Download Top 5 Things to Consider When Choosing a Direct Acting Solenoid

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Document related concepts

Flow measurement wikipedia, lookup

Bernoulli's principle wikipedia, lookup

Reynolds number wikipedia, lookup

Turbulence wikipedia, lookup

Compressible flow wikipedia, lookup

Flow conditioning wikipedia, lookup

Aerodynamics wikipedia, lookup

Fluid dynamics wikipedia, lookup

Rheology wikipedia, lookup

Hydraulic machinery wikipedia, lookup

Valve wikipedia, lookup

Valve actuator wikipedia, lookup

Safety valve wikipedia, lookup

Transcript
Technical Tips
Top 5 Things to Consider When Choosing a Direct
Acting Solenoid Valve
Solenoid valves are an efficient method of converting electrical signals into pneumatic
functions. Applying electricity to a direct acting solenoid valve creates a magnetic field
within the coil which attracts an internal armature and allows air flow through the ports.
Below are the top five things to consider when choosing a direct acting solenoid valve
for any pneumatic application.
1. Flow Rate - How much flow is needed at the output port of the valve? Just like
manual valves, it is important to know the required flow rate of your application
in order to correctly size a direct acting solenoid valve. If the valve is too large
for the application, you will be wasting air & money. If it’s too small for the
application, the actuator will not function properly.
2. Power Requirements - Commonly referred to as voltage and wattage, the power available to the application will help determine the
correct solenoid for the pneumatic circuit. Keep in mind that flow is limited by the valve’s orifice and a bigger orifice requires a larger
power source to open.
If you have high flow requirements and a low power supply, consider using a pilot operated valve. If your power supply is limited, for
example the application runs on a battery, a latching solenoid valve is often an ideal fit.
3. Electric Connector - How will the solenoid valve be connected to the power source in your application? The choice of using a spade
connector or flying leads when installing a solenoid valve is based on personal preference. Both styles are easy to install, however, the
combination of the spade and a DIN connector simplifies any necessary valve replacement.
4. Operating Pressure - The pressure required to operate a solenoid valve is known as the operating pressure (psi). Since operating
pressure greatly affects flow rate, it is important to review the performance data presented by the manufacturer to ensure that the valve
will perform as required in your application. For example, at 50 psi a valve can have a flow rate of 9 scfm whereas at 125 psi, the same
valve can have a flow rate of 20 scfm.
5. Port Size - Direct acting solenoid valves must be installed on a single base or multiple-station manifold to allow air flow to the
pneumatic circuit. Review the port sizes in the base or manifold to ensure that the correct fittings are purchased to connect the tubing
lines in the application.
Contact Pneumadyne for more information about our direct acting solenoid valves.
Pneumadyne, Inc.
Plymouth, MN 55447
Telephone: 763-559-0177
Fax: 763-559-0547
Email: [email protected]
www.pneumadyne.com
Leaders in Actuation.
To learn more, scan this QR code
with your mobile device.