Pneumatic Actuator for Ball Valve Butterfly Valve, an epitome of our relentless pursuit of technical perfection, unparalleled quality, and industry-leading knowledge. This innovative device is explicitly engineered to convert compressed air into mechanical motion, providing seamless control over valve positioning across a multitude of industrial operations.

The Valve Pneumatic Actuator for Ball Valve Butterfly Valve stands as a testament to exceptional performance and robust construction. It incorporates a high-performance pneumatic motor, precisely designed to transform compressed air into mechanical torque with minimal energy loss. The motor collaborates seamlessly with a robust gearing system to enhance torque output and ensure smooth, reliable operation.


What is a valve pneumatic actuator?

A Valve Pneumatic Actuator is a type of actuator that uses pressurized air to generate force and move objects from one position to another. It is used in both industrial and commercial applications, such as in the operation of valves, clutches, ball valve ,butterfly valve and other machinery. Generally speaking, these actuators are capable of providing high speed with low power consumption – an important factor when considering the use of pneumatics for large scale applications.

Pneumatic Actuators are usually powered by an air compressor connected to a piping system leading up to the actuating device. A control unit then commands the actuator either open or close depending on user requirements. Various controls can be applied in order to regulate speed and accuracy desired: manual push-button controls (for simple systems), solenoid valve control (for larger systems) or computerized programmable logic controllers (to provide complete closed loop control).

What types of pneumatic actuators are there?

Discover two types of pneumatic actuators: the compact rack and pinion type, boasting an impressive output torque of 8000NM, and the formidable fork type, delivering an extraordinary output torque of 100000NM.

Which valves can pneumatic actuators be used for?

Introducing the versatile pneumatic actuator – perfect for butterfly valves and ball valves. This quarter-turn powerhouse boasts ISO5211 connection dimensions for seamless integration.

What accessories are available for pneumatic actuators?

Pneumatic actuators are incredibly versatile and can be used in a wide range of applications. To make them even more effective, there are several accessories available that can enhance their performance and functionality. These include:

1) Positioners: Positioners allow for precise control of the actuator position by providing feedback to the system controller. This allows for increased accuracy when controlling pressure or force.

2) Solenoid Valves: Solenoid valves open and close based on an electrical signal, allowing you to remotely control your pneumatic actuator with greater ease than ever before.

3) Silencers / Mufflers: Exhaust silencers reduce noise generated by the exhaust port of your pneumatic actuator, ensuring quieter operation and a better work environment.

4) Filters/Regulators/Lubricators (FRL): FRLs ensure proper lubrication of your pneumatic components as well as regulating air pressure both upstream and downstream from your valve or cylinder assembly. This helps to maximize efficiency which will save money over time while also increasing lifespan of components like hoses, seals, fittings etc..

5) Pressure Switches/Monitors: Pressure switches enable automatic shutoff when certain pressures have been reached while monitors provide accurate readings about pressure levels at any given moment via an electronic display panel or digital readout.

6) Cylinder Sensors & Switches (Valve Monitors): Valve monitors provide sensors placed strategically along pipework which monitor flow rates, velocity differences, temperatures etc… all enabling you to regulate the speed at which you’re running operations effectively minimizing delays due to errors in reading data from these vital sources like air consumption rate etc…

7) Limit Switches & Lawfully Operated (LOP’s): Limit switches act as gatekeepers disabling operating systems beyond preset limits set by engineers creating accuracy within safe zones it could potential operate within if allowed user access without fail-safes such as limit switches enabled for safety purposes . LOP’s increase safety measures further through lessening risk factors encountered during malfunctioning norms associated with automation processes where this feature is used regularly .

What are the differences between pneumatic actuators and electric actuators?

Pneumatic and electric actuators are two types of technologies used to convert energy into motion. While pneumatic actuators use compressed air, electrical actuators use an electronic signal for this purpose. This is one of the most fundamental differences between these two technologies; however, there are other key distinctions worth noting.

The main advantage of pneumatic actuators is their low cost and easy maintenance requirements. Pneumatics also offer a high power-to-weight ratio, meaning they can be used in applications where strength is needed but space is limited. In addition, pneumatics have relatively quick response times which make them useful in applications with dynamic systems like conveyor belts or robotic arms that require frequent adjustments.

In contrast to pneumatics, electric actuators offer higher accuracy and repeatability due to their continuous torque output — making them ideal for automated manufacturing processes that require precision control over movement. Additionally, electric motors come in a variety of sizes and designs which enable more flexible options when it comes to platform integration with existing systems or structures containing components that cannot accommodate conventional air cylinders or motors. Electric engines also produce less noise than pneumatic versions which makes them suitable for settings where lower noise levels are necessary such as hospital operating rooms or recording studios.