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China Hot selling Dgbl 50 DC Brushless Motor 220V Gear Reduction Conveyor Drum Pulley with Rubber Sleeve for Modular Conveyor Machine pulley alternator

Product Description

Our Advantages

  • Highly customized, minimum order accept 1 roller.

    Price favorable.

    Delivery time is faster and more flexible!

     

     

Company Profile

 

Certifications

 

 

FAQ

Q: What’re your main products?

A: DC brushless motor roller/AC 3ph motor roller/Direct drive motor roller/Oil immersed motor roller/Gear reduction motor/controller box

Q: How to select a suitable motor roller?
A:If you have motor roller pictures or drawings to show us, or you have detailed specs like conveyor mode(pallet or belt),linear speed,loading weight,loading object material,roller diameter,length,voltage and noise level etc, then we can recommend suitable motor roller to you.

Q: Do you have a customized service for your standard motor rollers?
A: Yes, we can customize.

Q: Do you have an individual design service for motor rollers?
A: Yes, we would like to design roller individually for our customers. 

Q: What’s your lead time?
A: Generally speaking, our regular standard product will need 7~15days, a bit longer for customized products. But we are very flexible on the lead time, it will depend on the specific orders.

Product Description

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Material: Stainless Steel
Surface Treatment: Electroplating
Motor Type: Build-in Motor
Installation: Horizontal
Rated Speed: 1m/Min~95.4m/Min
Rated Power: 40W/80W
Samples:
US$ 200/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

gear pulley

Can gear pulleys be part of agricultural machinery and equipment?

Yes, gear pulleys can indeed be a part of agricultural machinery and equipment. They play a crucial role in various agricultural applications, contributing to the efficiency and functionality of farming operations. Here’s a detailed explanation of how gear pulleys are utilized in agricultural machinery and equipment:

1. Power Transmission:

Gear pulleys are commonly used in agricultural machinery to transmit power from the engine or motor to different components. They are employed in systems such as belt drives, chain drives, or gear drives to transfer rotational energy and enable the operation of various agricultural implements. Gear pulleys help transmit power efficiently, facilitating the movement and operation of equipment such as pumps, conveyors, augers, and harvesters.

2. Speed Control:

In agricultural machinery, gear pulleys are utilized for speed control. By using different pulley sizes and ratios, operators can adjust the rotational speed of specific components. This allows for customization of the machinery’s performance to suit different tasks and operating conditions. For example, in grain handling systems, gear pulleys can be employed to control the speed of conveyors, ensuring efficient material handling and preventing overloading or spillage.

3. Multiple Power Take-Off (PTO) Options:

Many agricultural machines are equipped with power take-off (PTO) systems that allow them to transfer power to external implements. Gear pulleys are often integrated into these PTO systems to enable power transmission. The PTO shaft from the machine is connected to the gear pulley, which, in turn, drives the implement through a belt or direct coupling. This arrangement allows for versatile operation and the use of different agricultural implements, such as mowers, balers, sprayers, and tillers.

4. Agricultural Processing Equipment:

In agricultural processing equipment, such as grain mills, oilseed presses, or feed mixers, gear pulleys are utilized for power transmission and speed control. These machines often require precise control over rotational speeds and torque to achieve desired processing results. Gear pulleys, along with appropriate drive systems, enable the efficient operation of these processing equipment, ensuring consistent and high-quality outputs.

5. Harvesting and Threshing Equipment:

Gear pulleys are an integral part of harvesting and threshing equipment used in agriculture. They help drive the components responsible for cutting, separating, and collecting crops. For example, in combine harvesters, gear pulleys are used to drive the cutting header, reel, and the straw chopper. In threshing machines, gear pulleys are employed to drive the threshing drum, concave, and cleaning system. The proper functioning of these gear pulleys is essential for efficient harvesting and threshing operations.

6. Maintenance and Replacement:

Regular maintenance and inspection of gear pulleys are necessary to ensure their reliability and performance in agricultural machinery and equipment. Operators should check for wear, damage, or misalignment of the gear teeth and pulley surfaces. Proper lubrication and tensioning of belts or chains connected to the gear pulleys are also important for their smooth operation. Timely replacement of worn or damaged gear pulleys is crucial to avoid breakdowns and maintain the productivity of agricultural machinery.

In conclusion, gear pulleys are indeed a part of agricultural machinery and equipment. They contribute to power transmission, speed control, and the efficient operation of various agricultural implements and systems. Regular maintenance and replacement of gear pulleys are necessary to ensure their reliability and optimal performance in the agricultural sector.

gear pulley

How does the gear ratio in a gear pulley affect its performance?

The gear ratio in a gear pulley has a significant impact on its performance, influencing various aspects such as speed, torque, and power transmission. Here’s a detailed explanation of how the gear ratio affects the performance of a gear pulley:

Gear Ratio Basics:

The gear ratio represents the relationship between the number of teeth on the driving gear and the number of teeth on the driven gear. It determines how many times the driving gear must rotate to make the driven gear complete one revolution. The gear ratio is typically expressed as a numerical ratio or as a fraction.

Speed:

The gear ratio directly affects the speed of the driven gear relative to the driving gear. A gear pulley with a higher gear ratio, where the driving gear has more teeth than the driven gear, will result in a lower speed at the driven gear. Conversely, a gear pulley with a lower gear ratio, where the driven gear has more teeth, will result in a higher speed at the driven gear. Therefore, the gear ratio determines the speed reduction or amplification between the driving and driven gears.

Torque:

The gear ratio also influences the torque at the driven gear. Torque is a rotational force that determines the system’s ability to overcome resistance or to perform work. A gear pulley with a higher gear ratio, where the driving gear has more teeth, will result in a torque amplification at the driven gear. This means that the driven gear can exert greater force or torque on the load or system it is connected to. Conversely, a gear pulley with a lower gear ratio, where the driven gear has more teeth, will result in a torque reduction at the driven gear. In this case, the driven gear will exert less force or torque, but it will be able to rotate at a higher speed.

Power Transmission:

The gear ratio affects the power transmission capabilities of the gear pulley system. Power is the rate at which work is done or energy is transferred. The gear ratio determines how the power is distributed between the driving and driven gears. In a gear pulley system, the power is equal to the product of torque and rotational speed. A higher gear ratio will result in a higher torque at the driven gear, allowing it to transmit more power to the connected system. Conversely, a lower gear ratio will result in a higher speed at the driven gear, enabling it to transmit power at a faster rate.

Mechanical Advantage:

The gear ratio provides mechanical advantage in a gear pulley system. Mechanical advantage refers to the ability of a system to amplify force or torque. A gear pulley with a higher gear ratio provides a greater mechanical advantage, allowing it to handle heavier loads or perform tasks that require more force. On the other hand, a gear pulley with a lower gear ratio provides a lower mechanical advantage but allows for higher speeds and faster operation.

Efficiency:

The gear ratio can also impact the overall efficiency of the gear pulley system. In general, gear systems with higher gear ratios tend to have lower efficiency due to increased friction and power losses. The additional teeth in the gear train result in more contact points and increased surface area, leading to higher friction losses. Therefore, it is important to consider the trade-off between speed, torque, and efficiency when selecting the gear ratio for a specific application.

Overall, the gear ratio in a gear pulley significantly affects its performance, including speed, torque, power transmission, mechanical advantage, and efficiency. By selecting the appropriate gear ratio, engineers and designers can optimize the gear pulley system for specific applications, ensuring the desired balance between speed, torque, and efficiency based on the requirements of the machinery or system.

gear pulley

What is a gear pulley, and how does it function in mechanical systems?

A gear pulley, also known as a gear and pulley system, combines the functionality of gears and pulleys to transmit power and control the speed and torque in mechanical systems. Here’s an explanation of what a gear pulley is and how it functions:

A gear pulley is a mechanical system that consists of two or more gears and one or more pulleys connected together. Gears are toothed wheels that mesh together to transmit rotational motion and torque, while pulleys are grooved wheels that use a belt or a rope to transmit motion and force. By combining these two components, a gear pulley system can achieve various mechanical advantages and control the speed and torque of the system.

The functioning of a gear pulley system can be understood through the following key points:

  1. Power Transmission: The primary function of a gear pulley system is to transmit power from one component to another. When the input gear or pulley is rotated, it causes the corresponding output gear or pulley to rotate as well. This rotation transfers power from the input to the output, allowing the system to perform work. The gears and pulleys enable the power to be transmitted efficiently and effectively across the system.
  2. Mechanical Advantage: Gear pulley systems provide mechanical advantage, allowing for the amplification or reduction of force and torque. Gears, with their different sizes and number of teeth, can change the rotational speed and torque of the system. By selecting gears with different ratios, the gear pulley system can increase the torque output while reducing the rotational speed (increased force, decreased speed) or increase the rotational speed while reducing the torque output (decreased force, increased speed).
  3. Speed Control: One of the key functions of a gear pulley system is speed control. By using gears with different sizes, the system can adjust the speed at which the output component rotates. Larger gears will result in slower output speed, while smaller gears will result in faster output speed. This feature is especially useful in applications where precise speed control is required, such as in machinery and automotive systems.
  4. Direction Control: The arrangement of gears and pulleys in a gear pulley system can also control the direction of rotation. By using various gear configurations, such as spur gears, bevel gears, or worm gears, the system can achieve different rotational directions. This allows for versatile control and manipulation of the mechanical system based on the desired outcome.
  5. Tension and Belt Control: In gear pulley systems that incorporate belts or ropes, the pulleys play a crucial role in maintaining tension and controlling the movement of the belts. The grooves on the pulleys ensure that the belts remain in place and transmit force efficiently. By adjusting the size and position of the pulleys, the tension in the belts can be controlled, ensuring smooth operation and reducing slippage.
  6. Transfer of Motion: A gear pulley system can transfer motion and power between non-parallel shafts, allowing for flexibility in mechanical designs. By using appropriate gears and pulleys, the system can change the direction of rotation, transfer motion at different angles, and transmit power between components that are not directly in line with each other. This versatility expands the range of applications where gear pulley systems can be employed.

In summary, a gear pulley system combines gears and pulleys to transmit power, control speed and torque, and achieve mechanical advantages in mechanical systems. By selecting appropriate gear ratios, sizes, and configurations, gear pulley systems provide efficient power transmission, speed control, direction control, tension control, and the transfer of motion in a wide range of applications.

China Hot selling Dgbl 50 DC Brushless Motor 220V Gear Reduction Conveyor Drum Pulley with Rubber Sleeve for Modular Conveyor Machine   pulley alternatorChina Hot selling Dgbl 50 DC Brushless Motor 220V Gear Reduction Conveyor Drum Pulley with Rubber Sleeve for Modular Conveyor Machine   pulley alternator
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