Produktbeschreibung
Timber grab slew drive reducer
| Model Slewing Drive | SC14 | Brand | Coresun Drive |
| Holding Torque | 48Kn.m | Tilting Moment Torque | 67.8Kn.m |
| Self-locking | Yes | Gear Ratio | 85:1 |
| Outer Dia. | 390mm | Inner Dia. | 295mm |
| IP Class | IP65 | Precision | ≤0.12° |
Coresun Drive slew worm drive system is a compactly constructed unit which consists of a slewing ring, base plate and worm.
This unit brings the advantages of a slewing ring and a worm into 1 unit. It is suitable for applications which demand slow rotation with a continuous or cyclical movement capable of handling combined loads.
The product is with standard dimensions for coupling an electric or hydraulic motor as well as coupling a whole system to equipment. Due to its compactness, high rigidity and other mentioned advantages, a worm drive system is used in varying equipment such as mobile assembly platforms, satellite system, hydraulic loading cranes on haulage vehicles, small marine cranes, extendable rotating ladders, in wheel units of large marine portal transporters.
Vorteile
1. Rotation 360 degrees
2. Connection of a driving motor from the left or right side
3. During installation, it is not necessary to adjust the gearing clearance; this is already set by the producer before factory
4. Simple installation and low maintenance
5. Rational space utilization
6. The gear is self-locking; therefore a brake is not necessary
7. Easy and fluent method of starting and stopping
Description
There are no special limitations of mounting angles and positions of this series of products. It can be mounted horizontally, vertically and inclined. Enclosed slewing drives are assembled of enclosed housing, slewing bearing, worm shaft and other parts. Users can choose electric motors or hydraulic motors as the driving power. It can slew 360 degrees clock-wise or otherwise. The slewing drive is compact and it is also easy to mount and maintain in comparison with other types of driving devises.
Merkmale
It adopts enclosed design and the protection level can reach IP65. It can effectively prevent dust, rain and other hostile environments. It suits field usage such as desert, alpine and other hostile environments.
1.Products are easy to mount and maintain.
2.The design and mounting dimensions are international or domestic universal dimensions. It is easy for the users’ replacements in the future.
Tilting Moment Torque: Torque is the load multiplied by distance between the position of load and the center of slewing bearing. If the qorque generated by load and distance is greater than the rated tilting moment torque, slewing drive will be overturned.
Radial load: Load vertical to the axis of slewing bearing
Axial load: Load parallel to the axis of slewing bearing
Holding torque:It is the reverse torque.When the drive is rotating reversely, and parts are not damaged,The maximum torque achieved is called holding torque.
Self-locking: Only when loaded, the slewing drive is not able to reverse rotate and thus called self-locking.
Coresun Drive Slewing Bearing Production Precision and Backlash Testing.Ensuring smooth operation.
Coresun Drive testing reports for WH products on measurement, material and finished production.
CONTACT US
It is sincerely looking CHINAMFG to cooperating with you and providing the best quality product & service with all of our heart!
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| Holding Torque: | 48kn.M |
|---|---|
| Tilting Moment Torque: | 67.8kn.M |
| Static Axial Load: | 920kn |
| Static Radial Laod: | 343kn |
| Slewing Bearing: | Worm Gear |
| Anwendung: | Man Lift Crane |
| Anpassung: |
Verfügbar
| Kundenspezifische Anfrage |
|---|
Können Sie Beispiele aus der Praxis für Produkte nennen, die Getriebeuntersetzungstechnologie nutzen?
Absolut! Getriebetechnik findet in verschiedenen Branchen und Produkten breite Anwendung, um Leistung und Effizienz zu steigern. Hier einige Beispiele aus der Praxis:
1. Industriemaschinen: Getriebeuntersetzungsgetriebe werden häufig in Fertigungsmaschinen eingesetzt, beispielsweise in Förderanlagen, Materialhandhabungsgeräten und Montagelinien, wo sie zur Steuerung von Drehzahl und Drehmoment für präzise Arbeitsgänge beitragen.
2. Windkraftanlagen: Windkraftanlagen nutzen Getriebeuntersetzungsgetriebe, um die niedrige Drehzahl des Windkraftanlagenrotors in die für die Stromerzeugung benötigte höhere Drehzahl umzuwandeln und so die Energieumwandlung zu optimieren.
3. Kfz-Getriebe: Automobile nutzen Getriebeuntersetzungsgetriebe als Teil ihres Antriebsstrangs, um die Kraftübertragung vom Motor auf die Räder zu optimieren und so einen effizienten Betrieb des Fahrzeugs bei unterschiedlichen Geschwindigkeiten zu ermöglichen.
4. Robotik: Robotersysteme nutzen Getriebe zur Steuerung der Bewegung und Gelenkigkeit von Roboterarmen und ermöglichen so präzise und kontrollierte Bewegungen für verschiedene Anwendungen.
5. Druckpressen: Getriebeuntersetzungsgetriebe sind ein wesentlicher Bestandteil von Druckmaschinen und gewährleisten die präzise und synchronisierte Bewegung von Druckplatten, Walzen und Papierzuführungsmechanismen.
6. Förderbänder: In Branchen wie dem Bergbau, der Landwirtschaft und der Logistik werden Fördersysteme mit Getrieben betrieben, um die Bewegung von Materialien entlang der Förderbänder zu regulieren.
7. Verpackungsmaschinen: Getriebeuntersetzungsgetriebe spielen eine entscheidende Rolle in Verpackungsmaschinen, indem sie die Geschwindigkeit und Bewegung von Verpackungsmaterialien, Abfüllmechanismen und Versiegelungskomponenten steuern.
8. Kräne und Hebezeuge: Krane und Hebezeuge sind auf Getriebe angewiesen, um schwere Lasten präzise und kontrolliert heben zu können und so einen sicheren und effizienten Materialtransport zu gewährleisten.
9. Pumpen und Kompressoren: Getriebe werden in Pumpen und Kompressoren eingesetzt, um den Flüssigkeitsstrom und den Druck zu regulieren und so den Energieverbrauch in Flüssigkeitstransportsystemen zu optimieren.
10. Landwirtschaftliche Geräte: Traktoren und andere landwirtschaftliche Maschinen verwenden Getriebeuntersetzungsgetriebe, um die Geschwindigkeit und die Kraftübertragung für verschiedene Aufgaben wie Pflügen, Säen und Ernten anzupassen.
Diese Beispiele veranschaulichen die vielfältigen Einsatzmöglichkeiten der Getriebetechnik in verschiedenen Branchen und zeigen deren Rolle bei der Steigerung von Effizienz, Kontrolle und Leistung in einer breiten Palette von Produkten und Systemen.
Can gear reducers be used for both speed reduction and speed increase?
Yes, gear reducers can be utilized for both speed reduction and speed increase, depending on their design and arrangement. The functionality to either decrease or increase rotational speed is achieved by altering the arrangement of gears within the gearbox.
1. Speed Reduction: In speed reduction applications, a gear reducer is designed with gears of different sizes. The input shaft connects to a larger gear, while the output shaft is connected to a smaller gear. As the input shaft rotates, the larger gear turns the smaller gear, resulting in a decrease in output speed compared to the input speed. This configuration provides higher torque output at a lower speed, making it suitable for applications that require increased force or torque.
2. Speed Increase: For speed increase, the gear arrangement is reversed. The input shaft connects to a smaller gear, while the output shaft is connected to a larger gear. As the input shaft rotates, the smaller gear drives the larger gear, resulting in an increase in output speed compared to the input speed. However, the torque output is lower than that of speed reduction configurations.
By choosing the appropriate gear ratios and arrangement, gear reducers can be customized to meet specific speed and torque requirements for various industrial applications. It’s important to select the right type of gear reducer and configure it correctly to achieve the desired speed reduction or speed increase.
How do gear reducers handle variations in input and output speeds?
Gear reducers are designed to handle variations in input and output speeds through the use of different gear ratios and configurations. They achieve this by utilizing intermeshing gears of varying sizes to transmit torque and control rotational speed.
The basic principle involves connecting two or more gears with different numbers of teeth. When a larger gear (driving gear) engages with a smaller gear (driven gear), the rotational speed of the driven gear decreases while the torque increases. This reduction in speed and increase in torque enable gear reducers to efficiently adapt to variations in input and output speeds.
The gear ratio is a critical factor in determining how much the speed and torque change. It is calculated by dividing the number of teeth on the driven gear by the number of teeth on the driving gear. A higher gear ratio results in a greater reduction in speed and a proportionate increase in torque.
Planetary gear reducers, a common type, use a combination of gears including sun gears, planet gears, and ring gears to achieve different speed reductions and torque enhancements. This design provides versatility in handling variations in speed and torque requirements.
In summary, gear reducers handle variations in input and output speeds by using specific gear ratios and gear arrangements that enable them to efficiently transmit power and control motion characteristics according to the application’s needs.
editor by CX 2024-04-26
