Product Description
Slewing drive gear motor is a perfect motion control product for the application which requires rotational torque strength. Slew Drive For Solar: it is designed in solar photovoltaic panel rotation and improves power generation efficiency. Single axis & dual axis solar tracking solutions are available
|
Model |
SC9 |
IP |
IP65 |
|
Brand |
Coresun Drive |
Available Load Weight |
500-800kg |
|
IP Class |
IP65 |
Output Torque |
854N.m |
|
Tilting Moment Torque |
33.9KN.m |
Holding Torque |
38.7KN.m |
|
Mounting Bolts |
M16 |
Electrial Motor |
24VDC |
|
Gear Ratio |
61:1 |
Efficiency |
40% |
Slewing drive for solar tracking system, available in both right angle, coupled with the availability of multiple precision levels, you are sure to find the right product for your application.
The solar tracking system allows photovoltaic panels to be continuously oriented to the sun throughout the day, thus significantly increasing total power generation. Apart from the tracking system, no other power plant equipment can improve the performance index of solar power station like this.
Slewing drives slewing bearing can bear axial force, radial force and tilting moment. The diameter range of slewing bearing can be from 200 mm to 5000 mm. For slewing drive, there are kinds of different sizes available from 3″ to 25″ with more than 60 models to meet both regular and precise tracking requirements in PV, CPV and solar thermal power tracking fields.
Slew drive for solar tracking system,slewing drive movement can reduce power consumption, since the security role. In addition to the field of use in the daily solar power systems are usually used for Special vehicle steering ZheJiang , heavy-duty flat-panel truck, container cranes, truck mounted crane, automobile crane and aerial vehicles, cranes, gantry cranes, small wind power stations, space communications, satellite receiver, etc. . The Slewing drive in the solar photovoltaic industry, the general configuration DC planetary reduction motor or AC geared motors; main configuration of the hydraulic motor as a power-driven construction machinery.
slewing drives provide a large ratio in a CHINAMFG of gearing, optimized for weight versus performance. The bearings and gears are assembled into a low-profile, self-retaining, and ready-to-install housing, enabling the product to react to all axial and radial forces, and resulting tilting moments created in the most challenging applications. These highly-adaptable products also feature strong shock resistance, long-life performance, smooth rotation, bearing protection, and sealed drive options. All of the
technical benefits, combined with industry-leading quality standards, make products the ideal candidates for performance-critical, heavy-duty applications.
The slewing drive is a gearbox that can safely hold radial and axial loads, as well as transmit a torque for rotating. The rotation can be in a single axis, or in multiple axes together.Solar lewing drives are made by manufacturing gearing, bearings, seals, housing, motor and other auxiliary components and assembling them into a finished gearbox.Global PV market size continued to grow, global solarphotovoltaic industry gradually stepped out of the trough in 2013, and the market scale further expanded.As follow chart.However global PV manufacturing industry cluster transfer CHINAMFG China,become the biggest market.
Slewing driver by attaching the driving member, the driving source and the casing to 1 of the inner and outer rings of the slewing ring, the other ring is regarded as both the transmission follower and the connecting base of the driven working member, thus utilizing the slewing bearing itself. It is the whole circumference of the characteristics of the rotary connector, efficient allocation of the drive power source and a main transmission parts, making a set of rotation, deceleration and driving functions in 1 and the same time simple, easy to manufacture and maintain general structure type reduction gear mechanism.
Slewing drive gear reducer is an upgraded product of slewing bearing, which is usually composed of worm, turbo slewing bearing, casing and power source.The shell is made of high-quality cast steel with very high strength. The worm gear and worm shaft are all made of 42CrMo and diluted by glow ion, and the wear resistance is higher than the traditional domestic material of 50Mn made of gas nitride. Compared with other enveloping ring surface worm in China, the hardness is stronger and the service life is longer.The products can be used in flat transport vehicles, wooden lifting machines, single column cranes, girder lifting machines, truck cranes, aerial work vehicles, solar energy patrol, automation equipment and other mechanical equipment;In the solar photovoltaic power generation industry, the rotary driving device is generally equipped with dc planetary deceleration motor or AC deceleration motor;In the construction machinery with hydraulic motor as the main power drive system.
Slewing drive rotary gear reducer other title: slewing drive device, rotary gear device, slewing reducer, rotary wheel gear, worm gear and worm drive, the turbine worm pair, worm gear and worm pair, turbine worm device, mainly used in aerospace,excavator and construction machinery, satellite receiving system, solar tracking systems, and many other industries.
Application Area
SC9 is a good design for 12-16pcs solar panels solar tracker system.
Under the background of the global fixed purchase price of photovoltaic power generation, photovoltaic technology developers, investors and operators find that the increasing pressure requires them to find an economic model to maximize the return on investment in photovoltaic projects.
The solar tracking system product of CHINAMFG Drive is a high return solution, which can make the photovoltaic power generation project obtain higher profits under the cost pressure. The full-automatic double backup horizontal single axis tracking system of CHINAMFG is particularly attractive in terms of economy and reliability. The horizontal single axis tracking system is most suitable for relatively low latitude. The horizontal and oblique uniaxial systems with dip angles are usually used for higher latitudes. If the project requires as much power as possible, a dual axis solar tracking system is a good choice. It can keep the solar module in the top position all the time.
Coresun Drive Solar Tracker Slewing Drive Motor Production Photo and Application
CHINAMFG Drive processes the metallography detection to check the material and organization structure of worm shaft,slewing gear and casting housing.
Coresun Drive testing reports for slewing bearing,worm shaft and finished slewing drive
CHINAMFG Drive slewing drive actuator gear motor with 24VDC motor is certificated by CE
CONTACT US
It is sincerely looking CHINAMFG to cooperating with you for and providing you the best quality product & service with all of our heart!
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| Condition: | New |
|---|---|
| Certification: | ISO, CE |
| Application: | Industrial |
| Specification: | Normal, SC9-61-RC-24H3033-RV. A |
| Holding Torque: | 38.7kn.M |
| Tilting Moment Torque: | 33.9kn.M |
| Customization: |
Available
| Customized Request |
|---|
Can sun gears be used in renewable energy systems?
Sun gears can indeed be used in renewable energy systems, particularly in applications that involve the conversion and transmission of mechanical power. Let’s explore how sun gears can be utilized in different types of renewable energy systems:
- Wind Turbines:
In wind turbines, sun gears can be employed as part of the gearbox mechanism. The gearbox is responsible for increasing the rotational speed of the wind turbine’s rotor to generate electricity efficiently. Sun gears, along with other gears such as planet gears and ring gears, can be used to achieve the desired gear ratios and torque amplification. By leveraging sun gears, wind turbines can convert the relatively low rotational speed of the rotor into the higher rotational speed required by the generator, which produces electricity.
- Solar Tracking Systems:
Sun gears can also play a role in solar tracking systems, which are used to maximize the energy generation of solar panels by orienting them towards the sun throughout the day. These systems often utilize gears to control the movement of the solar panels. Sun gears can be incorporated into the gear mechanism to enable precise tracking and adjustment of the solar panels’ position, ensuring optimal sunlight exposure and energy capture.
- Hydroelectric Power Plants:
In hydroelectric power plants, sun gears can be employed in the turbine and generator systems. These systems use the force of flowing or falling water to drive turbines, which, in turn, generate electricity. Sun gears can be part of the turbine’s gearbox, enabling the efficient conversion of the low-speed rotation of the turbine into the high-speed rotation required by the generator. By utilizing sun gears, hydroelectric power plants can enhance the power generation capabilities of the turbines.
- Wave and Tidal Energy Converters:
Wave and tidal energy converters harness the power of ocean waves and tides to generate electricity. Sun gears can be utilized in the transmission systems of these converters. They can help convert the slow, oscillating motion of the waves or tides into a higher rotational speed suitable for driving generators. By incorporating sun gears, these converters can optimize the energy extraction process and improve the efficiency of power generation.
- Geothermal Power Plants:
In geothermal power plants, sun gears can be used in various components of the energy conversion process. Geothermal power plants extract heat from the Earth’s interior to generate electricity. Sun gears can be employed in systems such as turbines and generators, where they facilitate the conversion of thermal energy into mechanical and electrical energy. By utilizing sun gears, geothermal power plants can enhance the efficiency and performance of the energy conversion systems.
In summary, sun gears can find applications in renewable energy systems such as wind turbines, solar tracking systems, hydroelectric power plants, wave and tidal energy converters, and geothermal power plants. By leveraging the functionality of sun gears, these systems can optimize power generation, increase efficiency, and contribute to the sustainable utilization of renewable energy sources.
Can sun gears be used in high-torque applications?
Sun gears can indeed be used in high-torque applications and are commonly employed in various mechanical systems that require substantial torque transmission. The design and characteristics of sun gears make them capable of handling significant torque loads. Here’s an explanation of why sun gears can be used in high-torque applications:
- Central Positioning: Sun gears are typically located at the center of planetary gear arrangements. This central positioning allows them to distribute torque to multiple planet gears, which then transfer the torque to the outer ring gear. The central position of the sun gear enables efficient torque transmission and load sharing among the gears, making it suitable for handling high-torque applications.
- Torque Amplification: The arrangement of sun gears in a planetary gear system allows for torque amplification. By utilizing the interaction between the sun gear, planet gears, and ring gear, the gear system can multiply or reduce torque based on the gear ratio configuration. In high-torque applications, this torque amplification capability of sun gears is advantageous as it allows for the multiplication of input torque, resulting in higher torque output.
- Sturdy Construction: Sun gears are designed to withstand high torque forces. They are usually made from durable materials such as hardened steel or other alloys with high tensile strength. This robust construction ensures that sun gears can effectively handle the transmitted torque without experiencing excessive wear or deformation.
- Load Distribution: The interaction between the sun gear, planet gears, and ring gear in a planetary gear system enables effective load distribution. By distributing the torque across multiple planet gears, the load is shared, reducing the stress on individual gears. This load distribution mechanism enhances the overall durability and torque-handling capacity of the gear system, making it suitable for high-torque applications.
- Customizable Gear Ratios: Sun gears in planetary systems allow for the customization of gear ratios. By changing the number of teeth on the sun gear, planet gears, and ring gear, as well as their relative sizes, the gear ratio can be tailored to meet specific application requirements. This flexibility in gear ratio control enables the optimization of torque output for high-torque applications.
In summary, sun gears can be effectively used in high-torque applications due to their central positioning, torque amplification capability, sturdy construction, load distribution mechanism, and customizable gear ratios. These characteristics make sun gears reliable and suitable for transmitting substantial torque in various mechanical systems.
What is a sun gear and how does it function in gear systems?
A sun gear is a fundamental component in gear systems, particularly in planetary gear arrangements. It plays a crucial role in determining the overall gear ratio and power distribution within the system. Here’s an explanation of what a sun gear is and how it functions:
A sun gear is a central gear in a planetary gear set. It is typically located at the center of the gear arrangement and is surrounded by other gears, known as planet gears, as well as an outer ring gear, also called a ring gear or annulus.
The primary function of the sun gear is to transfer torque and provide the driving force in a planetary gear system. Here’s how it functions:
- Power Input: The sun gear receives power input from an external source, such as an engine or motor. It is directly connected to the input shaft and receives rotational motion and torque.
- Planet Gear Engagement: The sun gear engages with multiple planet gears, which are smaller gears that surround the sun gear and mesh with both the sun gear and the ring gear. The planet gears rotate around their own axes while also revolving around the sun gear.
- Power Distribution: As the sun gear rotates, it transmits torque to the planet gears through their meshing teeth. The planet gears, in turn, transfer the torque to the ring gear. The relative sizes of the sun gear, planet gears, and ring gear determine the gear ratio and the distribution of power within the system.
- Gear Ratio Variation: By changing the arrangement and sizes of the sun gear, planet gears, and ring gear, gear systems can achieve different gear ratios. The number of teeth on the sun gear, planet gears, and ring gear, as well as their relative sizes, determine the gear ratio. This allows gear systems to provide various output speeds and torque levels, catering to different operational requirements.
- Directional Control: In some gear systems, the sun gear can also serve as a means of controlling the direction of power transmission. By fixing or holding the sun gear while the ring gear or planet carrier is driven, the gear system can achieve different output directions, such as forward or reverse rotation.
In summary, the sun gear is a central gear in planetary gear systems, responsible for receiving power input, engaging with planet gears, distributing torque to the ring gear, and determining the overall gear ratio. Its function is crucial in achieving different speed and torque combinations, as well as controlling the direction of power transmission within gear systems.
editor by Dream 2024-05-03