Description du produit
FK730B Gearbox Suitable for 12 cbm mixer nbsp truck with Low Price
Description du produit
Reducers are generally used for low-speed and high-torque transmission equipment. The power of an electric motor, internal combustion engine or other high-speed operation is achieved through the gear with a small number of teeth on the input shaft of the reducer and the large gear on the output shaft to achieve the purpose of deceleration. Ordinary The reducer will also have several pairs of gears with the same principle to achieve the ideal reduction effect. The ratio of the number of teeth of the large and small gears is the transmission ratio.
There are many types of reducers, which can be divided into gear reducers, worm reducers and planetary gear reducers according to the transmission type.
The main features of planetary gear reducer are small size, large load-bearing capacity and stable operation.
The main characteristics of planetary gear transmission are small size, large load-bearing capacity, and stable operation; however, the structure of high-power and high-speed planetary gear transmission is complex and requires high manufacturing precision;
Some types of planetary gear transmission are highly efficient, but have small transmission ratios;
For other types, the transmission ratio can be very large, but the efficiency is low. When they are used as reducers, their efficiency decreases as the transmission ratio increases;When used as a speed increaser, self-locking may occur.
Product Parameters
| Spécification Modèle |
FK130B | FK230B | FK270B | FK330B | FK430B | FK530B | FK730B | FK830B | FK930B |
| Mixer Volume (cbm) | 3-5 | 4-6 | 6-7 | 7-8 | 9-10 | 10-12 | 12-14 | 15-16 | 17-20 |
| Output Torque (Nm) | 30000 | 36000 | 42000 | 48000 | 54000 | 70000 | 75000 | 85000 | 95000 |
| Reduction ration | 103 | 103 | 128.5 | 133.7 | 135.5 | 135.5 | 144.3 | 141.3 | 141.3 |
| Drum angle (°) | 15 | 15 | 15 | 15 | 15 | 15 | 13 | 12 | 10 |
| Input rotation | 2500 | 2500 | 2500 | 2500 | 2500 | 2500 | 2500 | 2500 | 2500 |
| Radial load (kN) | 70 | 72 | 100 | 130 | 160 | 170 | 190 | 235 | 275 |
| Axial load (kN) | 20 | 22 | 28 | 36 | 45 | 50 | 60 | 70 | 90 |
| Weight (kg) | 160 | 162 | 175 | 185 | 325 | 330 | 340 | 405 | 415 |
| Lubricating oil (L) | 5.5 | 7.0 | 7.0 | 7.5 | 11.5 | 11.5 | 11.5 | 13.5 | 15.5 |
| Swing angle of Flange plate | ±6 | ±6 | ±6 | ±6 | ±6 | ±6 | ±6 | ±6 | ±6 |
| Model of Gear oil | SAE 85W-90/API GL4 GL5 | SAE 85W-90/API GL4 GL5 | SAE 85W-90/API GL4 GL5 | SAE 85W-90/API GL4 GL5 | SAE 85W-90/API GL4 GL5 | SAE 85W-90/API GL4 GL5 | SAE 85W-90/API GL4 GL5 | SAE 85W-90/API GL4 GL5 | SAE 85W-90/API GL4 GL5 |
| Connection port of Water pump | NO | NO | NO | NO | NO | NO | NO | NO | NO |
| Connection flange of Hydraulic motor | SAE C 16/32 Z21 |
SAE C 16/32 Z21 |
SAE C 16/32 Z21 |
SAE C 16/32 Z21 |
SAE C 16/32 Z21 |
SAE C 16/32 Z21 |
SAE C 16/32 Z21 |
SAE C 16/32 Z21 |
SAE C 16/32 Z21 |
Dimensions
Application
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| Application: | Electric Cars, Motorcycle, Machinery, Marine, Agricultural Machinery, Car |
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| Dureté: | Surface dentaire durcie |
| Installation: | Horizontal Type |
| Personnalisation : |
Disponible
| Demande personnalisée |
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Frais d'expédition :
Frais de transport estimés par unité. |
concernant les frais de livraison et le délai de livraison estimé. |
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| Mode de paiement: |
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Paiement initial Paiement intégral |
| Devise: | US$ |
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| Retours et remboursements : | Vous pouvez demander un remboursement jusqu'à 30 jours après la réception des produits. |
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How do manufacturers ensure the precision of gear tooth profiles in gear reducers?
Manufacturers employ several techniques to ensure the precision of gear tooth profiles in gear reducers, which is crucial for optimal performance and efficiency:
1. Precision Machining: Gear teeth are typically machined using advanced CNC (Computer Numerical Control) machines that can achieve high levels of accuracy and repeatability. This ensures consistent gear tooth profiles across multiple components.
2. Quality Control Measures: Rigorous quality control processes, such as dimensional inspections and profile measurements, are performed at various stages of manufacturing to verify that gear tooth profiles meet the required specifications.
3. Tooth Profile Design: Engineers use specialized software and simulation tools to design gear tooth profiles with precise involute shapes and accurate dimensions. These designs are then translated into machine instructions for manufacturing.
4. Material Selection: High-quality materials with excellent wear resistance and dimensional stability are chosen to minimize the potential for deformation or inaccuracies during machining and operation.
5. Heat Treatment: Heat treatment processes, such as carburizing and quenching, are applied to enhance the surface hardness and durability of gear teeth, reducing the risk of wear and deformation over time.
6. Tooth Grinding and Finishing: After initial machining, gear teeth often undergo precision grinding and finishing processes to achieve the desired tooth profile accuracy and surface finish.
7. Post-Processing Inspection: Gear tooth profiles are inspected again after manufacturing processes to verify that the final components meet the specified tolerances and performance criteria.
8. Computer-Aided Manufacturing (CAM): CAM software is used to generate tool paths and machining instructions, enabling precise control over tool movements and material removal during gear manufacturing.
By combining these techniques and leveraging advanced manufacturing technologies, manufacturers can achieve the necessary precision in gear tooth profiles, resulting in reliable and efficient gear reducers for various industrial applications.
Comment les réducteurs de vitesse gèrent-ils les chocs et les variations soudaines de couple ?
Les réducteurs de vitesse sont conçus pour supporter les chocs et les variations soudaines de couple grâce à plusieurs mécanismes qui améliorent leur durabilité et leur fiabilité dans des conditions de fonctionnement difficiles.
1. Construction robuste : Les réducteurs sont fabriqués à partir de matériaux à haute résistance et selon des techniques de fabrication de précision. Ceci garantit que les engrenages, les roulements et les autres composants peuvent résister aux chocs soudains et aux fortes variations de couple sans se déformer ni se rompre.
2. Caractéristiques d'absorption des chocs : Certains réducteurs de vitesse intègrent des dispositifs d'absorption des chocs, tels que des accouplements flexibles, des éléments élastomères ou des engrenages à torsion flexible. Ces dispositifs contribuent à amortir et à dissiper l'énergie des chocs soudains ou des pics de couple, réduisant ainsi l'impact sur l'ensemble du système.
3. Limiteurs de couple : Dans les applications où les chocs sont fréquents, des limiteurs de couple peuvent être intégrés au réducteur. Ces dispositifs se désengagent ou patinent automatiquement lorsqu'un certain seuil de couple est dépassé, évitant ainsi d'endommager les engrenages et autres composants.
4. Protection contre les surcharges : Les réducteurs de vitesse peuvent être équipés de mécanismes de protection contre les surcharges, tels que des goupilles de cisaillement ou des capteurs de couple. Ces mécanismes détectent un couple excessif et désengagent temporairement la transmission, permettant ainsi au système d'absorber le choc ou de s'adapter à la variation soudaine de couple.
5. Lubrification adéquate : Une lubrification adéquate est essentielle pour gérer les chocs et les variations brusques de couple. Les lubrifiants de haute qualité réduisent la friction et l'usure, permettant ainsi au réducteur de résister aux forces dynamiques et de fonctionner en douceur.
6. Répartition dynamique de la charge : Les réducteurs répartissent les charges dynamiques sur plusieurs dents d'engrenage, ce qui contribue à prévenir les concentrations de contraintes localisées. Cette caractéristique minimise le risque de rupture des dents et d'endommagement des engrenages en cas de variations brusques de couple.
En intégrant ces caractéristiques de conception et ces mécanismes, les réducteurs d'engrenages peuvent gérer efficacement les chocs et les variations soudaines de couple, assurant ainsi la longévité et la fiabilité de divers systèmes industriels et mécaniques.
How do gear reducers contribute to speed reduction and torque increase?
Gear reducers play a crucial role in mechanical systems by achieving speed reduction and torque increase through the principle of gear ratios. Here’s how they work:
Gear reducers consist of multiple gears with different sizes, known as gear pairs. These gears are meshed together, and their teeth interlock to transmit motion and power. The gear ratio is determined by the ratio of the number of teeth on the input gear (driver) to the number of teeth on the output gear (driven).
Speed Reduction: When a larger gear (output gear) is driven by a smaller gear (input gear), the output gear rotates at a slower speed than the input gear. This reduction in speed is proportional to the gear ratio. As a result, gear reducers are used to slow down the rotational speed of the output shaft compared to the input shaft.
Torque Increase: The interlocking teeth of gears create a mechanical advantage that allows gear reducers to increase torque output. When the input gear applies a force (torque) to the teeth, it is transmitted to the output gear with greater force due to the leverage provided by the larger diameter of the output gear. The torque increase is inversely proportional to the gear ratio and is essential for applications requiring high torque at lower speeds.
By selecting appropriate gear ratios and arranging gear pairs, gear reducers can achieve various speed reduction and torque multiplication factors, making them essential components in machinery and equipment where precise control of speed and torque is necessary.
editor by CX 2024-03-29
