Product Description
Our company produces all series of hydraulic cylinders, including engineering cylinders, tie rod cylinders, earring cylinders, multi-section cylinders, flange cylinders, high pressure cylinders, heavy-duty cylinders, HSG series hydraulic cylinders, single-acting cylinders, two-way cylinders, and other non-standard customized hydraulic product. After years of practice, our company has accumulated rich experience in processing and installation. The parts are precision CNC machined by all series of horizontal lathe, and the seals are made of CHINAMFG imported famous brand products. The products are continuously improved and improved, and the quality and accuracy are reliable and stable. Our cylinder products have been exported to the Middle East. , Asia, Europe and the United States and other places, we have more than 10 years of cooperation with oil cylinder customers.
In order to achieve maximum quality control, 80% of our parts are produced by ourselves, among which we can process super-large hydraulic cylinder body parts and telescopic shaft parts with our large horizontal lathes, we can even turn hydraulic cylinders with a length of more than 11 meters, and The surface finish of the shaft cylinder can reach Ra1.6 directly through the lathe.
Our main products :
tie rod cylinder, welding cylinder, double-acting cylinder, single-acting cylinder, piston cylinder, plunger cylinder, single-rod cylinder, double-rod cylinder, etc.;
Technical parameters: The cylinder diameter is 32~320mm, the stroke is 5~6000mm, and the working pressure is 2.5~31Mpa;
The installation methods include flange, single ear, double ear, foot seat, hinge shaft, welded pipe, etc., and provide rod end connectors, including Y-type joint, I-type joint, joint bearing, welded pipe, etc.;
Workshop overview:
Our sheet metal fabrication workshop equipped with a series of cutting machines, including laser cutter, flame cutter, water jet cutter, and plasma cutter, with these advanced CNC machine we can cut the materials with high efficiency and high accuracy.
| Laser Cutting | Plasma Cutting | Flame Cutting | Water-jet Cutting | |
| Cutting Depth | 25mm | 100mm | 450mm | 250mm |
| Cutting Width | 3500mm | 4000mm | 6000mm | 3500mm |
| Cutting Length | 28000mm | 20000mm | 20000mm | 10000mm |
| Accuracy | ±0.2mm | ±1mm | ±0.8mm |
We have a series of imported CNC Machining equipment, including large gantry machining center, horizontal boring and milling machine, turning and milling compound center, large vertical lathe machining center, heavy horizontal lathe machining center, dmulti-hole drilling and other machining equipment facilities.
Our processing capabilities are as follows:
| Gantry Machining Center | Max Height:4000mm | Max Width:4500mm | Max Length: 12000mm | ||
| Large Boring Mill | X: 15000mm | Y:4000mm | Z+W:900+1000 mm | Max Weight: 250T | Bore Tool Dia: 280mm |
| Truning and Milling center | Height: 4500mm | Weight: 350T | Max Diameter:11000mm | ||
| Vertical Lathe | Height: 4000mm | Weight: 50T | Max Diameter: 5000mm | ||
| Horizontal Lathe | Max Length: 12m | Weight: 50T | |||
| Deep hole drilling | X:3000mm | Y:2500mm | Z:700mm | Hole Dia: 16-80mm | Depth: 700mm |
| Multi-hole drilling | X:7000mm | Y:3000mm | Z:700mm | Hole Dia:2-120mm | Depth: 320mm |
We have a complete welding platform, including plasma welding, strip surfacing, argon arc welding, TIG welding, laser welding, hand arc welding, and submerged arc welding equipment clusters. Welding methods include tube-sheet strip surfacing, automatic submerged arc welding, carbon dioxide gas shielded welding, argon tungsten arc welding, electrode arc welding, plasma welding, etc. The materials that can be welded are carbon steel, alloy steel, stainless steel, and non-ferrous metals such as copper, aluminum, and titanium.
To ensure that the quality strictly meets the requirements, we have special quality inspectors to supervise and review the product quality for all projects, and we are equipped with a variety of inspection methods. For welding, we have magnetic particle inspection, X-ray inspection and other methods to inspect the weld quality. For precision machined products, we use advanced three-coordinate testing equipment to check product size, flatness, parallelism, concentricity, etc. For precision machined surfaces, we will also use special testing equipment to check that the surface roughness perfectly meets the acceptance criteria. Moreover, we will custom make inspection methods to serve for their project.
Inspection Facilites:
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| Certification: | ISO9001 |
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| Pressure: | Medium Pressure |
| Work Temperature: | Normal Temperature |
| Acting Way: | Double Acting |
| Working Method: | Rotary |
| Adjusted Form: | Switching Type |
| Samples: |
US$ 2500/Ton
1 Ton(Min.Order) | |
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| Customization: |
Available
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How do rotary cylinders manage variations in load capacity and weight?
Rotary cylinders are designed to effectively manage variations in load capacity and weight in different applications. Here’s a detailed explanation:
1. Size and Configuration: Rotary cylinders come in various sizes and configurations to accommodate a wide range of load capacities and weights. Larger cylinders with larger piston areas can handle greater loads, while smaller cylinders are suitable for lighter loads. The selection of the appropriate cylinder size and configuration is crucial to match the specific load requirements.
2. Pressure and Force: Rotary cylinders utilize fluid pressure to generate the necessary force for rotation. By adjusting the pressure within the cylinder, the force output can be regulated to match the variations in load capacity and weight. Higher pressure is applied for heavier loads, while lower pressure is sufficient for lighter loads.
3. Load Balancing: In applications where there are variations in load capacity or weight distribution, multiple rotary cylinders can be used to balance the load. By distributing the load across multiple cylinders, the individual load capacity of each cylinder is reduced, ensuring that no single cylinder is overloaded.
4. Positioning and Center of Gravity: Proper positioning of the load and consideration of the center of gravity are important when managing variations in weight. Ensuring that the load is balanced and properly supported helps distribute the weight evenly and reduces strain on the rotary cylinder.
5. Safety Factors: When dealing with variations in load capacity and weight, it is essential to incorporate safety factors into the design and selection of rotary cylinders. Safety factors account for uncertainties and unexpected variations in the load, ensuring that the cylinder can handle occasional peak loads or weight fluctuations without compromising safety and performance.
6. Manufacturer Guidelines: Manufacturers provide load charts, technical specifications, and guidelines for their rotary cylinders. These resources outline the load capacities and weight limits for different cylinder sizes and configurations. It is crucial to consult these guidelines to ensure that the selected rotary cylinder is suitable for the specific load requirements.
7. Regular Maintenance and Inspection: Regular maintenance and inspection of rotary cylinders are necessary to ensure their continued performance and safe operation. This includes checking for any signs of wear, leaks, or damage that may affect the cylinder’s load-bearing capacity. Timely maintenance and replacement of worn components help manage variations in load capacity and weight effectively.
By considering these factors and following manufacturer recommendations, rotary cylinders can effectively manage variations in load capacity and weight in a wide range of applications.
Can rotary cylinders be used in manufacturing machinery for indexing?
Yes, rotary cylinders can be used in manufacturing machinery for indexing. Here’s a detailed explanation:
Indexing refers to the precise positioning of components, workpieces, or tools at specific intervals or angles in manufacturing processes. Rotary cylinders are well-suited for indexing applications due to their ability to provide controlled and precise rotational motion. Here’s how they are used:
1. Rotary Motion Generation: Rotary cylinders convert fluid power, either hydraulic or pneumatic, into rotary motion. By controlling the flow of fluid into and out of the cylinder, the rotary motion can be accurately regulated. This controlled rotation is essential for indexing applications where precise angular positioning is required.
2. Angular Displacement: Rotary cylinders enable angular displacement with high accuracy. They can rotate a component or workpiece to a specific angle or index it at precise intervals. This capability is crucial in manufacturing processes that involve operations such as cutting, drilling, assembly, or inspection at specific angular positions.
3. Positioning Accuracy: Rotary cylinders offer excellent positioning accuracy, allowing for precise indexing. By combining precise control of fluid flow with position feedback devices such as rotary encoders or potentiometers, the cylinder can accurately reach and maintain specific angular positions. This level of positioning accuracy ensures that indexing operations are performed with high precision and repeatability.
4. Speed and Acceleration Control: Rotary cylinders provide control over the rotational speed and acceleration, enabling smooth and gradual indexing movements. By adjusting the fluid flow rate or pressure, the rotational velocity and acceleration can be precisely controlled. This feature is particularly beneficial in indexing applications that require gradual start-up or deceleration to prevent abrupt movements or damage to the workpiece.
5. Compact and Lightweight Design: Rotary cylinders are often designed to be compact and lightweight, making them suitable for integration into manufacturing machinery. Their compact size allows for efficient use of space, while their lightweight nature reduces rotational inertia and enables faster response times. These design characteristics contribute to the overall efficiency and performance of indexing operations.
6. Integration with Control Systems: Rotary cylinders can be seamlessly integrated into control systems such as programmable logic controllers (PLCs) or computer numerical control (CNC) systems. This integration enables precise coordination and synchronization of the rotary motion with other machine operations, ensuring accurate indexing within the overall manufacturing process.
7. Customization: Manufacturers offer a wide range of rotary cylinder models with different sizes, load capacities, and performance characteristics. This allows users to select the most suitable cylinder for their specific indexing application. Customization options further enhance the ability to tailor the cylinder’s performance to meet specific indexing requirements.
8. Compatibility with Machine Tools: Rotary cylinders can be integrated with machine tools used in manufacturing processes. They can be coupled with indexing tables, rotary stages, or tool turrets to achieve precise angular positioning and indexing of workpieces or tools. This integration enhances the versatility and functionality of the manufacturing machinery.
By incorporating these features, rotary cylinders contribute to efficient and accurate indexing in manufacturing machinery, enabling precise positioning and synchronization of components or tools in various industrial processes.
Can rotary cylinders be used for both rotary motion and linear motion?
No, rotary cylinders are specifically designed for generating rotary motion and are not typically used for linear motion. Here’s a detailed explanation:
Rotary Motion:
Rotary cylinders, also known as rotary actuators, are primarily used to convert fluid power into rotational motion. They are designed to generate torque and rotate around a central axis. The rotational movement can be in a full 360-degree rotation or limited to a specific angle depending on the application and the design of the cylinder.
Linear Motion:
For linear motion, a different type of actuator, such as linear cylinders or linear actuators, is used. Linear cylinders are specifically designed to generate linear motion by extending or retracting a piston rod in a linear path. These actuators are commonly used in applications where straight-line movement is required, such as pushing, pulling, lifting, or sliding objects.
Differences:
The design and internal mechanism of rotary cylinders are optimized for rotational motion, while linear cylinders are designed to provide linear motion. These two types of actuators have different structures and operating principles to fulfill their respective purposes.
While rotary cylinders cannot directly produce linear motion, they can be part of a system that combines both rotary and linear motion. For example, in some applications, a rotary cylinder can be used to generate rotational motion, which is then converted into linear motion using additional mechanisms such as racks, gears, or linkages.
It’s important to choose the appropriate type of actuator based on the desired motion requirements of the specific application. Manufacturers’ documentation and guidelines should be consulted to determine the most suitable actuator for a particular motion requirement.
editor by CX 2024-01-16