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Jenas electric control valve is a common industrial automation control equipment widely used in fluid control systems of various industries. It uses electric actuators to regulate fluid media, with advantages such as precise control, fast response, and remote operation. It is widely used in fields such as chemical engineering, petroleum, power, metallurgy, and water treatment.
The working principle of an electric regulating valve is to control the opening of the valve core through an electric actuator, thereby regulating the flow rate or pressure of the fluid. Electric actuators typically consist of an electric motor, a reducer, and a stroke control device. When the control signal is input, the motor drives the reducer to rotate, and the rotational motion is converted into linear motion through the stroke control device, thereby changing the opening of the valve core.
The control signal of an electric regulating valve usually comes from the control system, which can be an analog signal (such as current, voltage) or a digital signal (such as switch quantity, communication protocol). The control system generates corresponding control signals based on the parameters that need to be adjusted, such as flow rate and pressure, and achieves precise control of the fluid medium through an electric regulating valve. One of the advantages of electric control valves is precise control.
Due to the high precision of electric actuators, precise adjustment of fluid media can be achieved to meet the requirements of different process flows and pressures. In addition, the electric control valve has a fast response speed and can adjust the opening in a short period of time, improving production efficiency. Another advantage is the ability to operate remotely. Electric control valves can communicate remotely with the control system to achieve remote monitoring and operation.
This is very important for some hazardous environments or equipment that is difficult to access, as it can improve work safety and operational convenience.
In addition, electric control valves also have the advantages of high reliability and low maintenance costs. Electric actuators typically use contactless electronic components, which have a long lifespan and low failure rate. Meanwhile, the structure of the electric regulating valve is simple, the maintenance cost is low, and it can reduce the frequency of maintenance and replacement.
However, electric control valves also have some limitations. Firstly, the cost of electric control valves is relatively high, especially for large-diameter and high-pressure valves, which are more expensive. Secondly, the power dependence of electric control valves is strong, and once the power supply is interrupted or fails, it may cause the valve to malfunction.
In addition, the control system of electric regulating valves requires professional technical support and maintenance, and has high requirements for operators. In summary, electric control valves are important industrial automation control equipment with advantages such as precise control, fast response, and remote operation.
It plays an important role in fluid control systems in various industries, improving production efficiency and work safety. With the continuous advancement of technology, the performance and functionality of electric control valves will continue to improve, bringing more convenience and innovation to the field of industrial automation
