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Help CenterPneumatic or Electric Actuator Compatible Full Fluorine-Lined Butterfly Valve With On/Off and Smart Regulating Options
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Fully Lined Fluorine Butterfly Valve
The corrosion-resistant electric fluorine-lined butterfly valve consists of a pneumatic actuator and a wafer-type fluorine-lined butterfly valve. The valve seat and sealing surface are lined with fluoroplastic, offering advantages such as zero leakage, long service life, and superior corrosion and wear resistance.
The corrosion-resistant electric fluorine-lined butterfly valve consists of an electric actuator and a flange or wafer-type fluorine-lined butterfly valve. The valve seat and sealing surface are lined with fluoroplastic, offering advantages such as zero leakage, long service life, and superior corrosion and wear resistance. Fluorine-lined butterfly valves are available in two different lining bodies, fully lined and semi-lined, depending on the operating conditions. Control modes include on-off and intelligent regulating. Fluorine-lined butterfly valves offer tight sealing performance and not only the mechanical strength of ordinary butterfly valves but also the corrosion resistance and acid and alkali resistance of PTFE. Under normal operating conditions, they offer a higher cost-effectiveness than butterfly valves with stainless steel bodies.
Fluorine-lined butterfly valves are lined with a thick layer of fluoroplastic polymer material on the flow-through parts (disc, inner wall of the valve body) that come into contact with the medium. Therefore, they are also called electric plastic-lined butterfly valves. They are suitable for conveying liquids and gases (including steam) in various industrial pipelines, especially in applications with severely corrosive, scouring, and abrasive media, such as sulfuric acid, phosphoric acid, strong alkali, aqua regia and other highly corrosive media. However, they are not suitable for process media with particles and high temperatures.
Wafer-type butterfly valves feature a simple structure, small size, and light weight, consisting of only a few parts. They can be quickly opened and closed with a simple 90° rotation, making operation simple. They also offer excellent flow control characteristics. When the butterfly valve is in the fully open position, the thickness of the disc presents only resistance to the flow of the medium through the valve body. Consequently, the pressure drop across the valve is minimal, resulting in excellent flow control characteristics. The butterfly valve is compact and occupies minimal space. It offers excellent sealing performance. The specific selection should be based on the medium, temperature, and pressure. Wafer-type butterfly valves are installed by connecting the valve between two pipe flanges using stud bolts.
Butterfly Valve Technical Parameters
I. The valve body is epoxy-coated, making it resistant to paint peeling.
Valve body materials include: cast iron, cast steel (WCB), stainless steel, aluminum alloy (ADC12), and PVC.
1. Cast Iron: CI gray cast iron (prone to breakage), DI ductile iron (better strength, can replace WCB).
2. WCB: Cast steel, with a long lead time. DI can be used as a substitute for pipes under 16 kg.
3. Stainless Steel: 304, 316, 304L, 316L.
4. Aluminum Alloy: ADC12. Aluminum alloy butterfly valves, also known as anti-condensation valves, are generally used on lighter PVC pipes. Their anti-condensation feature is particularly evident in air conditioning water systems, where large temperature differences between indoor and outdoor lead to condensation. Aluminum alloy can prevent this and prevent water seepage.
5. Plastic: (Generally, the pressure resistance is approximately 6 kg. For pipes over 10 kg, aluminum alloy is recommended as an alternative.)
UPVC: Resistant to weak acids and alkalis, high impact strength, low fluid resistance, lightweight construction, and excellent sealing. PP: Resistant to hydrochloric acid, sulfuric acid, and corrosion.
CPVC: Resistant to heat, acids, alkalis, salts, oxidants, and other corrosion
.
II. Valve Disc Materials:
1. Valve Disc: Nylon, cast steel, stainless steel (304, 316, 304L, 316L), ductile iron (electroplated plate), UPVC, CPVC, PP, aluminum bronze (commonly used in seawater desalination), duplex steel 2507, duplex steel 1.4529.
III. Valve Seat Materials: Valve Seat: EPDM, PTFE, Nitrile-butadiene rubber (NBR), Viton.
1. EPDM (Ethylene Propylene Diene Monomer): Black, soft seal, operating temperature: -15°C to 85°C. Performance: Resistant to oxidation, ozone, and corrosion, but susceptible to aging in contact with oil.
2. NBR (Nitrile-butadiene rubber): NBR has excellent oil resistance, second only to polysulfide rubber and fluororubber, and offers excellent wear resistance and airtightness.
3. PTFE (polytetrafluoroethylene, commonly known as the "king of plastics"): white, soft seal, operating temperature range: -20°C to 150°C. Properties: heat resistance, wear resistance, corrosion resistance, non-stick, relatively hard, generally available in powder or granular form.
4. VITON: black, soft seal, operating temperature range: -15°C to 200°C. Excellent chemical stability, excellent high-temperature resistance (fluororubber's high-temperature resistance is similar to silicone rubber), and good aging resistance.
5. Silicone rubber: Resists all substances except strong alkalis and hydrofluoric acid, is non-toxic and odorless, and has stable chemical properties. It is widely used in the sanitary food industry.
Structural Features:
The butterfly valve consists primarily of a valve body, stem, valve core, and seat. The valve body is cylindrical, short in axial length, and features an internal butterfly disc.
1. Butterfly valves feature a simple structure, compact size, light weight, minimal material consumption, small installation dimensions, rapid opening and closing, 90° reciprocating rotation, and low driving torque. They are used to shut off, connect, and regulate media in pipelines, and offer excellent fluid control characteristics and sealing performance. 2. Butterfly valves can transport slurries, minimizing liquid accumulation at the pipe opening. They achieve a good seal at low pressures and offer excellent adjustability.
3. The streamlined design of the butterfly disc minimizes fluid resistance, making it an energy-efficient product.
4. The valve stem is a through-stem structure, quenched and tempered, for excellent overall mechanical properties and corrosion and abrasion resistance. During opening and closing, the stem rotates only, not lifting or lowering, making the stem packing less susceptible to damage and ensuring a reliable seal. The valve is secured to the disc by a tapered pin, and the extended end features an anti-blowout design to prevent stem collapse in the event of an accidental breakage at the connection between the stem and disc.
The butterfly valve can be configured with pneumatic, electric, or manual actuation to meet remote and programmable control requirements.
Features of Wafer Butterfly Valves
01. Transverse Pin
This effectively reduces the possibility of the valve stem exploding under internal pressure; it also protects the integrity and strength of the stem, preventing deformation and breakage due to torque during operation. 02 Self-lubricating Guide Bearing (Teflon)
Made from stainless steel, the Teflon coating on the inner wall provides self-lubrication, preventing the valve stem from seizing during high-speed rotation.
03 Valve Seat Sealing Surface
When the valve is fully closed, the convex surface of the valve seat seal deforms backward, enhancing compression strength and sealing performance. When the valve is opened, the disc seal eliminates buildup, allowing for easier opening. The spherical sealing surface reduces torque and extends seal life. The flat surface increases contact area with the valve seat.
04 Valve Seat
Virgin rubber is fatigue-resistant and flexible. No synthetic or recycled rubber is used. The concave-convex design ensures equal torque before and after installation, preventing deformation of the valve seat during connection that could cause the valve to become stuck or unable to open during operation. The seat reinforcement ribs, designed with a positioning rib on the contact surface with the valve body, prevent the seat from shifting when the disc is closed at 0°, enhancing lifting capacity.
Pneumatic fully lined butterfly valve application site - chemical industry
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