120 Volt Electric Actuator Easy to Interface

Many businesses require the use of a 120 Volt Electric Actuator somewhere in their design. The primary function of an electric actuator is to convert rotation into different various forms of motion. This requires the use of a mechanism that can transfer and re-direct power.
Industrial valves are controlled by different types of actuators. These valves might limit the flow of a liquid or a gas along different paths, by blocking off or allowing passage through various pipes. Most industrial plants require the use of valves in their design, including power plants and refineries.
When industrial valves are implemented into a system, it is crucial that they are adjustable and controllable. The effectiveness of the plant system is reliant on their ability to perform efficiently. Multiple types of actuators are available for companies to implement in their systems, including pneumatic and hydraulic actuators. Both of those types of actuators, however, require the flow of gas or liquid to be managed, as that flow then controls the actuator and the industrial valves throughout the entire system.
The advantage of purchasing a 120 Volt Electric Actuator include the fact that electric actuators are easier to control and manage than either pneumatic or hydraulic actuators. Electric actuators can be wired and routed for each individual system, and electric wiring is generally simpler and more flexible than the pipe work that would be required if another type of actuator were to be installed. Additionally, a 120 Volt Electric Actuator implementation would not result in the potential mess that other types of actuators might experience due to leaks in the gas or liquid needed to run them.

An electronic system is generally easier to power, manipulate, and diagnose. After an electric actuator has been successfully interfaced with a control system, it can be specifically controlled. If a 120 Volt Electric Actuator is not functioning properly, the issue can often be analyzed and identified through a quicker process than other types of actuators would require.

If a great degree of pressure and torque control is needed for an industry, a 120 Volt Electric Actuator may not be able to provide the power necessary for that particular system. Hydraulic motors are able to provide greater amounts of power, and might need to be considered for specific operations.

A 120 Volt Electric Actuator generally utilizes either an A.C. motor, D. C. motor, or stepper motor for control applications. These motors all have different specialties in terms of speed control and power. Each specific business actuator use must determine the types of actuators and motors that will be most appropriate for their purposes. The final decision should include consideration of the amount of power that is necessary for the operation, the pressure required to attain that power, the type of system that is running (for instance, a pumping system that requires control over the rate of flow), and the physical limitations or restrictions that may be implemented by that actual location of the system itself. When all of these details are considered, an appropriate actuator choice can be provided.