Descrizione del prodotto
Company Profiles
-We are a leading gear motor manufacturer
ZHangZhoug Xihu (West Lake) Dis.hai Reducer is a leading manufacturer of gear motor and gearbox.
Since 1991, we have specialized in manufacturing a wide range of gear motor and gear box including:
- motore a ingranaggi elicoidali
- motoriduttore a ingranaggi conici elicoidali
- parallel shaft helical gear motor
- helical worm gear motor
- hoist drive
- heavy-duty helical gearbox
- heavy-duty helical bevel gearbox
- gear motor for car parking system
- sprial bevel gearbox
Descrizione del prodotto
T series gear motor are composed of 3 stages helical gear and bevel gear. Input shaft and output shaft is 90°.
Mounting position: footed mounting, flange mounting, shaft mounting etc.
Technical data:
Output speed:10 ~ 522 rpm
Rated output torque:10 ~ 48000 Nm
Motor power: 0.12 ~ 200 KW
Product Show
Product Specification
| Product features | |||||||
| 1. T series helical bevel gear motor enables high-torque, wear-free operation. | |||||||
| 2. High power density, ware free, long service life and various reduced backlash options | |||||||
| 3. As they also have a long maintenance-free service life, they can be used in every application with AC asynchronous motors, asynchronous and synchronous servomotors. | |||||||
| General Technical data | |||||||
| Materiale per l'edilizia | HT250 high-strength cast iron | ||||||
| Difficoltà abitative | HBS190-240 | ||||||
| Pinion material | 20CrMnTiH | ||||||
| materiale degli ingranaggi | 20CrMnTiH | ||||||
| Durezza superficiale degli ingranaggi | HRC58°~62 ° | ||||||
| Durezza del nucleo dell'ingranaggio | HRC33~40 | ||||||
| Input/output shaft material | 40CrMnTiH | ||||||
| Durezza dell'albero di ingresso/uscita | HRC25~30 | ||||||
| Precisione di lavorazione degli ingranaggi | accurate grinding, 6~7 Grade | ||||||
| Olio lubrificante | GB L-CKC220 | ||||||
| Trattamento termico | tempering, cementiting, quenching, etc. | ||||||
| Efficienza | 94%~96% (depends on the transmission stage) | ||||||
| Rumore (MAX) | 60~68 dB | ||||||
| Temp. rise (MAX) | 40°C | ||||||
| Temp. rise (Oil)(MAX) | 50°C | ||||||
| Vibrazione | ≤20µm | ||||||
| Gioco | ≤20Arcmin | ||||||
| Marca dei cuscinetti | China Top brand C&U,LYC,TMB or other brands requested, SKF….. | ||||||
| Marca del paraolio | CTY— ZheJiang or other brands requested | ||||||
Package
Plastic bag + wooden carton
Certificate
FAQ
Q: Can you print other colors?
Yes. Customized color can be printed on the gear motor according to your requirements.
Q: Is that factory price?
Yes. We assure you all prices are based on factory.
Q: What is the life span? what is the guarantee
The lifespan of gear motor can reach 5-20 years depending on different working conditions .The guarantee time is 1 year after delivery.
Q: What documents are available?
A full range documents including structural drawings, packing list, installation manual and relative certificates can be provided. Moreover, customs declaration is provided. We provide one-stop service for you.
Q: Is it able to customized?
yes, we could re-design and produce the gear motor as your requirements if the quantity is large.
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| Application: | Motor, Machinery, Transmission Equipment/ Crane |
|---|---|
| Hardness: | Hardened Tooth Surface |
| Installation: | Horizontal Type |
| Layout: | Shunting |
| Gear Shape: | Bevel |
| Step: | Three-Step |
Minimizing Backlash and Ensuring Efficient Power Transfer in Bevel Gearboxes
Bevel gearboxes are meticulously designed to minimize backlash and optimize power transfer efficiency, ensuring smooth and precise motion in mechanical systems.
Several design considerations contribute to minimizing backlash and enhancing power transfer:
- Tooth Profile and Quality: High-precision tooth profiles with minimal clearance between mating gears reduce backlash. The use of advanced manufacturing techniques ensures consistent gear quality and accurate tooth engagement.
- Preload and Contact Pattern: Properly applied preload and optimized contact patterns between the bevel gear teeth enhance meshing accuracy, reducing the potential for backlash and improving load distribution.
- Gearbox Rigidity: Stiff and rigid gearbox housing and components help maintain precise gear alignment, reducing the effects of deflection and misalignment that can lead to backlash.
- Bearing Selection: High-quality bearings with minimal play contribute to reduced backlash and smoother motion by minimizing axial and radial movement of the gears.
- Lubrificazione: Adequate lubrication reduces friction, wear, and vibration, promoting efficient power transfer and minimizing backlash-related issues.
- Tolerances and Manufacturing Precision: Tight manufacturing tolerances and precision machining processes ensure consistent gear geometry, alignment, and positioning, minimizing any potential sources of backlash.
By incorporating these design principles and practices, bevel gearboxes are engineered to achieve tight backlash control and efficient power transmission. This makes them suitable for applications where precise motion control, accuracy, and reliability are crucial, such as robotics, aerospace, automotive, and industrial machinery.
Efficient Power Transmission and Torque Transfer with Bevel Gearboxes
Bevel gearboxes are designed to ensure efficient power transmission and torque transfer in various mechanical systems. Here’s how they contribute to these aspects:
- Multiple Gear Teeth Engagement: Bevel gearboxes typically have multiple gear teeth in contact simultaneously, distributing the load across a larger surface area. This feature enhances torque-carrying capacity and minimizes wear, resulting in efficient torque transfer.
- High Gear Ratio: Bevel gearboxes can achieve high gear ratios, allowing them to convert high-speed, low-torque input into low-speed, high-torque output. This capability is valuable for applications requiring precise control over rotational speed and force.
- Smooth Motion Transfer: The meshing of bevel gears ensures smooth and continuous motion transfer between intersecting shafts. This is essential for maintaining consistent power transmission and reducing vibration or noise.
- Optimized Gear Tooth Design: Bevel gear teeth are carefully engineered with specific profiles and angles to minimize friction and maximize contact area. This design optimization enhances the efficiency of torque transfer while reducing energy losses due to friction.
- Precise Machining and Alignment: Precision machining and proper alignment of bevel gears within the gearbox contribute to efficient power transmission. Accurate gear meshing reduces the likelihood of backlash and ensures minimal energy wastage.
Bevel gearboxes are chosen for applications where efficient power transmission, precise torque transfer, and reliable motion control are essential requirements.
Tipologie di riduttori a ingranaggi conici e loro classificazione
I riduttori a ingranaggi conici sono disponibili in diverse tipologie, ciascuna progettata per applicazioni ed esigenze specifiche. La loro classificazione si basa su fattori quali la disposizione degli ingranaggi, l'orientamento dell'albero e l'utilizzo. Alcuni tipi comuni di riduttori a ingranaggi conici includono:
- Riduttori a ingranaggi conici a denti dritti: Questi riduttori utilizzano ingranaggi conici a denti dritti e sono adatti a trasmettere il movimento tra alberi che si intersecano ad un angolo di 90 gradi.
- Riduttori a ingranaggi conici a spirale: Questi riduttori utilizzano ingranaggi conici a spirale e vengono impiegati quando gli alberi intersecanti formano angoli diversi da 90 gradi. Offrono un funzionamento più fluido e una maggiore capacità di carico.
- Riduttori a ingranaggi conici obliqui: Nei riduttori a ingranaggi conici obliqui, gli assi degli alberi di ingresso e di uscita non sono paralleli né si intersecano. Questi riduttori vengono utilizzati in applicazioni in cui è necessario collegare alberi non paralleli e non intersecanti.
- Riduttori a ingranaggi conici angolari: I riduttori a ingranaggi conici angolari sono progettati per collegare alberi con un angolo specifico e sono spesso utilizzati in applicazioni in cui l'angolo dell'albero richiesto è diverso dalle configurazioni standard degli ingranaggi conici.
La classificazione dei riduttori a ingranaggi conici si basa sulla disposizione e sull'orientamento dei denti degli ingranaggi e degli alberi. I produttori offrono una varietà di modelli per soddisfare le diverse esigenze industriali e garantire un'efficiente trasmissione del movimento a vari angoli.
editor by CX 2024-02-15
