Productbeschrijving
Detailed Photos
Product Parameters
R Series reducers are designed and manufactured on the basis of modular combination system.
There are a lot of motor combinations, installation forms and structural schemes. The transmission
ratio is classified and fine to meet different operating conditions, and the performance is superior.
Reinforced high rigid cast iron box; The hardened gear is made of high-quality alloy steel. Its surface
is carburized, quenched and hardened, and the gear is finely ground. It has stable transmission, low
noise, and large bearing capacity. Low temperature rise, long service life. It is widely used in metallurgy,1. Features: small offset output, compact structure, maximum use of box space, use of integral casting box, good stiffness, can improve the strength of the shaft and bearing life.
2. Installation type and output mode: bottom seated type and large and small flange type installation, CHINAMFG shaft output.
3. Input mode: direct motor, shaft input and connecting flange input.
4. Reduction ratio: secondary 5~24.8, tertiary 27.2~264, R/R combination up to 18125.
5. Average efficiency: Class II 96%, Class III 94%, R/R combination 85%.
6. The R series specially designed for mixing can bear large axial and radial forces.
Technical parameters:
Coaxial coaxial output
R reducer
Power: 0.12KW~160KW
Torque: 1.4N · m ~ 23200N · m
Output speed: 0.06 ~ 1090r/min
Model example:
R17-Y4-4P-32.40-M1-0°
R: Series code
F: Shaft extension flange installation
17: Machine model
Y: Three phase AC asynchronous motor
4: Motor power
4P: motor stage
32.40: Transmission ratio
M1: Installation type
0 °: junction box position (0 ° – 270 °)
R series helical gear hardened gear reducer
Basic model of R series reducer:
R17R27R37R47R57R67R77R87R97R107R137R147R167
RF17RF27RF37RF47RF57RF67RF77RF87RF97RF107RF137RF147RF167
RX37RX57RX67RX77RX87RX97RX107RX127RX157
RXF37RXF57RXF67RXF77RXF87RXF97RXF107RXF127RXF157
R series helical gear reducer with hard tooth surface features small size, light weight, high bearing capacity, high efficiency, long service life, convenient installation, wide motor power range, fine transmission ratio classification, etc. It can be widely used in equipment that needs to be decelerated in various industries.
sewage treatment, chemical industry, pharmacy and other industries.
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| Hardheid: | Verhard tandoppervlak |
|---|---|
| Installatie: | Horizontaal type |
| Indeling: | Coaxiaal |
| Tandwielvorm: | Cilindrisch tandwiel |
| Stap: | Stap voor stap |
| Type: | Gear Reducer |
| Samples: | US$ 1780/Piece 1 Piece(Min.Order) | |
|---|
Calculating Gear Ratio in a Worm Reducer
The gear ratio in a worm reducer is determined by the number of teeth on the worm wheel (also known as the worm gear) and the number of threads on the worm shaft. The gear ratio formula for a worm reducer is:
Gear Ratio = Number of Teeth on Worm Wheel / Number of Threads on Worm Shaft
For example, if the worm wheel has 60 teeth and the worm shaft has a single thread, the gear ratio would be 60:1.
It’s important to note that worm reducers have an inherent self-locking property due to the angle of the worm threads. As a result, the gear ratio also affects the mechanical advantage and the system’s ability to resist backdriving.
When calculating the gear ratio, ensure that the worm reducer is properly designed and that the gear ratio aligns with the desired mechanical characteristics for your application. Additionally, consider factors such as efficiency, load capacity, and speed limitations when selecting a gear ratio for a worm reducer.
Energie-efficiëntie van een wormwieloverbrenging: wat kunt u verwachten?
The energy efficiency of a worm gearbox is an important factor to consider when evaluating its performance. Here’s what you can expect in terms of energy efficiency:
- Typisch rendementbereik: Wormwieloverbrengingen staan bekend om hun compacte formaat en hoge overbrengingsverhouding, maar ze kunnen een lager energie-rendement hebben in vergelijking met andere typen overbrenging. Het rendement van een wormwieloverbrenging ligt doorgaans tussen de 50% en 90%, afhankelijk van diverse factoren zoals ontwerp, productiekwaliteit, smering en belasting.
- Inherente verliezen: Wormwieloverbrengingen maken inherent gebruik van glijdend contact tussen de worm en het wormwiel. Dit glijdende contact genereert wrijving, wat leidt tot energieverlies in de vorm van warmte. De glijdende beweging draagt ook bij aan een lager rendement in vergelijking met overbrengingen met rollend contact.
- Spiraalvormig wormontwerp: Sommige fabrikanten bieden tandwielkasten met spiraalvormige wormwielen aan die elementen van zowel spiraalvormige als wormwieloverbrengingen combineren. Deze ontwerpen zijn erop gericht de efficiëntie te verbeteren door spiraalvormige tandwielen in de reductietrap te integreren, wat kan leiden tot een hoger rendement in vergelijking met traditionele wormwielkasten.
- Smering: Goede smering speelt een belangrijke rol bij het minimaliseren van wrijving en het verbeteren van de energie-efficiëntie. Het gebruik van hoogwaardige smeermiddelen en een adequate smering van de versnellingsbak kunnen wrijvingsverliezen helpen verminderen.
- Aanvraagcriteria: Hoewel wormwieloverbrengingen mogelijk een lager energie-rendement hebben dan andere typen overbrengingen, bieden ze nog steeds voordelen op het gebied van compactheid, hoge koppeloverdracht en eenvoud. Daarom moet bij de keuze voor een wormwieloverbrenging rekening worden gehouden met de specifieke eisen van de toepassing, inclusief de afweging tussen energie-efficiëntie en andere prestatiefactoren.
When selecting a worm gearbox, it’s essential to consider the trade-offs between energy efficiency, torque transmission, gearbox size, and the specific needs of the application. Regular maintenance, proper lubrication, and selecting a well-designed gearbox can contribute to achieving the best possible energy efficiency within the limitations of worm gearbox technology.
How to Select the Right Worm Gearbox for Your Application
Selecting the right worm gearbox for your application involves careful consideration of various factors:
- Load Requirements: Determine the torque and load requirements of your application to ensure the selected gearbox can handle the load without compromising performance.
- Speed Reduction: Calculate the required gear reduction ratio to achieve the desired output speed. Worm gearboxes are known for high reduction ratios.
- Efficiëntie: Consider the gearbox’s efficiency, as worm gearboxes typically have lower efficiency due to the sliding action. Evaluate whether the efficiency meets your application’s needs.
- Space Constraints: Assess the available space for the gearbox. Worm gearboxes have a compact design, making them suitable for applications with limited space.
- Mounting Options: Determine the mounting orientation and configuration that best suits your application.
- Operating Environment: Consider factors such as temperature, humidity, and exposure to contaminants. Choose a gearbox with appropriate seals and materials to withstand the environment.
- Verzet: Evaluate the acceptable level of backlash in your application. Worm gearboxes may exhibit more backlash compared to other gear types.
- Self-Locking: If self-locking capability is required, confirm that the selected gearbox can prevent reverse motion without the need for external braking mechanisms.
- Maintenance: Consider the maintenance requirements of the gearbox. Some worm gearboxes require periodic lubrication and maintenance to ensure proper functioning.
- Cost: Balance the features and performance of the gearbox with the overall cost to ensure it aligns with your budget.
Consult with gearbox manufacturers or experts to get recommendations tailored to your specific application. Testing and simulations can also help validate the suitability of a particular gearbox for your needs.
editor by CX 2024-03-04