Customization: | Available |
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Media: | Gas, Oil, Water, Chemical |
Temperature: | Low Temperature |
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The operating torque is larger than that of the electric valve, the switching speed of the electric valve can be adjusted, the structure is simple, and it is easy to maintain. Because of the buffering characteristics of the gas itself, it is not easy to be damaged due to jamming during the operation, but there must be a gas source, and its control system is more complicated than that of the electric valve. Electric gate valves are sensitive, safe and reliable, and many factories with high control requirements set up compressed air stations for pneumatic instrument control components. Electric means electricity. And can control its flow.
There are two kinds of electric valves. One is an angular-stroke electric valve: the angular-stroke electric actuator is used with the angular-stroke valve to realize the internal rotation of the valve within 90 degrees to control the on-off of pipeline fluid; The other is the straight-stroke electric valve: the straight-stroke electric actuator is used in conjunction with the straight-stroke valve to realize the up-and-down movement of the valve plate to control the on-off of the pipeline fluid. Usually used in equipment with high degree of automation, the horizontal installation of this valve has the best adjustment accuracy.
Electric actuator gate valves offer several features that make them advantageous in various applications. Some key features include:
Electric actuator gate valves provide precise control over fluid flow, allowing for accurate adjustments and maintaining desired flow rates.
With electric actuation, these valves can be operated remotely, offering convenience and enabling control from a central location. This is especially useful in large-scale industrial settings.
Electric actuator gate valves have fast response times, allowing for rapid opening and closing of the valve, which is crucial in situations that require immediate flow control.
These valves are known for their reliability and durability. They are designed to withstand high-pressure conditions and harsh environments, ensuring long-lasting performance.
Electric actuator gate valves generally require minimal maintenance, reducing downtime and costs associated with servicing or repairs.
Electric gate valve: An electric gate valve uses an electric motor instead of a handwheel. By utilizing electrical power, the actuator spins the stem to raise or lower the gate. This allows it to be operated remotely with no user on-site but requires electrical power on-site. These are also referred to as motorized gate valves.
A gate valve operates similar to other valves. To open the valve, turn the handwheel (A), which moves the gate (G) up or down on the stem (B) via the threads. A gate valve requires more than one 360° turn to open or close the valve fully. When the gate is lifted up, it opens the inlet to the outlet allowing an unobstructed passageway for the media to flow. When the gate is lowered, it closes and blocks the media flow.
The relationship between the gate's vertical travel and the flow rate is nonlinear for a gate valve, with the greatest changes occurring near-complete closure. When used to regulate flow, the relatively high velocity of the flow at partial opening results in gate and seat wear, which along with possible vibrations of the gate, shortens the valve's service life. Therefore, a gate valve should only be used for on/off control.
Pressure seal bonnet gate valves are ideal for high-pressure applications (more than 15 MPa). Pressure seal bonnets have a downward-facing cup inserted into the valve body. When internal fluid pressure increases, the cup is forced outward, improving the seal.
The gate is raised and lowered by the spinning of a threaded stem (Figure 2 Labeled B). As discussed, a manual wheel or actuator spins the stem. Depending on the design, it is either considered a rising stem gate valve or a non-rising stem gate valve. So, as you spin the stem, it either raises or stays in place with the spin.
Outside Screw and Yoke , also referred to as rising stems, are fixed to the gate. Therefore, the threads are on the actuation side. So, as the gate is raised or lowered, the stem moves with it up and down. Consequently, they have built-in visual indicators of the state of the valve and are easily lubricated. Since they have moving components, they cannot be used with bevel gears or actuators. Therefore, rising gate valves are suitable for manual actuation.
On the other hand, a non-rising stem is fixed to the actuator and threaded into the gate. An indicator is often threaded onto the stem to show the open or closed state of the valve. Non-rising gate valves are common in underground installations and applications with limited vertical space.
Manufacture Standard Of Gate Valve | API 600 ASME B16.34 / KS B2361 / GB/T 12234 / DIN 3352 |
Valve Connection | Flanged |
Connection Type | ANSI, JIS, DIN, GB |
Valve Material | CF8, CF8M, WCB |
Power Supply | General: 3-phase 380VAC
Special: 3-phase AC660V, AC440V, AC415V Special: 1-phase AC220V, AC110V Special: DC12V, DC24V, DC48V |
Torque Range | 50Nm to 10,000Nm |
Protection Class | IP65 |
Insulation Class | F Class |
Ambient Temperature | -4°F to 140°F |