3-pc motorized ball valve
The 3-pc motorized ball valve This reliable valve is designed with key benefits and features that make it an ideal option for a wide range of industries and applications. It has a 1/4” ~ 4” Full Port, and its body is made from CF8M/CF8/WCB, with PTFE/R-PTFE seats. The ends include BSP, BSPT, NPT, DIN, ISO or Butt Welding/Socket Welding options for convenience. With a pressure of 1000wog pn63 and built-in ISO 5211 Direct mounting pad for easy automation, this ball valve is both safe to use and incredibly practical. Its blow-out proof stem design ensures longevity while the anti-static device and pressure balance hole in the ball slot adds an extra layer of protection. Plus, all of our units have CE certifications!
The accompanying electric actuator offers 50Nm~2000Nm output torque with control features such as ON-OFF type or Regulation type models with control signals like 4-20 mADC、0-5 VDC、0-10 VDC available. Compatible power sources span 12 VDC to 380 VAC 50/60 Hz — so no matter what your power preference is you can rely on this 3-pc motorized ball valve! In addition to being lightweight and low profile, all manual overrides have a simple handwheel system with travel limit cams that can be adjusted via finger or screwdriver without interference from other components. Lastly, the highly visible valve status display on most units means you’ll be able to keep an eye out at all times – making this 3-pc motorized ball valve from [Company Name] your go-to option for reliability and ease of use.
3-PC Screw/Welding Engds Ball Valves.
1/4” ~ 4” Full Port
Ends: BSP, BSPT, NPT, DIN, ISO or Butt Welding/Socket Welding
Built-in ISO 5211 Direct mounting pad easy automation
frie safe design approved
Anti-static devices for ball-stem-body
Blow-out proof stem
Pressure balance hole in ball slot
TA-LUFT design approved
Casting boss on body for draining
Output Torque 50Nm to 2000 Nm)
Control: ON-OFF type、Regulation type
Control signal: 4-20 mADC、0-5 VDC、0-10 VDC
Power: 12 VDC,24 VAC,24 VDC,220 VAC,120 VAC,380 VAC 50/60 Hz
1, CE certification of most units
2, Wiring directly to the terminal strip without interference from other components
3, Simple and unique manual override handwheel system
4, Lowest profile and lightest weight actuator on the market
5, Simple finger or screwdriver adjustment of travel limit cams without interference from other components
6, Highly visible valve status display on most units
What is 3 piece ball valve?
A 3 piece ball valve is a type of flow control valve which consists of three parts: a body, an end cap, and a ball. This type of valve is designed to provide convenient adaptation for on/off or throttling services in both process and industrial applications. It is commonly used in water systems to regulate the amount of water flowing through the system.
The body of the 3-piece ball valve features two ends with female threads threaded onto it, one flanged end and one weld-end or threaded end depending on the application (water works mostly use flange ends). The flow also follows from outside to inside when gas or liquid pass through it (bidirectional), making it suitable for manifold mounting in pipelines. By rotating the stem between all four positions 90° clockwise/counterclockwise allows you can adjust the inner diameter opening allowing more/less flow as desired.
What are the advantages of a 3 way ball valve?
A 3 way ball valve is an essential component for many industries, from construction to engineering. Its three-way design provides unique advantages that are not offered by other types of valves.
One of the primary benefits of a 3 way ball valve is its ability to provide excellent flow control. As all three ports are exposed when the valve is closed, it allows you to precisely adjust flow through each one as needed – no need for manual shut offs or gate valves on both lines! This makes them great for relocating fluid and changing pressure quickly and accurately.
The 3 way ball valve also has superior durability compared to other options. A single piece of metal (like stainless steel) which forms the body goes entirely around the stem without any extra flanges or welds, making it far more reliable in terms of corrosion protection and longer lifespan in general. Plus, owing to its tight seal even at low pressures, you can be sure that there will be no leakage problems with this kind of valve – something else we often experience with other options like a butterfly or globe type ones. Finally, they come in different sizes so you can choose one that’s best suited for your specific application needs!
What voltage controls do electric 3-piece ball valves have?
Electric 3-piece ball valves have several different voltage controls. Depending on the specific application, they are available in a variety of voltages including 12VDC, 24VDC, 120VAC, 240VAC and 480VAC. In addition to these standard voltage classes, many valve manufacturers also offer specialty low-voltage control options such as 12VDC or 220 VDC for applications where safety is critical. The most commonly used voltage control for electric 3-piece ball valves is 24VDC; however these valves are designed to be versatile and can work with virtually any type of controller from basic manual switches to sophisticated digital controllers.
What are the applications of electric ball valves?
Electric ball valves have many practical applications, from traditional industrial settings to modern-day automation technologies.
In industrial settings, electric ball valves are ideal for controlling the flow of gas and liquids. They can be used in either on/off or throttling operations to control the flow of a fluid through a pipe. This makes them popular in industries like mining, power plant operations, oil & gas production and distribution systems, as well as chemical manufacturing and processing plants.
Electric ball valves are also widely used for automatic control systems due to their low cost and long service life. These types of one-way shut off valves can be found in irrigation systems or water pumps because they use electricity instead of manual labor. Furthermore, they are great for process automations including boilers and heat exchangers because they provide precise temperature control without having to switch manually between on/off positions frequently – thus improving response times while preventing system fatigue.