Product Description
Hydraulic Cylinder Design Options
A wide range of options, bore sizes, and styles to fit your needs
Work with expert hydraulic cylinder design engineers to develop custom welded hydraulic cylinders that are ideally suited to your specific application. There are a wide range of options and considerations for your custom cylinder, including:
- Size. We can develop cylinders with 1- to 9-inch bore and stroke up to 12 inches
- Duty. We’ll help you determine whether you need light-, medium- or heavy-duty, up to 5,000 psi, hydraulic cylinders.
- Style. Select the best style for your cylinder, whether that’s single- or double-action, displacement or piggyback style.
- Mounting. Choose from clevis, trunnion, single-tang, plate, or double-ended cylinder mounting styles.
- Shafting. There are multiple shafting materials available including chrome plated, nitrided, and induction-hardened chrome plated shafting
- Integration. Our engineers can help develop manifolds with valve integration for base, head or tube mounted.
- Options. We’ll help you select the best options for optimizing your cylinders including port block fluid lines and cushioning.
- Smarts. Smart cylinders incorporate sensors for accurate feedback and optimizing electrohydraulic control. Our engineers will guide you through the smart solutions for your custom cylinders.
- Seals. GD Machhinery inventories thousands of different seals for a variety of applications and sizes ensuring that the seals used in your hydraulic cylinders will perform.
Features
>Counterbalance
>Overload Protection
> Regenerative Circuits
> Load Locking
>Sequence Control
>Flow Control/ Velocity Fuse
> Thermal Protection
>Master / Slave Circuits
> Directional Control
>Pressure Control
>Proportional Flow Product
When your application requires counterbalance or pilot-operated check valves, the ideal location is directly mounted to the cylinder because it continues to provide load holding protection even when a hose fails. From basic single or dual counterbalance valves to complex integrated circuits, our team will design your cylinders with compact valve manifolds.
Direct Mounting Can Eliminate
- Mounting brackets
- Hardware
- Fluid connectors
- Assembly time
Compact Valve Manifolds Can Meet
- Broad safety expectations
- Performance requirements
- Aesthetics
Packaging
Metal case,plywood case/carton or as customers’ requirements.
Other cylinder types
Hydraulic cylinders can be built according to your drawings or technical requirement.
For more inquiries,Joyce will be so glad to be at your service.
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| Certification: | RoHS, ISO9001 |
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| Pressure: | Medium Pressure |
| Work Temperature: | Normal Temperature |
| Samples: |
US$ 30/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
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| Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How does a lift cylinder handle variations in cylinder size and capacity?
A lift cylinder is designed to handle variations in cylinder size and capacity to accommodate different lifting requirements. Here’s an explanation of how lift cylinders handle these variations:
1. Size and Dimensions:
Lift cylinders come in various sizes and dimensions to suit different applications. The cylinder size refers to its overall dimensions, such as the diameter and length of the cylinder body. Lift cylinders can be manufactured in a range of sizes, allowing for flexibility in selecting the appropriate cylinder size based on the specific lifting needs. Larger cylinders are capable of generating greater lifting force, while smaller cylinders are more compact and suitable for applications with limited space.
2. Capacity and Load Rating:
The capacity of a lift cylinder refers to the maximum load it can lift safely. Lift cylinders are rated for specific load capacities, and it is important to select a cylinder with a suitable capacity for the intended lifting task. Lift cylinders with higher load ratings are designed to handle heavier loads, while cylinders with lower load ratings are suitable for lighter loads. The capacity of the lift cylinder is determined by factors such as its construction, materials, and structural integrity.
3. Hydraulic Pressure:
The hydraulic pressure applied to the lift cylinder affects its lifting capacity and force generation. By adjusting the hydraulic pressure within the system, operators can control the lifting capability of the cylinder. Higher hydraulic pressure results in increased lifting force, allowing the cylinder to handle larger loads. Conversely, lower hydraulic pressure reduces the lifting capacity of the cylinder, making it suitable for lighter loads. The hydraulic pressure can be regulated using control valves or pressure relief valves within the hydraulic system.
4. Application-specific Design:
Lift cylinders are designed to meet the requirements of specific applications. Manufacturers take into consideration factors such as load characteristics, operating conditions, and safety considerations when designing lift cylinders. This ensures that the cylinder size and capacity are matched to the demands of the application, allowing for efficient and safe lifting operations.
5. Customization Options:
In some cases, lift cylinders can be customized to fit specific size or capacity requirements. Manufacturers may offer customization options such as special sizes, load capacity modifications, or additional features to meet unique application needs. Customization allows for a tailored solution that optimizes the performance and efficiency of the lift cylinder in a particular setting.
In summary, lift cylinders handle variations in cylinder size and capacity by offering a range of sizes and load ratings. The hydraulic pressure can be adjusted to match the lifting requirements, and lift cylinders can be customized for specific applications. With their versatility and adaptability, lift cylinders provide efficient and reliable lifting capabilities across a wide range of industries and lifting tasks.
Can lift cylinders be used in manufacturing and production machinery?
Yes, lift cylinders are commonly used in manufacturing and production machinery. Lift cylinders, also known as hydraulic cylinders, are devices that generate linear force and motion through the use of pressurized hydraulic fluid. They are widely employed in various industrial applications for lifting, pushing, pulling, and holding heavy loads.
In manufacturing and production machinery, lift cylinders play a crucial role in providing controlled movement and force for a wide range of tasks. Here are some examples of how lift cylinders are used:
- Material Handling: Lift cylinders are utilized in machinery such as forklifts, cranes, and material handling equipment to lift and transport heavy objects. They allow for precise positioning and movement of loads, improving efficiency and safety in material handling operations.
- Assembly and Automation: Lift cylinders are integrated into assembly lines and automated machinery to perform tasks like part insertion, pressing, and clamping. They provide the necessary force and motion required for assembling components or joining parts together.
- Presses and Punching Machines: Lift cylinders are employed in presses and punching machines to exert force for bending, forming, and shaping materials. These cylinders ensure accurate and consistent results in metalworking processes.
- Industrial Robots: Lift cylinders are used in robotic systems to enable lifting and manipulation of objects. They facilitate the controlled movement of robot arms and end-effectors, allowing robots to perform tasks such as pick-and-place operations, welding, and painting.
Lift cylinders offer several advantages in manufacturing and production machinery. They provide high force capabilities, precise control over movement, compact design, and the ability to operate in various orientations. Furthermore, their hydraulic nature allows for smooth and gradual acceleration and deceleration, reducing the risk of damage to the machinery or the materials being handled.
In conclusion, lift cylinders are extensively utilized in manufacturing and production machinery across different industries. Their versatility, reliability, and ability to generate controlled linear force make them essential components in a wide range of industrial applications.
What are the safety considerations when using lift cylinders?
When using lift cylinders, it is crucial to prioritize safety to prevent accidents and ensure the well-being of operators and bystanders. Here are some important safety considerations when using lift cylinders:
1. Proper Training:
Operators should receive proper training on the safe operation of lift cylinders. They should be familiar with the equipment’s capabilities, limitations, and recommended operating procedures. Training should include understanding hydraulic systems, load capacities, stability factors, and proper positioning techniques.
2. Inspection and Maintenance:
Routine inspection and maintenance of lift cylinders are essential for identifying any potential safety hazards. Regularly check for leaks, damaged components, loose connections, or signs of hydraulic fluid contamination. Ensure that all safety features, such as pressure relief valves and load holding devices, are functioning correctly.
3. Load Capacity and Stability:
It is crucial to know and adhere to the lift cylinder’s load capacity limits specified by the manufacturer. Overloading the cylinder can lead to equipment failure, instability, or uncontrolled movements. Properly distribute the load to maintain stability and prevent tipping or imbalance.
4. Secure Mounting:
Ensure that the lift cylinder is securely mounted to the equipment or structure. Follow the manufacturer’s guidelines for proper attachment methods and torque specifications. Loose or improper mounting can compromise the stability and safety of the lifting operation.
5. Control of Movement:
Exercise caution and maintain control over the movement of the lift cylinder. Avoid sudden or jerky motions that can destabilize the load or cause the equipment to tip. Use smooth and controlled movements, and be aware of any potential obstacles or hazards in the surrounding area.
6. Personal Protective Equipment (PPE):
Operators and personnel involved in the lifting operation should wear appropriate personal protective equipment, such as safety glasses, gloves, and steel-toed shoes. PPE helps protect against potential hazards, including hydraulic fluid leaks, falling objects, or accidental contact with moving parts.
7. Emergency Procedures:
Establish clear emergency procedures in case of equipment malfunction, hydraulic system failure, or any other unforeseen circumstances. Operators should be trained on how to respond to emergencies, including proper shutdown procedures, communication protocols, and evacuation plans.
8. Environmental Factors:
Consider the environmental conditions in which the lift cylinders are being used. Factors such as extreme temperatures, high humidity, or corrosive atmospheres can affect the cylinder’s performance and safety. Take appropriate measures, such as using protective covers or selecting cylinders with suitable material coatings, to mitigate these risks.
In summary, ensuring safety when using lift cylinders involves proper training, regular inspection and maintenance, adhering to load capacity limits, secure mounting, controlled movement, using personal protective equipment, establishing emergency procedures, and considering environmental factors. By following these safety considerations, the risk of accidents or injuries associated with lift cylinder operations can be minimized.
editor by CX 2024-01-07