Description du produit
The Pump Drives (Hydraulic pump Drives) is a gearbox allowing the connection between a prime mover (internal combustion engine or electric motor for example) and 1 or more hydraulic pumps. Usually it is used on both stationary and mobile application where mechanical power must be converted into hydraulic power for the purpose of operating travel functions and services.
The hydraulic pumps drives gearboxes consist of a gear drive inside a CHINAMFG housing that connects to a gasoline or diesel engine. The opposite side contains 1 or more standard 2- or 4-bolt flanges for mounting hydraulic pumps. This configuration provides several benefits. For one, 2 or more identical pumps can be connected to provide nearly identical hydraulic output flow from each. Or different sized pumps can be used provide output flow proportional to the displacement of each pump.These gearboxes not only saves space and weight but also eliminates the number of components and reduces assembly time for the whole machinery. Our modular pump drives could allow driving 2 to 4 pumps simultaneously. This not only offers design flexibility, but can boost system efficiency as well.
| Modèle | 2 pumps drive | 3 pumps drive | 4 pumps drive | |||||||
| Parameter | KK190-2N | KK400-2N | KK530-2N | KK700-2N | KK280-3N | KK400-3N | KK530-3N | KK700-3N | KK530-4N | KK700-4N |
| Max. Input power (KW) | 190 | 400 | 530 | 700 | 280 | 400 | 530 | 700 | 530 | 700 |
| Max. Output power per pump pad (KW) | 110 | 210 | 270 | 360 | 150 | 210 | 270 | 360 | 270 | 330 |
| Max. Output torque per pump pad (Nm) | 400 | 900 | 1500 | 1900 | 800 | 900 | 1500 | 1900 | 1500 | 1800 |
| Max. Input speed (RPM) | 2800 | 2600 | 2600 | 2400 | 2800 | 2600 | 2600 | 2400 | 2600 | 2400 |
| Max. Output speed (RPM) | 3200 | 2800 | 2800 | 2700 | 3200 | 2800 | 2800 | 2700 | 2800 | 2700 |
| Transmission ratio | 0.74/0.81/0.89/0.98··· | 0.67/0.74/0.81/0.89/0.98··· | 0.67/0.74/0.81/0.89/0.98··· | 0.67/0.74/0.81/0.89/0.98··· | 0.74/0.81/0.89/0.98··· | 0.67/0.74/0.81/0.89/0.98··· | 0.67/0.74/0.81/0.89/0.98··· | 0.67/0.74/0.81/0.89/0.98··· | 0.67/0.74/0.81/0.89/0.98··· | 0.67/0.74/0.81/0.89/0.98··· |
| Mount size of Prime mover | SAE #3 #4 etc. | SAE #2 #3 etc. | SAE #1 #2 #3 etc. | SAE #0 #1 #2 etc. | SAE #3 #4 etc. | SAE #2 #3 etc. | SAE #1 #2 #3 etc. | SAE #0 #1 #2 etc. | SAE #1 #2 #3 etc. | SAE #1 #2 etc. |
| Port size of Single pump | SAE A,B,C flange etc. | SAE A,B,C,D flange etc. | SAE B,C,D,E flange etc. | SAE C,D,E flange etc. | SAE A,B,C flange etc. | SAE A,B,C,D flange etc. | SAE B,C,D,E flange etc. | SAE C,D,E flange etc. | SAE B,C,D,E flange etc. | SAE B C,D flange etc. |
| Housing material | Cast iron | Cast iron | Cast iron | Cast iron | Cast iron | Cast iron | Cast iron | Cast iron | Cast iron | Cast iron |
| Application: | Machinery, Agricultural Machinery |
|---|---|
| Function: | Distribution Power, Speed Changing, Speed Reduction, Speed Increase |
| Installation: | Horizontal Type |
| Taper: | Cylindrical Gear Box |
| Nom du produit : | Hydraulic Pump Drive |
| Conditon: | Nouveau |
| Exemples : |
US$ 4990/Piece
1 pièce (commande minimale) | |
|---|
| Personnalisation : |
Disponible
| Demande personnalisée |
|---|
Main Advantages of Using Miter Gearboxes for Space-Saving Design
Miter gearboxes offer several significant advantages when it comes to space-saving design:
Compact Configuration: Miter gearboxes are designed with bevel gears that transmit motion at a 90-degree angle within a single gearbox housing. This eliminates the need for additional components or complex transmission systems, resulting in a more compact overall design.
Efficient Use of Space: The 90-degree motion change provided by miter gearboxes allows for optimal space utilization in applications where a change in motion direction is required. This efficient use of space is particularly valuable in tight or constrained environments.
Integration into Small Spaces: Miter gearboxes are well-suited for integration into machinery, equipment, and systems with limited available space. Their compact design enables them to fit into confined areas without sacrificing performance.
Reduced Footprint: By eliminating the need for additional components or external motion-changing mechanisms, miter gearboxes help reduce the overall footprint of the system. This can be especially beneficial in applications where space is at a premium.
Enhanced Flexibility: The space-saving design of miter gearboxes allows engineers and designers to create more versatile and adaptable systems. Components can be arranged more efficiently, and the saved space can be allocated for other functional elements.
Modular Assembly: Miter gearboxes can be part of modular designs, where multiple components can be easily integrated and interconnected. This modular approach further contributes to space savings and allows for customization.
Cost Efficiency: The compact nature of miter gearboxes can lead to cost savings in terms of materials, manufacturing, and assembly. The simplified design also reduces the risk of potential failures or maintenance issues associated with more complex systems.
Overall, miter gearboxes offer a space-saving design that is valuable in a wide range of applications, from industrial machinery to robotics, where efficient use of available space is crucial.
Différences entre les boîtes de vitesses à engrenages coniques et les autres types de boîtes de vitesses
Les réducteurs à engrenages coniques possèdent des caractéristiques distinctes qui les différencient des autres types de réducteurs, tels que les réducteurs hélicoïdaux, à engrenages droits et planétaires. Ces différences contribuent à leurs capacités uniques et à leur adéquation à des applications spécifiques :
- Configuration des engrenages : Les réducteurs à engrenages coniques utilisent des engrenages à denture droite qui se croisent à angle droit. En revanche, les réducteurs à engrenages hélicoïdaux et droits utilisent des engrenages parallèles ou coplanaires, et les réducteurs planétaires comportent plusieurs engrenages disposés autour d'une roue solaire centrale.
- Changement de direction du mouvement : Les réducteurs à onglet excellent dans la modification du sens de rotation à 90 degrés. D'autres réducteurs peuvent modifier le sens de rotation selon différents angles ou le maintenir.
- Compacité : Les réducteurs à engrenages coniques sont réputés pour leur conception compacte, ce qui les rend adaptés aux applications où l'espace est limité. Les réducteurs planétaires, bien que compacts, possèdent une structure interne différente.
- Contrôle du jeu : Les réducteurs à engrenages coniques sont conçus pour minimiser le jeu et garantir une transmission de mouvement précise. Les réducteurs à engrenages hélicoïdaux et droits peuvent présenter un jeu plus important en raison de leur agencement, tandis que les réducteurs planétaires offrent un bon contrôle du jeu.
- Couple et vitesse : Les réducteurs se distinguent par leurs capacités de couple et de vitesse. Les réducteurs à engrenages coniques conviennent aux applications à couple et vitesse modérés, tandis que les réducteurs planétaires offrent une densité de couple élevée.
- Applications : Les réducteurs à engrenages coniques sont couramment utilisés pour les applications nécessitant des changements de direction de 90 degrés, comme les systèmes de convoyage, les machines d'impression et certains types d'équipements industriels. Les réducteurs à engrenages hélicoïdaux et droits sont répandus dans diverses machines et équipements. Les réducteurs planétaires sont utilisés en robotique, dans l'aérospatiale et dans les machines lourdes.
Chaque type de boîte de vitesses présente ses propres avantages et est choisi en fonction des exigences spécifiques de l'application, notamment les contraintes d'espace, la précision du contrôle du mouvement, le couple et les besoins en vitesse.
Handling High-Speed and Heavy-Load Applications in Miter Gearboxes
Miter gearboxes are versatile mechanical components that can handle a wide range of applications, including both high-speed and heavy-load scenarios. The suitability of a miter gearbox for a specific application depends on various factors, including design, material, lubrication, and overall engineering considerations.
When it comes to high-speed applications, miter gearboxes can be designed and manufactured to handle rotational speeds that are typical in various industries. Properly designed miter gearboxes will consider factors such as gear tooth profile, lubrication, and material selection to minimize friction, heat generation, and wear, allowing for efficient and reliable operation at high speeds.
Similarly, miter gearboxes can also be engineered to handle heavy-load applications. By using durable materials, precision machining, and robust bearing arrangements, miter gearboxes can efficiently transmit high levels of torque while maintaining structural integrity. The bevel gear arrangement in miter gearboxes is well-suited for distributing heavy loads evenly across the gear teeth, ensuring smooth and consistent power transmission.
It’s important to note that the specific design and capabilities of a miter gearbox will vary depending on the manufacturer and the intended application. Engineers and designers work to optimize gear ratios, bearing arrangements, and housing materials to ensure that the miter gearbox can handle the demands of the given application, whether it involves high speeds, heavy loads, or a combination of both.
Ultimately, miter gearboxes can provide reliable performance across a wide spectrum of operating conditions, making them a versatile choice for various industries and applications.
editor by CX 2023-11-28
