3 way pneumatic ball valve

3-way Screw End Ball Valve, Direct Mounting Type
ISO 5211 Pad for Direct Actuation
1/4” ~ 8” Full Port
Body: CF8M/CF8/WCB
Seats: TFM 1600 / PTFE / R-PTFE
Ends:
ASME B16.34 class 150、ASME B16.34 class 300
DIN PN16、PN25、PN40
JIS 10K、20K
TA-LUFT Approved
Available in L-port or T-port
Pneumatic Actuator
Control: Double acting,Single acting normally closed, acting,Single normally open







    Description

    3 way pneumatic ball valve, perfect for direct actuation and mounting type applications. With an ISO 5211 pad for direct actuation, this product is available in sizes from 1/4″ to 8″. Made with the highest grade materials such as CF8M, CF8, and WCB to ensure the most reliable service, with a TFM 1600 seat, PTFE, and R-PTFE. Available in either L-port or T-Port designs, these valves are built with features like a built-in ISO 5211 Direct mounting pad easy automation frie safe design approved; anti static devices; blow out proof stem; pressure balance hole in ball slot; TA-LUFT design approved; casting boss on body for draining. A pneumatic actuator is also included with the option to control with double acting or single acting normally closed or open. Additionally equipped includes common solenoid valves, limit switch boxes, filters and E/P positioners. Not only that but this product is NAMUR accessory compatible and even offers two independently adjustable travel stop screws and a cam on the output shaft to permit precise bidirectional adjustment of movement in both the open and closed positions (+5° to -5° limits). Constructed with anodized aluminum bodies and polyester coated end caps as well as other coatings available for corrosive environments, you can trust that this 3 way pneumatic ball valve will meet all your needs up to 8000Nm of output torque!

    Description
    3-way Screw End Ball Valve, Direct Mounting Type
    ISO 5211 Pad for Direct Actuation
    1/4” ~ 8” Full Port
    Body: CF8M/CF8/WCB
    Seats: TFM 1600 / PTFE / R-PTFE
    Ends:
    ASME B16.34 class 150、ASME B16.34 class 300
    DIN PN16、PN25、PN40
    JIS 10K、20K
    TA-LUFT Approved
    Available in L-port or T-port

    Design features:
    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

    Pneumatic Actuator
    Output Torque 10Nm to 8000 Nm
    Control: Double acting,Single acting normally closed, acting,Single normally open
    Pneumatic accessories: Solenoid valve, limit switch box , filter, E/P positioner, hand wheel

    All double acting and spring return units are suitable for both on/off and throttling applications. Actuators which can be actuated with other media such as hydraulic oil or water are also available as an option.

    1, Two independently adjustable travel stop screws and a cam on the output shaft to permit precise bidirectional adjustment of movement in both the open and closed positions for quarter turn valves (+5° to -5° limit adjustment)
    2, Integral porting
    3, Standard units have anodized aluminum bodies with polyester coated end caps.
    4, Special coatings and materials available for corrosive environments
    5, NAMUR accessory compatible

    Three way L type flow diagram

    Three way L type flow diagram

    Three way T type flow diagram

     

    Three way T type flow diagram

    pneumatic 3 way ball valve


    FAQs

    What is a 3 way ball valve?

    A 3 way ball valve is a type of valve used to regulate, control and direct the flow of media through multiple pathways. This three-way valve consists of a two-port inlet and an outlet with one additional port that connects the inlet and outlet passages. The third port is known as the divert or switchover , allowing for all three ports to be connected at once or individually shut off from each other.

    The internal construction of a 3 way ball valve typically consists of two circular pieces which are separated by a central chamber, referred to as the body cavity, that contains one moveable internal part called the core or “ball”. When pressure is applied on the stem located at one end of this core, it can either block both ends (shut-off)or open just one port (divert). In addition to having complete flow control over an entire system, these valves also help minimize noise levels in process piping systems due to their superior sealing capabilities when compared with traditional gate or globe valves.

    What is the difference between a 2 way and 3 way ball valve?

    A two-way ball valve is a type of plumbing valve used to control the flow of liquids or gases. It consists of a cylindrical body with an attached handle that opens and closes the valve by turning it 90 degrees from its normally shut position. The construction also includes two pipe connections, called ports, which are opened or closed when the ball rotates within the cylinder.

    On the other hand, a three-way ball valve has three ports; each port has either an open or closed position controlled by rotating the handle to access different configurations. This allows for regulating pressure in more than just one direction giving users much more control over their systems.

    Two way valves generally have one inlet and one outlet port allowing for bidirectional flow through them while a three-way ball valve can be used to divert media between left and right outlets creating an L shaped channel on its path. Depending on where you want your media to go you can switch between these paths by simply turning up or down your handle located at top center part of your three way ball valve’s body . Due to this design feature they are seen as better plugs for chemical application since they allow for large backflows without any noticeable drop in line pressure which helps stop corrosion buildup inside pipelines .

    Three-way ball valve application

    A three-way ball valve is a type of valve that has three ports, with one port for inlet and two outlets, commonly referred to as an L-port or T-port. It is used in many industries and applications where the flow needs to be diverted between two destinations or different processes.

    The most common application of a three-way ball valve is for diverting the fluid from one source to two different destinations. The valve can either be manually operated by using a handle on the outside of the valve’s body, or automated with electrical actuator system when powering on/off quickly. In such cases, automation ensures tight closure and consistent operation over time, regardless of temperature changes and other external influences.

    A few examples of where three-way ball valves are often used include: pumping systems, cooling towers or chillers; chemical process operations; flow control lines; water treatments systems; transporting oil & gas products; wastewater processing plants etc. Depending on their construction material they can also resist highly corrosive liquids like acids and alkalis without any problems due to its smooth surface which will not trap particles as much as other types of valves might do at these temperatures and pressures.

    What is the function of pneumatic three-way ball valve?

    A pneumatic three-way ball valve is a special type of valve designed to divert the flow of liquids or gases in different directions. It features three ports for two inlets and one outlet, allowing users to control the degree and direction of flow. The valve has a rotating cylindrical plug which can be aligned with any of the three ports, allowing for the simultaneous control of multiple devices from one location.

    The main function of a pneumatic three-way ball valve is to act as an air pressure regulator in compressed air systems. For instance, it is used by many industries such as automotive, mining, chemical processing and manufacturing to regulate air pressure within their system components. This helps reduce wastage and increase overall efficiency when handling high volumes of liquid or gas through pipes. Additionally, given its design it is also often utilized when shut off/on applications require frequent operation – making it easier to access its controls without needing specialized personnel or tools.