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3192065
hand lever valve VHER-H-B43C-G12 Valve function: 4/3 closed, Type of actuation: manual, Width: 95 mm, Standard nominal flow rate: 3200 l/min, Operating pressure: 0 - 10 bar
Festo
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3192076
hand lever valve VHER-P-H-B43E-G12 Valve function: 4/3 exhausted, Type of actuation: manual, Width: 95 mm, Standard nominal flow rate: 3200 l/min, Operating pressure: 0 - 10 bar
Festo
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3488215
hand lever valve VHER-H-B43U-B-G18 Valve function: 4/3-way, pressurised, Type of actuation: manual, Width: 42 mm, Standard nominal flow rate: 800 l/min, Operating pressure: 0 - 10 bar
Festo
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4500003
finger lever valve VHEF-L-M52-M-N18 Valve function: 5/2 monostable, Type of actuation: manual, Width: 20 mm, Standard nominal flow rate: 750 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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3488204
hand lever valve VHER-H-B43C-G18 Valve function: 4/3 closed, Type of actuation: manual, Width: 51 mm, Standard nominal flow rate: 600 l/min, Operating pressure: 0 - 10 bar
Festo
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3410683
hand lever valve VHER-P-H-B43U-M5 Valve function: 4/3-way, pressurised, Type of actuation: manual, Width: 37 mm, Standard nominal flow rate: 170 l/min, Operating pressure: 0 - 10 bar
Festo
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3488216
hand lever valve VHER-P-H-B43U-G18 Valve function: 4/3-way, pressurised, Type of actuation: manual, Width: 51 mm, Standard nominal flow rate: 600 l/min, Operating pressure: 0 - 10 bar
Festo
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3192071
hand lever valve VHER-H-B43U-G12 Valve function: 4/3-way, pressurised, Type of actuation: manual, Width: 95 mm, Standard nominal flow rate: 3200 l/min, Operating pressure: 0 - 10 bar
Festo
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5299718
pushbutton valve VHEF-PTCZ-M32-M-N18 Valve function: 3/2 open/closed, monostable, Type of actuation: manual, Width: 20 mm, Standard nominal flow rate: 750 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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8031304
stem actuated valve VMEF-S-M52-E-G14 Valve function: 5/2 monostable, Type of actuation: mechanical, Width: 20 mm, Standard nominal flow rate: 1200 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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5299712
pushbutton valve VHEF-PTCZ-M32-M-G14 Valve function: 3/2 open/closed, monostable, Type of actuation: manual, Width: 20 mm, Standard nominal flow rate: 870 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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8031336
stem actuated valve VMEF-STCZ-M32-M-G14 Valve function: 3/2 closed, monostable, Type of actuation: mechanical, Width: 20 mm, Standard nominal flow rate: 870 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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4414854
hand lever valve VHEF-HST-M32-M-N14 Valve function: 3/2 open/closed, monostable, Type of actuation: manual, Width: 20 mm, Standard nominal flow rate: 870 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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5299716
pushbutton valve VHEF-P-B52-G14 Valve function: 5/2 bistable, Type of actuation: manual, Width: 20 mm, Standard nominal flow rate: 1200 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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8047104
roller lever valve VMEF-K-M52-M-N18 Valve function: 5/2 monostable, Type of actuation: mechanical, Width: 20 mm, Standard nominal flow rate: 750 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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8081005
hand lever valve VHEF-H-M52-M-N14 Valve function: 5/2 monostable, Type of actuation: manual, Width: 20 mm, Standard nominal flow rate: 1200 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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8080941
hand lever valve VHEF-HT-B32-N14 Valve function: 3/2 bistable, Type of actuation: manual, Width: 20 mm, Standard nominal flow rate: 870 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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8081000
hand lever valve VHEF-HT-M32-M-G14 Valve function: 3/2 open/closed, monostable, Type of actuation: manual, Width: 20 mm, Standard nominal flow rate: 870 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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4500011
finger lever valve VHEF-LT-M32-M-N18 Valve function: 3/2 open/closed, monostable, Type of actuation: manual, Width: 20 mm, Standard nominal flow rate: 750 l/min, Operating pressure MPa: -0,095 - 1 MPa
Festo
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3192068
hand lever valve VHER-H-B43E-B-G12 Valve function: 4/3 exhausted, Type of actuation: manual, Width: 80 mm, Standard nominal flow rate: 3800 l/min, Operating pressure: 0 - 10 bar
Festo
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Mechanical & Manual Valves
General Guide & Overview
Valves are essential devices that play a crucial role in controlling the flow of fluid and pressure within various systems and processes. They serve multiple functions, including starting or stopping flow, regulating flow and pressure, controlling the direction of flow, throttling flow rates, and improving safety by relieving pressure or vacuum.
When it comes to mechanical valves, there is a wide range of types available, each with its own unique features and advantages. Mechanical valves can be operated manually, making them ideal for applications where human control is necessary. They are commonly used in industries such as oil and gas, water treatment, chemical processing, and manufacturing.
Different types of mechanical valves include ball valves, butterfly valves, check valves, gate valves, knife gate valves, globe valves, needle valves, pinch valves, plug valves, and pressure relief valves. These valves are designed to suit specific requirements and applications, providing precise control over fluid flow.
So, how do mechanical valves work? These valves consist of mechanical components and parts that allow the control of flow. They typically have a valve body, a bonnet, trim (including a disk and seat), a valve stem, and an actuator. The valve body serves as the primary pressure boundary and receives the inlet and outlet piping. The bonnet, connected to the body, acts as the cover for the opening in the body. The trim consists of the disk, which permits or prohibits fluid flow, and the seat, providing the seating surface for the disk. The valve stem connects the actuator and the disk, allowing for precise positioning of the disk. Finally, the actuator operates the stem and disk assembly, while the packing prevents leakage from the stem and the bonnet.
In conclusion, understanding the different types of mechanical valves and how they work is essential for industries that rely on precise flow control. By selecting the appropriate valve type and understanding their functions and components, industries can ensure efficient and reliable operation in their systems and processes.
Valve Functions and Basic Parts
Valves play a vital role in controlling fluid flow and pressure within various systems. They perform several functions, including:
Stopping and starting fluid flow
Varying the amount of flow
Controlling the flow direction
Regulating downstream pressure
Relieving over pressure
All valves consist of basic parts that work together to ensure proper operation:
The valve body serves as the primary pressure boundary and holds all the components together. It also acts as the inlet and outlet piping connection point.
The valve bonnet is a cover for the opening in the body and provides a second pressure boundary when connected to the body.
The valve trim includes internal elements like the disk and seat. The disk permits or prohibits fluid flow, while the seat provides a seating surface for the disk.
The valve stem connects the actuator and disk, enabling precise positioning of the disk.
The valve actuator is responsible for operating the stem and disk assembly, allowing for manual or automated control.
The valve packing prevents leakage around the stem and the bonnet, ensuring a secure seal.
Understanding these basic valve parts is crucial for selecting the appropriate valve and ensuring efficient and reliable flow control.
Introduction to the Types of Valves
Due to the diversity of systems, fluids, and environments, there are many types of valves available. Each valve type has specific advantages and disadvantages. Some common valve types include the globe valve, gate valve, ball valve, plug valve, butterfly valve, diaphragm valve, check valve, pinch valve, and safety valve. These valves have different methods of controlling flow, such as moving a disc or plug, sliding a surface across an orifice, rotating a disc or ellipse, or using a flexible material. The selection of a valve type depends on the specific application and function required.
Mechanical and manual valves play a crucial role in controlling flow and pressure in various industries. These valves are essential components in systems and processes, ensuring the smooth operation of fluids and gasses.
By understanding the different types of valves, their functions, and their basic parts, industries can make informed choices when selecting the right valve for a specific application. Considerations such as valve size, end connections, materials, and compliance with standards are vital to ensure optimal performance and reliability.
Valve selection is a critical aspect of system design, and industries should refer to valve selection guides provided by reputable manufacturers. These guides offer valuable insights into the selection criteria for mechanical and manual valves, helping industries meet their specific requirements.
With the right valves in place, industries can achieve safe, efficient, and reliable flow control, ensuring the success of their operations across various sectors such as oil and gas, chemical processing, water and wastewater treatment, power generation, and many others.
FAQ
What are mechanical valves?
Mechanical valves are devices used to control the flow of fluid and pressure in a system or process. They can start or stop flow, regulate flow and pressure, control the direction of flow, throttle flow rates, and improve safety by relieving pressure or vacuum.
What are the different types of mechanical valves?
There are various types of mechanical valves, including ball valves, butterfly valves, check valves, gate valves, knife gate valves, globe valves, needle valves, pinch valves, plug valves, and pressure relief valves.
How do mechanical valves work?
Mechanical valves work by using various mechanisms to control the flow of fluid. This can include rotating a ball or disc, sliding a surface across an orifice, or using a flexible material to regulate flow.
What are the basic parts of a mechanical valve?
All mechanical valves have basic parts, including the body (primary pressure boundary), bonnet (cover for the opening in the body), trim (internal elements), actuator (operates the stem and disk assembly), and packing (prevents leakage around the stem).
What factors should be considered when selecting a mechanical valve?
When selecting a mechanical valve, factors such as valve size, end connections, materials, and compliance with standards must be considered. The specific application and function required will also influence the choice of valve type.