What is Full Bore General Purpose Solenoid Valve?
The full bore general purpose solenoid valve is an electromagnetic valve. The solenoid turns on and off by moving an armature around the coil. Allows a channel to be opened and closed by a solenoid valve, pilot valve, or other system. The full bore general purpose solenoid valve is usually of a water, air or gas-tight construction and is used in many different industrial applications. Full bore general purpose solenoid valves are especially used in low flow applications and thanks to the full passage feature, the entire flow can be passed when the valve is open.
Where is Full Bore General Purpose Solenoid Valve Used?
Full bore general purpose solenoid valves are used in many different industrial applications. For example:
- It is used to manage air flow in ventilation systems and opens and closes air ducts.
- It is used to manage water flow in plumbing systems and opens and closes water channels.
- In automatic irrigation systems, it opens and closes the irrigation channels and thus automates the irrigation process.
- It is used to manage the product transition in industrial production lines and provides or prevents the transition of the product.
Solenoid valves are manufactured in two types as normally closed (to open the closed valve when the coil receives energy) and normally open (to close the open valve when it receives energy from the coil).
Normally Closed Operation System
Normally Closed Solenoid valve initially allows the passage of fluid. In order for the valve to open, the coil moves with the electric current coming to the coil, pulls the core upwards and opens the mouth of the orifice hole, and thus, the fluid under high pressure advances to the outlet quickly from the bypass hole. With this progress, the pressure inside drops very quickly and a pressure difference occurs inside. Due to this difference, the diaphragm overcomes the spring force and rises upwards and fluid passage is allowed, so the valve is in the open position. All this happens in a very short time. Our product is designed to get the best efficiency.
General features
- Gasket: PTFE / Viton
- Sleeve: Brass
- Body: Brass
- Core: Stainless
- Temperature: -10 / +90 °C
- Coil: Socket
Suggestions
Mount the solenoid valve so that the coil is up. In the installation, such as a strainer before the solenoid valve, etc. use filters. We use more durable diaphragm and gasket material for high temperatures.
Specify your diaphragm and gasket request for high temperature in your orders.
Things to Consider When Choosing a Solenoid Valve:
- The coil should be selected in accordance with the operating voltage (AC-DC) to be used. Protection and insulation should be provided according to the place where it will be applied. (Electricity turns on when air comes in, and turns off again when you cut off the electricity)
- In the line or system you will use, min. and max. pressure values are very important in the selection of the valve.
- The quality and temperature of the fluid is a direct factor in the selection of the valve.
- The direction of the fluid and the arrow mark on the body are in the same direction and attention should be paid to the assembly.
- Since the solenoid valve does not function as a check valve, the fluid flows back at reverse pressures. In these cases, installing a check valve after the solenoid valve is correct for the connection.
- The line to which the valve is attached must be free of impurities.
| ÖLÇÜ | MODEL | ORİFİS(mm) | BASINÇ |
|---|---|---|---|
| 3/4" | TGM 2004 | 20 | 0.5-16 Bar |
| 1" | TGM 2005 | 25 | 0.5-16 Bar |
You can visit our “Solenoid Valve” page for more detailed information on the subject or to find solutions to the problems you are experiencing.
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