Compact Electric Stainless Steel Ball Valve: Miniature Precision Electric Micro Valve

The compact and miniature nature of the valve makes it ideal for applications with limited space. In modern engineering systems, especially in micro - fluidic devices, lab - on - a - chip systems, and some precision machinery, space is often at a premium. The small size of this valve allows it to be integrated into these systems without taking up much room.

Despite its small size, the valve is designed with precision. Precision manufacturing techniques are used to ensure that the internal components, such as the ball and the seats, fit together perfectly. This precision is crucial for achieving a tight seal and accurate control of fluid flow.

The valve is made of stainless steel, which offers several advantages. Stainless steel is highly resistant to corrosion, rust, and staining. This makes it suitable for a wide range of applications, especially in environments where the valve may be exposed to moisture, chemicals, or other corrosive substances. In industries such as food and beverage, pharmaceuticals, and chemical processing, the corrosion - resistance of stainless steel ensures the purity and integrity of the media being controlled by the valve.

It also has excellent mechanical properties, providing strength and durability. This allows the valve to withstand high pressures and temperatures without deforming or failing. The hardness of stainless steel ensures a long - lasting seal and smooth operation of the ball within the valve.

As a micro - valve, it is capable of handling very small flow rates with high precision. In micro - fluidic applications, such as in biomedical research (e.g., drug delivery systems at the micro - scale) or in micro - chemical reactors, the ability to control tiny amounts of fluid is crucial. The miniature electric stainless steel ball valve can meet these requirements, ensuring reliable and accurate fluid handling at the micro - level.

The valve is electrically actuated, which provides several benefits. Electric actuation allows for remote control of the valve. In industrial automation systems, remote control is essential for improving operational efficiency and safety. Operators can open or close the valve or adjust its position from a control room, eliminating the need to physically access the valve in potentially hazardous or hard - to - reach locations.

It also enables precise control of the valve's position. With the help of control systems and feedback mechanisms, the degree of valve opening can be accurately adjusted. This is particularly important in applications that require precise fluid flow regulation, such as in chemical dosing systems, where accurate amounts of chemicals need to be added to a process.

In industrial automation, especially in processes that require precise control of small - scale fluid flows, the valve finds its use. This includes applications in semiconductor manufacturing, where precise chemical dosing is needed for etching and cleaning processes, and in some precision machining operations where coolant flow needs to be accurately regulated.

In micro - fluidic systems used for research or diagnostics, the valve is an essential component. It can be used to manipulate the flow of small volumes of samples and reagents. For instance, in a lab - on - a - chip device for DNA analysis, the valve can direct the flow of DNA samples and chemical reagents through the micro - channels, enabling precise and automated analysis.

In medical devices, such as infusion pumps and dialysis machines, the valve can be used to control the flow of fluids with high precision. For example, in an infusion pump, it can accurately regulate the delivery of drugs or nutrients to a patient. In a dialysis machine, it helps in controlling the flow of blood and dialysis fluid, ensuring the proper functioning of the treatment.