Product Description
Pto Tractor Gearbox for Drive Shaft Agricultural Machines Rake Baler 7HP Petrol Power Weeder Gear Tractor Agricultural Farm Manufacture Gearboxes Truck Car Auto
GEAR MATERIALS
20CrMnTi/20CrMnMo for your choice
CASTINGS MATERIALS
Gray cast iron HT250 according to standard GB/T 1348-2009 Ductile iron QT450-10 according to standard GB/T 1348-2009 Cast steel ZG310-570 according to standard GB/T 5613-2014
SHAFTS MATERIALS
40Cr,45#,20CrMnTi,20CrMnMo for your choice according to your request.
POWER To ensure the correct use of the product we recommand to pay attention to the specifications mentioned on our technical sheet.Consider also the input rotation speed,the power input and the transmission ratios.Where the rotation or other working conditions are different,please contact LongQuan technical department.
LUBRICATION
The reducer is usually supplied without lubricant.The recommended quantity of lubricant is indicated on our catalogue and the first replaced must be done after 50-60 hours of running,then replaced after 600-800 working hours. The emptying of the gearbox should be made immediately after the working,with the oil still hot,in order to avoid the deposition of sludge.Check frequently the oil level and top up the oil whenever necessary.
Related Products
Factory
Extensive use for agricultural machines
Guarantee: High precision, high wear resistance, low noise, smooth and steady, high strength
Our factory
Type: | Agricultural Gearbox |
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Usage: | Farmland Infrastructure, Agricultural Machine |
Material: | Carbon Steel |
Power Source: | Electricity |
Weight: | OEM |
After-sales Service: | Installation Guide |
Samples: |
US$ 999/Piece
1 Piece(Min.Order) | |
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Limitations of Maximum Torque Handling in Miter Gearboxes
Miter gearboxes, like any mechanical component, have limitations to the maximum torque they can handle:
Material Strength: The torque-handling capacity of miter gearboxes is influenced by the strength and durability of the materials used in their construction. If the materials are not sufficiently strong, they may deform or fail under high torque loads.
Gear Tooth Design: The design and geometry of the gear teeth play a crucial role in torque transmission. In miter gearboxes, the size, shape, and angle of the gear teeth impact the torque-carrying capacity. Improper gear tooth design can result in premature wear and reduced torque handling.
Lubrication and Cooling: Adequate lubrication is essential to reduce friction and heat generated during operation. Inadequate lubrication can lead to increased friction, heat buildup, and potential damage to the gears, limiting the gearbox’s torque capacity.
Dynamic Load Factors: The type of load the gearbox experiences, such as shock loads or sudden changes in torque, can impact its torque-handling capability. High dynamic loads can exceed the gearbox’s capacity and lead to failure.
Mounting and Support: The mounting and support of the miter gearbox within the mechanical system can affect its torque-handling capacity. Poorly supported gearboxes may experience misalignment or excessive stress, leading to reduced torque capabilities.
Size and Configuration: The physical size and configuration of the miter gearbox can impact its torque-handling capacity. Larger gearboxes with more robust components may have higher torque limits compared to smaller or more compact designs.
Operating Conditions: Environmental factors such as temperature, humidity, and vibration can affect the torque capacity of miter gearboxes. Extreme conditions can cause material degradation or loss of lubrication efficiency, reducing the gearbox’s overall torque-handling ability.
Manufacturing Tolerances: Variations in manufacturing processes and tolerances can lead to differences in torque capacity between individual gearboxes. Tighter manufacturing tolerances generally result in higher torque handling.
It is important to consider these limitations when selecting and designing miter gearboxes for specific applications. Proper engineering, material selection, lubrication, and operating conditions play a critical role in ensuring that miter gearboxes operate within their intended torque limits and provide reliable performance.
Miter Gearboxes in Automotive Applications, Especially Steering Systems
Miter gearboxes play a crucial role in automotive applications, particularly in steering systems, where they are utilized to change the direction of motion by 90 degrees. Here’s how miter gearboxes perform in automotive steering systems:
Steering Mechanism: In vehicles, the steering column provides the rotational motion, which needs to be transmitted to the wheels at a right angle for effective steering control. Miter gearboxes are integrated into the steering system to achieve this motion change.
Angular Change: The miter gearboxes take the rotational input from the steering column and transmit it through bevel gears placed at a 90-degree angle. This allows the motion to be directed towards the steering linkage and ultimately the wheels.
Precision and Accuracy: Automotive steering systems require precise and responsive motion control. Miter gearboxes ensure accurate transmission of motion, allowing drivers to have reliable and smooth steering control.
Compact Design: Miter gearboxes have a compact and space-saving design, making them suitable for installation within the limited space of a vehicle’s steering column.
Reduced Backlash: To ensure safety and responsiveness, miter gearboxes are designed to minimize backlash, which is crucial for maintaining accurate control over the vehicle’s direction.
Durability: Automotive applications demand durability and reliability. Miter gearboxes are designed to withstand the conditions and loads experienced in vehicles, ensuring long-lasting performance.
Miter gearboxes contribute to the efficient and effective operation of steering systems in vehicles, providing drivers with the control needed to navigate safely and comfortably.
Significance of the Angle Between Bevel Gears in a Miter Gearbox
The angle between bevel gears in a miter gearbox is of critical significance as it determines the direction of motion transmission and the type of mechanical arrangement that can be achieved.
In a miter gearbox, the angle between the bevel gears is typically set at 90 degrees. This means that the two intersecting shafts will rotate perpendicular to each other, allowing the transmission of motion from one shaft to another at a right angle.
The 90-degree angle between bevel gears is a fundamental feature that enables various applications where changes in motion direction are required within a compact space. This configuration allows for the redirection of rotational energy and torque, making it useful in applications such as changing the orientation of power flow, redirecting motion, and transmitting power around obstacles or corners.
It’s important to note that the angle between bevel gears can be customized to different values, but 90 degrees is the most common configuration in miter gearboxes due to its versatile and practical nature. The precise angle and arrangement of the bevel gears ensure efficient motion transmission while accommodating the specific requirements of the mechanical system in which the miter gearbox is used.
editor by CX 2023-09-04