertilizer spreaders to power the spraying or spreading mechanisms. These pulleys transfer power from the engine to the spraying pump or spreader discs, enabling the even distribution of liquid fertilizers, pesticides, or granular materials. The pulleys help maintain the desired rotation speed and torque for effective application.
In summary, drive pulleys are extensively used in various agricultural machinery and equipment for power transmission and motion control. They are employed in belt-driven systems, conveyor systems, augers, irrigation systems, mowers, balers, seeders, planters, sprayers, and fertilizer spreaders. By facilitating the transfer of power, drive pulleys contribute to the efficient operation of agricultural processes, enhancing productivity and performance.
How does the size and design of a drive pulley affect its performance?
The size and design of a drive pulley have a significant impact on its performance and the overall operation of a power transmission system. The size and design of a drive pulley influence various aspects such as speed, torque, power transfer efficiency, belt or chain life, and system reliability. Here are the key ways in which the size and design of a drive pulley affect its performance:
1. Speed and Torque:
The size of a drive pulley directly affects the speed and torque of the power transmission system. A larger pulley diameter results in higher belt or chain speed and lower torque output. Conversely, a smaller pulley diameter increases torque output but reduces belt or chain speed. By selecting the appropriate pulley size, the system can be optimized to achieve the desired speed and torque requirements for the driven components.
2. Mechanical Advantage:
The design and size ratio between the driving and driven pulleys determine the mechanical advantage of the power transmission system. By using different-sized pulleys or multiple pulley arrangements, the mechanical advantage can be increased or decreased. This affects the force or torque that can be transmitted from the driving source to the driven components. The mechanical advantage provided by the pulley design influences the system’s ability to handle loads or resistance efficiently.
3. Power Transfer Efficiency:
The design and size of a drive pulley impact the power transfer efficiency of the system. An appropriately sized pulley with the right groove profile facilitates proper belt or chain engagement, reducing slippage and power losses. A well-designed pulley minimizes friction and improves the grip between the pulley and the belt or chain, enhancing power transmission efficiency. Proper pulley design, such as V-grooves or toothed profiles, ensures efficient power transfer and reduces energy losses.
4. Belt or Chain Life:
The size and design of a drive pulley can significantly affect the life and durability of the belt or chain used in the power transmission system. Improper pulley design, such as sharp edges or inadequate groove profiles, can cause premature wear and damage to the belt or chain. Additionally, excessive belt tension resulting from an undersized pulley can lead to accelerated belt wear. Choosing the correct pulley size and design helps optimize belt or chain life, reducing maintenance costs and downtime.
5. Vibration and Noise:
The size and design of a drive pulley can influence the level of vibration and noise in the power transmission system. Improperly designed or unbalanced pulleys can introduce vibration, leading to increased wear and reduced system performance. The design of the pulley, such as the groove profile and the use of vibration-damping materials, can help minimize vibration and noise, ensuring smoother operation and improved system reliability.
6. Belt or Chain Tension and Alignment:
The size and design of a drive pulley affect belt or chain tension and alignment in the power transmission system. An undersized pulley can result in excessive belt or chain tension, leading to increased wear and reduced efficiency. Proper pulley design, including adequate groove width and profile, ensures optimal belt or chain engagement, minimizing tension and alignment issues. This promotes longer belt or chain life and reduces the risk of premature failure.
7. System Compactness and Space Constraints:
The size and design of a drive pulley also play a role in system compactness and space constraints. In applications where space is limited, smaller pulleys may be preferred to achieve the desired speed and torque. Conversely, larger pulleys may be required to accommodate higher power requirements or to optimize the mechanical advantage. The compactness and size of the pulley design should be considered to ensure proper installation and efficient use of available space.
In summary, the size and design of a drive pulley have a significant impact on its performance. They influence speed, torque, power transfer efficiency, belt or chain life, vibration, noise, tension, alignment, and system compactness. Careful consideration of these factors is essential in selecting the appropriate pulley size and design to optimize the performance, reliability, and efficiency of the power transmission system.
editor by CX