| Quantity: | |
|---|---|
Stainless steel sanitary control valve is a device that precisely adjusts fluid flow, pressure or temperature. Stainless steel sanitary control valve is usually used in fluid pipeline systems in food, pharmaceutical, chemical and other industries. It is generally installed in key locations where fluid flow, pressure or temperature needs to be precisely controlled, such as: pipeline inlet and outlet, before and after the reactor, heat exchanger inlet, tank and pipeline interface. These locations can ensure the flow accuracy and sanitary safety of the fluid in the entire pipeline system. Common types of stainless steel sanitary control valves include: electric control valves, pneumatic control valves, manual control valves, proportional control valves, and temperature control valves.
JONENG
8421219990
Stainless Steel Sanitary PTFE Hydraulic Flow Control Regulating Valve
Stainless steel sanitary control valves are designed to ensure precise flow control of fluids in pipeline systems, especially in environments with high hygiene standards. It avoids product quality fluctuations or equipment damage caused by unstable flow in the system by precisely adjusting the fluid flow, pressure and temperature. The valve is made of stainless steel and has strong corrosion resistance and high temperature resistance. It is suitable for food, pharmaceutical and other industries. It can effectively prevent the invasion of pollutants. While maintaining efficient production, it ensures the long-term stable operation and easy cleaning of the fluid control system to ensure the precise execution of the process.
Working Principles
The working principle of stainless steel sanitary control regulating valve is based on the control needs of automatically adjusting fluid flow, pressure or temperature. When the control system sends a signal, the valve actuator (such as pneumatic or electric drive) receives the signal and drives the valve core or valve seat inside the valve for precise adjustment. The valve opening is adjusted as needed to control the flow, pressure or temperature of the fluid. During the adjustment process, the valve will continuously adjust according to the feedback signal (such as flow meter, pressure gauge, temperature sensor, etc.) to keep the system within the set operating range.
The options of stainless steel sanitary control regulating valve include:
Drive mode: pneumatic, electric, manual.
Connection mode: threaded connection, clamp connection, welding connection.
Valve seat material: stainless steel 304, 316, 316L, etc.
Sealing material: PTFE, fluororubber, silicone, etc.
Control mode: proportional regulation, pressure regulation, temperature regulation.
Valve body structure: single seat valve, double seat valve, angle seat valve.
Specification Chart
Size | ½ " to 12" |
Material | ss304, ss316L |
Max pressure | 0 to 8 bar |
Max temperature | -20 °C to 140 °C |
Seals and gasket | PTFEE, EPDM |
End connections | welded, threaded , flanged |
Features
● The stainless steel sanitary control valve has a built-in intelligent adaptive control algorithm, which can automatically adjust the valve opening according to the system flow and pressure changes in real time.
● The stainless steel sanitary control valve has been specially treated inside, and the surface is smooth, which reduces the possibility of microbial deposition and meets the sanitary requirements.
● The stainless steel sanitary control valve adopts an internal pressure buffer device, which can smoothly cope with sudden pressure fluctuations in the fluid system and prevent the valve body from being damaged by vibration.
● The stainless steel sanitary control valve adopts a multi-layer composite sealing design, including materials such as PTFE and fluororubber, which can resist corrosion from a variety of chemical media.
● The stainless steel sanitary control valve design incorporates a low-temperature automatic compensation function to ensure that it can still maintain efficient regulation performance when operating at low temperatures.
● The stainless steel sanitary control valve has a built-in fault detection system to monitor the status of the valve in real time and send alarm signals, which is convenient for remote monitoring and maintenance.
Application
Stainless steel sanitary control valves are widely used in the following industries: Food industry: control the precise flow of fluids such as beverages and condiments to ensure consistent quality. Pharmaceutical industry: accurately adjust fluid temperature and pressure during drug production to ensure product safety. Chemical industry: regulate the flow of chemicals to avoid leakage of hazardous substances and ensure production safety. Bioengineering: used for fluid control in cell culture, fermentation tanks, etc. to ensure stable reactions. Beverage industry: accurately control the ratio of syrup and water in beverage production to improve product taste. Water treatment industry: adjust the fluid flow and pressure during water treatment to ensure water quality treatment results.
Working Principles
The working principle of stainless steel sanitary control regulating valve is based on the control needs of automatically adjusting fluid flow, pressure or temperature. When the control system sends a signal, the valve actuator (such as pneumatic or electric drive) receives the signal and drives the valve core or valve seat inside the valve for precise adjustment. The valve opening is adjusted as needed to control the flow, pressure or temperature of the fluid. During the adjustment process, the valve will continuously adjust according to the feedback signal (such as flow meter, pressure gauge, temperature sensor, etc.) to keep the system within the set operating range.
The options of stainless steel sanitary control regulating valve include:
Drive mode: pneumatic, electric, manual.
Connection mode: threaded connection, clamp connection, welding connection.
Valve seat material: stainless steel 304, 316, 316L, etc.
Sealing material: PTFE, fluororubber, silicone, etc.
Control mode: proportional regulation, pressure regulation, temperature regulation.
Valve body structure: single seat valve, double seat valve, angle seat valve.
Specification Chart
Size | ½ " to 12" |
Material | ss304, ss316L |
Max pressure | 0 to 8 bar |
Max temperature | -20 °C to 140 °C |
Seals and gasket | PTFEE, EPDM |
End connections | welded, threaded , flanged |
Features
● The stainless steel sanitary control valve has a built-in intelligent adaptive control algorithm, which can automatically adjust the valve opening according to the system flow and pressure changes in real time.
● The stainless steel sanitary control valve has been specially treated inside, and the surface is smooth, which reduces the possibility of microbial deposition and meets the sanitary requirements.
● The stainless steel sanitary control valve adopts an internal pressure buffer device, which can smoothly cope with sudden pressure fluctuations in the fluid system and prevent the valve body from being damaged by vibration.
● The stainless steel sanitary control valve adopts a multi-layer composite sealing design, including materials such as PTFE and fluororubber, which can resist corrosion from a variety of chemical media.
● The stainless steel sanitary control valve design incorporates a low-temperature automatic compensation function to ensure that it can still maintain efficient regulation performance when operating at low temperatures.
● The stainless steel sanitary control valve has a built-in fault detection system to monitor the status of the valve in real time and send alarm signals, which is convenient for remote monitoring and maintenance.
Application
Stainless steel sanitary control valves are widely used in the following industries: Food industry: control the precise flow of fluids such as beverages and condiments to ensure consistent quality. Pharmaceutical industry: accurately adjust fluid temperature and pressure during drug production to ensure product safety. Chemical industry: regulate the flow of chemicals to avoid leakage of hazardous substances and ensure production safety. Bioengineering: used for fluid control in cell culture, fermentation tanks, etc. to ensure stable reactions. Beverage industry: accurately control the ratio of syrup and water in beverage production to improve product taste. Water treatment industry: adjust the fluid flow and pressure during water treatment to ensure water quality treatment results.
