China Custom Robot End Clamp Three Specified Core Clamp Claw Cylinder vacuum pump electric

Product Description

Main Information


Order Information
No Type Cylinder bore Standard stroke Max stroke Chucking power
1 PST-1000/8 0 8 8 1000N
2 PST-1800/10 0 10 10 1800N
3 PST-3100/13 0 13 13 3100N
4 PST-6000/16 0 16 16 6000N
5 PST-7100/25 0 25 25 7100N
6 PST-9500/30 0 30 30 9000N






1.Q:Do you have distributors?
A:Yes, we already had some distributors at some countries.
2.Q:Do you accept OEM and ODM?
A:Yes, our fence could be customized.
3.Q:Could you provide samples to the customers?
A:We have small sample of fence for the customer to check the quality and the connection method.
4.Q:Are you a manufacture or trading company?
A:Yes, we are a manufacturer.
5.Q:Can we do the design for us ?
  A:Sure can we. There are a variety of technicists and engineers support us.
6.Q:What about the lead time for mass production?
  A:Regular sizes are available in stock, we will prepare products as soon as possible in accordance to your need.
7.Q:Which countries do you have clients in?
    A:Many countries, such as the United States, Canada, Germany, France, the Philippines, South Korea, Japan, Malaysia, Africa, Russia, and so on
8.Q:Hi can you share your product catalog?
   A:Yes, we can share our catalogue to you.




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Type: Tool Changer Adapter
Working Style: Rotary Type
Air Wrench Type: Pulse pneumatic wrench
Pneumatic Drill Range: Construction Machinery
Brand: Aotto
Degree of Automation: Automatic


rotary cylinder

What safety considerations are important when working with machinery equipped with rotary cylinders?

Working with machinery equipped with rotary cylinders requires careful attention to safety to prevent accidents and ensure the well-being of operators and bystanders. Here are important safety considerations to keep in mind:

1. Hazard Identification: Identify potential hazards associated with the machinery and its rotary cylinders. This includes understanding the risks posed by rotating parts, high-pressure fluid systems, pinch points, and potential entanglement hazards.

2. Risk Assessment: Conduct a thorough risk assessment to evaluate the potential risks and their severity. Identify measures to mitigate risks and prioritize safety controls accordingly.

3. Safety Guards and Enclosures: Install appropriate safety guards and enclosures to prevent access to hazardous areas, such as rotating components or fluid lines. Ensure that these guards are securely in place and cannot be easily bypassed.

4. Lockout/Tagout Procedures: Develop and enforce lockout/tagout procedures to ensure that machinery equipped with rotary cylinders is properly shut down and de-energized during maintenance or repair activities. This prevents unexpected movement of the cylinders and the potential for injury.

5. Training and Competence: Provide comprehensive training to operators and maintenance personnel on the safe operation of machinery equipped with rotary cylinders. Ensure that they are competent in identifying hazards, understanding safety procedures, and implementing safe work practices.

6. Regular Maintenance and Inspections: Implement a routine maintenance program to keep the machinery and rotary cylinders in good working condition. Regularly inspect the cylinders, fluid lines, fittings, and connections for signs of wear, leaks, or damage. Replace any faulty components promptly.

7. Pressure Relief and Emergency Stop Systems: Install pressure relief valves and emergency stop systems to safely control and halt the operation of machinery in case of emergencies or unexpected events.

8. Warning Signs and Labels: Clearly display warning signs and labels to communicate potential hazards and safety instructions related to the machinery equipped with rotary cylinders. Ensure that operators and other personnel are aware of and understand these warnings.

9. Personal Protective Equipment (PPE): Provide appropriate PPE, such as safety glasses, gloves, and protective clothing, to operators and maintenance personnel. PPE should be used in accordance with relevant safety standards and risk assessments.

10. Continuous Safety Improvement: Foster a culture of continuous safety improvement by encouraging reporting of near misses, conducting regular safety audits, and addressing any identified safety concerns promptly.

It’s essential to comply with local safety regulations and industry standards specific to the machinery and applications using rotary cylinders. Additionally, consult manufacturers’ documentation and guidelines for specific safety considerations related to the rotary cylinders used in the machinery.

rotary cylinder

Can rotary cylinders be applied in both mobile and stationary machinery?

Yes, rotary cylinders can be applied in both mobile and stationary machinery. Here’s a detailed explanation:

1. Mobile Machinery: Rotary cylinders find extensive use in mobile machinery, such as construction equipment, agricultural machinery, material handling equipment, and transportation vehicles. In these applications, rotary cylinders enable controlled rotational motion for various functions, including steering, lifting, tilting, opening and closing attachments, and actuating hydraulic brakes. The compact design and versatility of rotary cylinders make them well-suited for mobile machinery, where space and weight considerations are crucial.

2. Stationary Machinery: Rotary cylinders are also widely utilized in stationary machinery across various industries. They play a crucial role in applications such as industrial automation, manufacturing processes, packaging equipment, robotics, and machine tools. In stationary machinery, rotary cylinders provide controlled rotation for tasks such as part positioning, indexing, clamping, cutting, and material handling. The precise and repeatable rotational motion offered by rotary cylinders contributes to the overall efficiency and productivity of stationary machinery.

3. Versatile Mounting Options: Rotary cylinders come with versatile mounting options, allowing them to be easily integrated into different types of machinery, whether mobile or stationary. They can be mounted in various orientations and configurations to suit specific application requirements. This flexibility in mounting ensures that rotary cylinders can be effectively applied in diverse machinery designs.

4. 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 mobile or stationary machinery application. Additionally, rotary cylinders can be customized to meet specific requirements, such as stroke length, rotational speed, and mounting interfaces, further enhancing their applicability in both mobile and stationary contexts.

5. Environmental Considerations: Rotary cylinders are designed and engineered to withstand various environmental conditions encountered in both mobile and stationary machinery. They are constructed using durable materials that can withstand factors such as vibration, shock, temperature variations, and exposure to dust, moisture, or corrosive substances. This ensures reliable performance and longevity, regardless of whether the machinery is mobile or stationary.

6. Integration with Control Systems: Rotary cylinders can be seamlessly integrated into control systems, such as hydraulic or pneumatic control circuits, electronic control units (ECUs), or programmable logic controllers (PLCs). This integration allows for precise control and coordination of the rotary motion with other machine functions, enabling efficient operation and automation in both mobile and stationary machinery.

Overall, the adaptability, versatility, and performance characteristics of rotary cylinders make them suitable for application in a wide range of machinery, whether it is mobile or stationary, contributing to enhanced functionality and efficiency in various industries.

rotary cylinder

What are the key components and design features of a rotary cylinder?

A rotary cylinder consists of several key components and design features that enable its operation. Here’s a detailed explanation:

Key Components:

1. Housing: The housing is a cylindrical structure that encloses the internal components of the rotary cylinder. It provides support and protection to the internal mechanisms.

2. Piston or Vane: The piston or vane is the component that converts fluid pressure into rotary motion. In rack-and-pinion rotary cylinders, the piston engages with a rack to generate rotation. In vane or gear rotary cylinders, the piston or vane is responsible for creating the rotary motion directly.

3. Seals: Seals are used to prevent leakage of fluid and maintain pressure within the cylinder. They are typically made of rubber or other materials that provide a tight and reliable seal.

4. Bearings: Bearings are used to support the rotating components and reduce friction. They ensure smooth and efficient movement of the piston or vane within the cylinder.

Design Features:

1. Mechanism Type: Rotary cylinders can have different mechanism types, such as rack-and-pinion, vane, or gear mechanisms. The choice of mechanism depends on factors such as the required torque, speed, and application requirements.

2. Mounting Options: Rotary cylinders may have various mounting options to facilitate their installation and integration into different machinery or systems. Common mounting options include flange mounts, foot mounts, and trunnion mounts.

3. Fluid Connections: Rotary cylinders require fluid connections to supply hydraulic fluid or compressed air for their operation. These connections allow the cylinder to receive and release the fluid as needed to generate the rotary motion.

4. Motion Control: Some rotary cylinders may feature additional components for motion control, such as position sensors or limit switches. These components allow for precise control and monitoring of the rotary motion, enabling automation and system feedback.

5. Size and Capacity: Rotary cylinders come in various sizes and capacities to accommodate different application requirements. The size and capacity of a rotary cylinder determine its torque output, speed capabilities, and overall performance characteristics.

6. Material Selection: The materials used in the construction of a rotary cylinder are chosen based on factors such as strength, durability, and compatibility with the operating environment. Common materials include steel, aluminum, and various alloys.

Overall, the key components and design features of a rotary cylinder work together to convert fluid power into rotary motion efficiently and reliably. These components and features ensure smooth operation, precise control, and the ability to meet the demands of specific applications.

It’s important to consult the manufacturer’s documentation and guidelines for specific information on the components, design, and maintenance of rotary cylinders.

China Custom Robot End Clamp Three Specified Core Clamp Claw Cylinder   vacuum pump electricChina Custom Robot End Clamp Three Specified Core Clamp Claw Cylinder   vacuum pump electric
editor by CX 2023-12-29