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| 3-way Threaded Ball Valve
The Three-Way Threaded Ball Valve is an innovative fluid control device designed for precise regulation and direction of flow in various industrial applications.
(1) Size Range: From 1/4" to 48", catering to a wide array of pipe sizes.
(2) Full Bore: Designed for minimal flow restriction and maximum throughput.
(3) Floating Ball Design: Allows for self-alignment with the seat, reducing wear and tear.
(4) ANSI Ratings: Available in ANSI 150# to 1500# pressure ratings, suitable for various pressure conditions.
(5) Standards Compliance: Adheres to standards such as ANSI/ASME, API, ISO, DIN, MSS, BS, and NACE.
(6) Features:
-Available in both 2 and 3-piece designs for ease of maintenance and Blow Out Proof Stem Design.
- Inherently fire-safe, minimizing risks in critical applications.
- Designed with low fugitive emission packing to comply with environmental standards.
- Available with bottom port, side port, or 3-, 4-, or 5-way configurations to suit specific flow control needs.
| Size
Nominal Size | Outside Diameter at Bevel | Inside Diameter | |
| DN | NPS | OD (mm) | ID (mm) |
| DN6 | 1/8 | 9.5 mm | 8.5 mm |
| DN8 | 1/4 | 12.5 mm | 11.5 mm |
| DN10 | 3/8 | 16 mm | 15 mm |
| DN15 | 1/2 | 20 mm | 19 mm |
| DN20 | 3/4 | 25.5 mm | 24 mm |
| DN25 | 1 | 32 mm | 30 mm |
| DN32 | 11/4 | 40.5 mm | 39 mm |
| DN40 | 11/2 | 46 mm | 44 mm |
| DN50 | 2 | 58 mm | 56.5 mm |
| DN65 | 21/2 | 74 mm | 72.5 mm |
| DN80 | 3 | 86 mm | 84.5 mm |
| DN100 | 4 | 112 mm | 110 mm |
| Butterfly Handle BV parameter table
| Product Name | Three way threaded ball valve |
| Material | CF8/CF8M/CF3/CF3M etc. |
| Size | DN6 - DN100 |
| Class | 1.6 - 6.4 MPa |
| Temperature | -15 ° C to 150 ° C (gas) or -15 ° C to 85 ° C (liquid) |
| Media | Water, steam, oil, gas etc |
| Standard | Pressure - temperature rating standard: ANSI B16.34 Inspection standard: GB/T13927 Joint flange standard: ANSI B16.5 Standard for structural length: Q/SVJN4 |
| FAQ
1. The different types of ball port configurations?
Each configuration is designed to meet specific flow control requirements, and the choice of configuration depends on the application's needs for flow direction, mixing, or splitting of fluids. Understanding these configurations is crucial for selecting the appropriate ball valve for a given industrial process.
(1) T-Port Configuration:
The T-port configuration features a T-shaped internal passage that allows for versatile flow control. It can connect all three ports simultaneously or isolate any one of them. This makes T-port valves useful for mixing flows from two inlets into a single output, diverting flow from one source to two destinations, or blocking one port while connecting the other two.
(2) L-Port Configuration:
The L-port configuration is named for its L-shaped internal passage within the ball. This design allows the valve to direct flow from one port to another at a 90-degree angle, connecting two of the three ports at any time. It is commonly used for applications requiring the switching of fluid flow between two outputs or isolating one line while allowing flow in another.
(3) V-Port Configuration:
V-port ball valves have either a 'V' shaped ball or a 'V' shaped seat. This configuration allows the orifice to be opened and closed in a more controlled manner with a closer to linear flow characteristic. It is often used in industrial processes requiring fine flow control, such as chemical processing, HVAC systems, and water treatment plants.
(4) Multi-Port Ball Valves (3-Way and 4-Way):
Multi-port ball valves, available as 3-way or 4-way valves, feature additional ports and a modified ball that allows fluid to flow in multiple directions. These valves can divert, mix, or split the flow between different pathways depending on the application.
2. Two types of three-way threaded ball valve: T Type & L Type
In summary, the main difference between L-type and T-type three-way ball valves lies in their structural design and application functions, L-type focuses more on the commutation and distribution of flow paths, while T-type focuses on shunt and confluence.
| 3-way threaded ball valve | ||
 | T type | L type |
Structure and Function | Can control the connection and cut off of three channels at the same time, suitable for shunt and confluence | To change the flow of fluid, there are two orthogonal channels and one closed channel |
Flow Capacity | Suitable for high flow, low pressure environment | Fluid flow control is more flexible, suitable for scenarios where fluid flow direction needs to be changed |
Application Scence | Used in industries that need to mix different media or control the flow of multiple media, such as petroleum and chemical industries | For industries that need to control a single flow, such as pharmaceuticals, food, etc |
Operation and Maintenance | Easy to install and maintain Tight Sealing | Better sealed due to the design of the four-sided seat. |
| 3-way Threaded Ball Valve
The Three-Way Threaded Ball Valve is an innovative fluid control device designed for precise regulation and direction of flow in various industrial applications.
(1) Size Range: From 1/4" to 48", catering to a wide array of pipe sizes.
(2) Full Bore: Designed for minimal flow restriction and maximum throughput.
(3) Floating Ball Design: Allows for self-alignment with the seat, reducing wear and tear.
(4) ANSI Ratings: Available in ANSI 150# to 1500# pressure ratings, suitable for various pressure conditions.
(5) Standards Compliance: Adheres to standards such as ANSI/ASME, API, ISO, DIN, MSS, BS, and NACE.
(6) Features:
-Available in both 2 and 3-piece designs for ease of maintenance and Blow Out Proof Stem Design.
- Inherently fire-safe, minimizing risks in critical applications.
- Designed with low fugitive emission packing to comply with environmental standards.
- Available with bottom port, side port, or 3-, 4-, or 5-way configurations to suit specific flow control needs.
| Size
Nominal Size | Outside Diameter at Bevel | Inside Diameter | |
| DN | NPS | OD (mm) | ID (mm) |
| DN6 | 1/8 | 9.5 mm | 8.5 mm |
| DN8 | 1/4 | 12.5 mm | 11.5 mm |
| DN10 | 3/8 | 16 mm | 15 mm |
| DN15 | 1/2 | 20 mm | 19 mm |
| DN20 | 3/4 | 25.5 mm | 24 mm |
| DN25 | 1 | 32 mm | 30 mm |
| DN32 | 11/4 | 40.5 mm | 39 mm |
| DN40 | 11/2 | 46 mm | 44 mm |
| DN50 | 2 | 58 mm | 56.5 mm |
| DN65 | 21/2 | 74 mm | 72.5 mm |
| DN80 | 3 | 86 mm | 84.5 mm |
| DN100 | 4 | 112 mm | 110 mm |
| Butterfly Handle BV parameter table
| Product Name | Three way threaded ball valve |
| Material | CF8/CF8M/CF3/CF3M etc. |
| Size | DN6 - DN100 |
| Class | 1.6 - 6.4 MPa |
| Temperature | -15 ° C to 150 ° C (gas) or -15 ° C to 85 ° C (liquid) |
| Media | Water, steam, oil, gas etc |
| Standard | Pressure - temperature rating standard: ANSI B16.34 Inspection standard: GB/T13927 Joint flange standard: ANSI B16.5 Standard for structural length: Q/SVJN4 |
| FAQ
1. The different types of ball port configurations?
Each configuration is designed to meet specific flow control requirements, and the choice of configuration depends on the application's needs for flow direction, mixing, or splitting of fluids. Understanding these configurations is crucial for selecting the appropriate ball valve for a given industrial process.
(1) T-Port Configuration:
The T-port configuration features a T-shaped internal passage that allows for versatile flow control. It can connect all three ports simultaneously or isolate any one of them. This makes T-port valves useful for mixing flows from two inlets into a single output, diverting flow from one source to two destinations, or blocking one port while connecting the other two.
(2) L-Port Configuration:
The L-port configuration is named for its L-shaped internal passage within the ball. This design allows the valve to direct flow from one port to another at a 90-degree angle, connecting two of the three ports at any time. It is commonly used for applications requiring the switching of fluid flow between two outputs or isolating one line while allowing flow in another.
(3) V-Port Configuration:
V-port ball valves have either a 'V' shaped ball or a 'V' shaped seat. This configuration allows the orifice to be opened and closed in a more controlled manner with a closer to linear flow characteristic. It is often used in industrial processes requiring fine flow control, such as chemical processing, HVAC systems, and water treatment plants.
(4) Multi-Port Ball Valves (3-Way and 4-Way):
Multi-port ball valves, available as 3-way or 4-way valves, feature additional ports and a modified ball that allows fluid to flow in multiple directions. These valves can divert, mix, or split the flow between different pathways depending on the application.
2. Two types of three-way threaded ball valve: T Type & L Type
In summary, the main difference between L-type and T-type three-way ball valves lies in their structural design and application functions, L-type focuses more on the commutation and distribution of flow paths, while T-type focuses on shunt and confluence.
| 3-way threaded ball valve | ||
| T type | L type |
Structure and Function | Can control the connection and cut off of three channels at the same time, suitable for shunt and confluence | To change the flow of fluid, there are two orthogonal channels and one closed channel |
Flow Capacity | Suitable for high flow, low pressure environment | Fluid flow control is more flexible, suitable for scenarios where fluid flow direction needs to be changed |
Application Scence | Used in industries that need to mix different media or control the flow of multiple media, such as petroleum and chemical industries | For industries that need to control a single flow, such as pharmaceuticals, food, etc |
Operation and Maintenance | Easy to install and maintain Tight Sealing | Better sealed due to the design of the four-sided seat. |
