What is a dC solenoid valve?
The direct current solenoid valve (DC) is a valve that controls the flow of liquid or gas using the electromagnetic properties of the solenoid. These types of valves have many applications, especially in industry. Many variations are also available for these valves. There are several advantages and several disadvantages using DC solenoid valve, although many times the application type changes how well the valve can work. When a charge is carried out through the target, a magnetic field is created that can be manipulated with the activation of the machines. The main control of the solenoid valve DC is usually a spring that recovers when the solenoid is active and released when the solenoid is deactivated. This driver moves the piston or anchor connected to the valve that controls the flow of liquid or gas, depending on the application.
As the name suggests, DC solenoid valve can only receive DC power supply, as opposed to alternating current valve (AC). Applications for these valves are often limited to machines, toTeré usually use DC power supply. This characteristic often means larger machinery, such as systems used in industrial production systems or extraction of fossil fuels. In most cases, a DC solenoid valve will be used to control some type of gas or liquid.
Thevariants of the DC solenoid valve include straight, internally piloted and externally piloted. In the direct -acting DC solenoid valves, the valve is closely connected to the solenoid core without many parts between. Internally manned valves are similar, but tend to be used for high -pressure and high -volume applications. Externally manned valves can still use DC solenoid to control the valve, but the driver is often separated from the valve by a real distance or because other IS equipment is also influenced by the valve.
Advantages of using DC solenoid valve are generally associated with simplicity and reliablethe sharp valves of these valves. Solenoid drives often provide consistent performance without required to maintain. In addition, DC solenoid valves are usually low power consumers compared to some other automatic valve types.
One of the primary disadvantages is that some DC solenoid valves can only be set in an open or closed position. This limits the amount of applications for which these valves can work. Another disadvantage is that electromagnetic machines can wear over time and the temperature must be constantly monitored for some applications.