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China Hot selling FWA7 Series FWA7 Slewing Drive Gearbox For Aerial Lifts with high quality

FWA7 Series FWA7 Slewing Drive Gearbox For Aerial Lifts

Slewing Drives
In this article, we’ll look at slewing drives – what they are, their Mechanics, and their applications. We’ll also take a look at some of the different types and how to maintain them. There’s no need to start from scratch – here are a few things you should know about this type of drive. If you’re considering purchasing one, here are a few things to consider.
A slewing drive is a simple device that allows rotation around an axis. This is accomplished by combining a slewing ring and an external gear. The gear is placed perpendicular to the screw and rotates as the screw turns. The force of the screw’s axial motion is transferred to the radial gear, which magnifies the output torque. A slewing drive is used in various industrial and marine applications.
Slewing drives are often used in environments with high-torque requirements. Because they are generally small, the available space for installation is often limited. Nonetheless, slewing drives are a powerful industrial gear unit solution. They are widely used in self-propelled and vehicle-mounted aerial work platforms, tire straddle carriers, welding positioners, forklifts, and forestry machinery attachments. A slewing drive can accommodate high torque and a large output rotational speed.
A slewing drive is a device that changes the axial movement of gear to a radial movement. The conversion depends on the number of threads on the worm or the teeth on the gear. This device is ideal for various applications as it has a high torque capacity and a compact form factor. However, some applications may require a more powerful gear. If you need to amplify torque, a slewing drive is an ideal solution for you.
A slewing drive is a gearbox for high rotational torque and load-holding capacity. This type of gearbox has several advantages, including robust housing and hourglass worm technology. Its unique design makes it ideal for applications that require a high level of durability, strength, and efficiency. Moreover, its compact size makes it easy to install. Its versatility makes it perfect for various applications requiring high load holding capacity and rotational torque strength.
Slewing drives are used in many industries, including mining, construction, and metalworking. They provide a high level of rotational torque and can handle radial or axial loads. They are also often used in precision devices, such as wind turbines. Understanding the physics of slewing drives is essential for optimum performance. Ever power’s engineers can customize a slew of drives to suit a particular application.
There are 2 basic slewing drives: single-row ball and double-row ball. Selecting the correct type of slewing bearing depends on the load. Double-row ball slew bearings are preferred for heavier loads. Slewing drives can also be equipped with an IP65-rated protection system to withstand harsh environments. They are designed to carry a heavy load in a small package, and their gears are ground or hardened to deliver maximum durability and longer life.
When it comes to maintaining a slewing drive, it is essential to keep certain aspects in mind. To prevent premature failure, the bearing must be lubricated regularly. A special grease can protect the bearing from damage and extend its lifespan. However, the proper grease for slewing drives depends on several factors. The type of grease should be changed according to the working conditions of the equipment.
The slewing bearing is a crucial part of large-scale machinery. It helps the machine rotate left and right while absorbing various forces. Because of this, it requires special maintenance. The most common causes of slewing bearing failure are improper operation, lubrication problems, and pollution. To avoid these issues, you should replace the bearing grease frequently and follow the instructions.

Slewing Drive Performance Parameters 

Output torque Lifting moment torque Holding torque Axial load Radial load Ratio Backlash Weight
3.5 KN.M 14.7 KN.M 20.6 KN.M 227 KN 92.7 KN 47:1 ≤0.15° 35kg
2583 LBF.FT 10.8*10³ LBF.FT 15.2*10³ LBF.FT 51*10³ LBF 20.8*10³ LBF

Front View

Top View

Note: customized design can be carried out according to customer requirements

According to customer requirements, you can independently design and manufacture high-end customized transmission parts. It consists of inner and outer shells, rolling elements, etc. the primary materials are ductile iron, cast aluminum, steel forgings, metal rolling elements, modified plastic rolling elements, etc. the installation can integrate the upper and lower mounting plates and carry out design innovation such as flattening, lightweight, fully enclosed and high safety for the final product.

hzpt slewing drive is a gearbox designed to handle radial or axial loads using high rotational torque. In addition, the slewing ring bearing, at the heart of the drive, enables it to withstand high overhung or moment loads. A descendant of the “worm” screw, slewing drives are present in construction machinery, manufacturing, military equipment, and many other applications that require strength and precision.
The physics of the slew drive makes it a versatile solution for many applications. In operation, the slew drive’s axial movement, or motion around its axis, interacts to create radial torque. The action occurs by meshing the grooves of the horizontal screw with the teeth of a perpendicular gear. While turning, the worm gear’s axial movement transfers magnified torque force to the radial gear. The number of threads on the horizontal screw and the number of gears that interact will determine the speed ratio of the setup.
Slewing drives are available in many configurations depending on the task at hand. These may be single-axis or dual-axis turning in unison.
An hourglass configuration expands the capability from a single gear tooth to as many as 11 to create rotational torque by contacting the worm screw. Multiple gear teeth interacting at once allows the equipment to be more efficient and generate more torque.
Slew drives work best for applications in which high torque can create precision positioning and rotational accuracy. This design results in a device that works smoothly and powerfully with minimal backlash.
Because of the power and dependability generated by slew drive technology, the functions of this engineering technology apply to many types of equipment. One particular use, for example, involves solar technology, tracking the sun’s movements in perfect time to generate maximum energy output.
Any job requiring high load capacity and reliable positioning may require the implementation of slewing drive engineering.
Robust, smooth, and consistent slew drives have a special place in manufacturing, construction, and many other venues. Based on a centuries-old engineering idea, slew drive-operated equipment can be simple or complex, depending upon the requirements.
Adding hydraulic, pneumatic, or electric motors to single, double, or hourglass design depends on the application. Other features such as brakes or self-locking features of an open or closed chassis are among many options.
The list of active applications for slew drives is extensive. Several industries require some form of slew drive to make their operations more efficient. Equipment for mining, construction, metalworking, and other applications that require unrelenting strength combined with faultless precision use slewing technology for safety and accuracy.
Powerful devices like aerial lifts, rotating forklifts, truck-mounted cranes, cable winders, fire trucks, hydraulic machinery, and utility equipment depend on the safety and strength of slew drives.
Precision devices such as military equipment, satellite dishes, solar trackers, printing presses, and telescopic devices benefit from the adequate precision that slewing drives provide.
To judge what kind of slewing drive you need, you have to clear out the configuration of the slew drive and the purpose of the equipment; each unit will have differing specifications. When defining the type and capability of the slew drive, the following variables are calculated:
Gear ratios
Tilting moment
Dynamic and static axial
Radial dynamic

Additional information