China Good quality Made-to-Order Black Oxidized Drive Pulleys crankshaft pulley

Product Description

CHINAMFG Machinery offers a wide range of high quality Timing Belt Pulleys and Toothed Bars/ Timing Bars. Standard and non-standard pulleys according to drawings are available.

 
Types of material:
  1. AlCuMgPb 6061 6082 Aluminum Timing Pulley
  2. C45E 1045 S45C Carbon Steel Timing Pulley
  3. GG25 HT250 Cast Iron Timing Pulley
  4. SUS303 SUS304 AISI431 Stainless Steel Timing Pulley
  5. Other material on demand, such as cooper, bronze and plastic
 
Types of surface treatment
 1.  Anodized surface -Aluminum Pulleys
 2.  Hard anodized surface — Aluminum Pulleys
 3.  Black Oxidized surface — Steel Pulleys
 4. Zinc plated surface — Steel Pulleys
 5. Chromate surface — Steel Pulleys; Cast Iron Pulleys
 6. Nickel plated surface –Steel Pulleys; Cast Iron Pulleys
 
Types of teeth profile

Teeth Profile Pitch
HTD 3M,5M,8M,14M,20M
AT AT5,AT10,AT20
T T2.5,T5,T10
MXL 0.08″(2.032MM)
XL 1/5″(5.08MM)
L 3/8″(9.525MM)
H 1/2″(12.7MM)
XH 7/8″(22.225MM)
XXH 1 1/4″(31.75MM)
STS STPD S2M,S3M,S4.5M,S5M,S8M,S14M
RPP RPP5M,RPP8M,RPP14M,RPP20M
PGGT PGGT  2GT, 3GT and 5GT
PCGT GT8M,GT14M

 
Types of pitches and sizes

Imperial Inch Timing Belt Pulley,
1.     Pilot Bore MXL571 for 6.35mm timing belt; teeth number from 16 to 72;
2.  Pilot Bore XL037 for 9.53mm timing belt; teeth number from 10 to 72;
3.  Pilot Bore, Taper Bore L050 for 12.7mm timing belt; teeth number from 10 to 120;
4.  Pilot Bore, Taper Bore L075 for 19.05mm timing belt; teeth number from 10 to 120;
5.  Pilot Bore, Taper Bore L100 for 25.4mm timing belt; teeth number from 10 to 120;
6.  Pilot Bore, Taper Bore H075 for 19.05mm timing belt; teeth number from 14 to 50;
7.  Pilot Bore, Taper Bore H100 for 25.4mm timing belt; teeth number from 14 to 156;
8.  Pilot Bore, Taper Bore H150 for 38.1mm timing belt; teeth number from 14 to 156;
9.  Pilot Bore, Taper Bore H200 for 50.8mm timing belt; teeth number from 14 to 156;
10.  Pilot Bore, Taper Bore H300 for 76.2mm timing belt; teeth number from 14 to 156;
11.  Taper Bore XH200 for 50.8mm timing belt; teeth number from 18 to 120;
12.  Taper Bore XH300 for 76.2mm timing belt; teeth number from 18 to 120;
13.  Taper Bore XH400 for 101.6mm timing belt; teeth number from 18 to 120;

Metric Timing Belt Pulley T and AT
1.  Pilot Bore T2.5-16 for 6mm timing belt; teeth number from 12 to 60; 
2.   Pilot Bore T5-21 for 10mm timing belt; teeth number from 10 to 60; 
3.   Pilot Bore T5-27 for 16mm timing belt; teeth number from 10 to 60; 
4.   Pilot Bore T5-36 for 25mm timing belt; teeth number from 10 to 60; 
5.   Pilot Bore T10-31 for 16mm timing belt; teeth number from 12 to 60; 
6.   Pilot Bore T10-40 for 25mm timing belt; teeth number from 12 to 60; 
7.   Pilot Bore T10-47 for 32mm timing belt; teeth number from 18 to 60; 
8.   Pilot Bore T10-66 for 50mm timing belt; teeth number from 18 to 60;
9.  Pilot Bore AT5-21 for 10mm timing belt; teeth number from 12 to 60;
10. Pilot Bore AT5-27 for 16mm timing belt; teeth number from 12 to 60;
11. Pilot Bore AT5-36 for 25mm timing belt; teeth number from 12 to 60; 
12. Pilot Bore AT10-31 for 16mm timing belt; teeth number from 15 to 60; 
13. Pilot Bore AT10-40 for 25mm timing belt; teeth number from 15 to 60; 
14. Pilot Bore AT10-47 for 32mm timing belt; teeth number from 18 to 60; 
15. Pilot Bore AT10-66 for 50mm timing belt; teeth number from 18 to 60;
  
Metric Timing Belt Pulley HTD3M, 5M, 8M, 14M 
1.  HTD3M-06; 3M-09; 3M-15; teeth number from 10 to 72; 
2.  HTD5M-09; 5M-15; 5M-25; teeth number from 12 to 72; 
3.  HTD8M-20; 8M-30; 8M-50; 8M-85 teeth number from 22 to 192; 
4.  HTD14M-40; 14M-55; 14M-85; 14M-115; 14M-170; teeth number from 28-216; 
5.  Taper Bore HTD5M-15; 8M-20; 8M-30; 8M-50; 8M-85; 14M-40; 14M-55; 14M-85;
         14M-115; 14M-170

Metric Timing Belt Pulleys for Poly Chain GT2 Belts 
1.      PCGT8M-12; PCGT8M-21; PCGT8M-36; PCGT8M-62; 
2.      PCGT14M-20; PCGT14M-37; PCGT14M-68; PCGT14M-90; PCGT14M-125;

Power Grip CHINAMFG Tooth/ PGGT 2GT, 3GT and 5GT 
1. 2GT-06, 2GT-09 for timing belt width 6mm and 9mm 
2. 3GT-09, 3GT-15 for timing belt width 9mm and 15mm 
3. 5GT-15, 5GT-25 for timing belt width 15mm and 25mm

OMEGA RPP HTD Timing Pulleys 
1.   RPP3M-06; 3M-09; 3M-15; teeth number from 10 to 72; 
2.   RPP5M-09; 5M-15; 5M-25; teeth number from 12 to 72; 
3.   RPP8M-20; 8M-30; 8M-50; 8M-85 teeth number from 22 to 192; 
4.   RPP14M-40; 14M-55; 14M-85; 14M-115; 14M-170; teeth number from 28-216; 
5.  Taper Bore RPP5M-15; 8M-20; 8M-30; 8M-50; 8M-85; 14M-40; 14M-55; 14M-85;
     14M-115; 14M-170 /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Pulley Sizes: Timing
Manufacturing Process: Sawing
Material: Steel 1045, S45c, C45e
Samples:
US$ 3/Piece
1 Piece(Min.Order)

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Customization:
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drive pulley

Can drive pulleys withstand extreme environmental conditions?

Drive pulleys are mechanical components used in various systems to transmit power and motion. They are commonly found in industries such as manufacturing, mining, and agriculture. The ability of drive pulleys to withstand extreme environmental conditions depends on several factors, including the materials used, the design and construction of the pulley, and the specific conditions it is exposed to.

In general, drive pulleys are designed to be durable and capable of operating under a wide range of environmental conditions. They are typically made from materials such as steel, cast iron, or aluminum, which offer good strength and resistance to wear and corrosion. These materials can withstand moderate to high temperatures, as well as exposure to moisture, dust, and other contaminants.

However, there are limits to the environmental conditions that drive pulleys can withstand. Extreme temperatures, such as those found in extremely hot or cold environments, can affect the performance and lifespan of the pulleys. High temperatures can cause thermal expansion, which may lead to misalignment or excessive wear. Cold temperatures can make materials more brittle and prone to cracking or breaking under stress.

In addition to temperature, other environmental factors such as humidity, corrosive substances, and abrasive particles can also impact the performance of drive pulleys. High humidity levels can promote corrosion, especially if the pulleys are not properly protected or coated with suitable protective finishes. Corrosion can weaken the pulley’s structural integrity and lead to premature failure.

Abrasive particles, such as dust or grit, can cause wear and tear on the pulley’s surface and the belt that runs on it. This can result in reduced traction and slipping, affecting the efficiency and reliability of the system. Proper maintenance and regular cleaning can help mitigate the effects of abrasive particles.

It’s worth noting that some applications may require special types of drive pulleys specifically designed to withstand extreme environmental conditions. For example, in industries where pulleys are exposed to chemicals or highly corrosive substances, pulleys made from stainless steel or other corrosion-resistant materials may be used.

In conclusion, while drive pulleys are designed to be robust and capable of withstanding a wide range of environmental conditions, there are limits to what they can endure. Extreme temperatures, humidity, corrosive substances, and abrasive particles can all impact the performance and lifespan of drive pulleys. It’s important to consider the specific environmental conditions and select pulleys that are suitable for the intended application.

drive pulley

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.

drive pulley

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.

China Good quality Made-to-Order Black Oxidized Drive Pulleys   crankshaft pulley	China Good quality Made-to-Order Black Oxidized Drive Pulleys   crankshaft pulley
editor by CX