Latch Solenoid Valve
What is Latch Solenoid Valve?
Latch Solenoid Valves operate at much lower power than standard Solenoid Valves, providing more energy savings. Latch solenoid valves are valves operating with energy-saving DC coils in which the normally open or closed valve position is changed by reverse pulses given as short as 200 ms. There is no need to constantly energize the valve to keep it in the changed position; When it is desired to change the position again, it is sufficient to give a pulse of 200 ms in the opposite direction. With the electronic control circuit, it is possible to operate the valve as normally closed or open depending on preference.
How Does the Latch Solenoid Valve Work?
In Latch Solenoid Valves, a permanent magnet is placed at the top of the valve that does not require electrical input. The area of this small magnet is not enough to activate the piston. In addition, when the valve is opened at full power, the permanent magnet is strong enough to keep the valve open. This allows the valve to remain open after the initial electrical power is turned off, resulting in significant potential energy savings. The valve will remain open until another electrical charge of opposite polarity is applied. It is very useful when the valve is left open for a long time or is battery operated and needs to save as much energy as possible.
A latch solenoid valve is a type of valve that is electrically operated and used to control fluids such as air, water or steam. The valve consists of a solenoid, an electromechanical device that converts electrical energy into mechanical energy, and a latch mechanism that keeps the valve in the open or closed position. When the solenoid is activated, it moves the latch mechanism, opening the valve and allowing the liquid to flow through the valve. When the solenoid is disabled, the latch mechanism is released and the valve closes, stopping fluid flow.
Where is the Latch Solenoid Valve Used?
Latch solenoid valves are used in a variety of applications where it is necessary to control the flow of a liquid such as air, water or steam. Some common applications for latch solenoid valves include:
- It is used to control the flow of air or other fluids in heating, ventilation and air conditioning (HVAC) systems.
- It is often used in pneumatic control systems to control the compressed air flow.
- It is commonly used in fluid power systems that use pressurized fluids to transmit and amplify force.
- It is used in various industrial automation applications to control fluid flow in machinery and equipment.
- It is used in medical equipment such as ventilators to control the flow of gases or other liquids.
- It is used in agricultural equipment such as irrigation systems to control water flow.
General Features
- Gasket: NBR
- Sleeve: Stainless
- Body: Brass
- Core: Stainless
- Temperature: -10 / +90 °C
Things to Consider When Choosing a Solenoid Valve:
- The coil should be selected in accordance with the operating voltage (AC-DC) to be used. (Electricity turns on when air comes in, and turns off again when you cut off the electricity)
- In the line or system you will use, min. and max. pressure values are very important in the selection of the valve.
- The quality and temperature of the fluid is a direct factor in the selection of the valve.
- The direction of the fluid and the arrow mark on the body are in the same direction and attention should be paid to the assembly.
- Since the solenoid valve does not function as a check valve, the fluid flows back at reverse pressures. In these cases, installing a check valve after the solenoid valve is correct for the connection.
- The line to which the valve is attached must be free of impurities.
ÜRÜN KODU | BOYUTU | BAĞLANTI DİŞ ÖZELLİĞİ | NOMİNAL BASINÇ | ÇALIŞMA BASINÇ ARALIĞI | BOBİN ÖZELLİĞİ | AKIŞKAN ÇALIŞMA SICAKLIK ARALIĞI | ORTAM ÇALIŞMA SICAKLIK ARALIĞI | AĞIRLIK | AKIŞ YÖNÜ | DİYAFRAM VE CONTA ÖZELLİĞİ | TEPKİ ZAMANI | KVs(It/dk) |
---|---|---|---|---|---|---|---|---|---|---|---|---|
LTC1110 | 1/8’’ | BSP, İsteğe göre NPT | 16 Bar | 0-50 Bar | IP65, Class H, ED 100% | -10/180°C | -10/60°C | 0,320 kg. | Tek yönlü | (NBR:-10°C /+80°C) , (EPDM:-10°C/+130°C) , (VİTON:-10°C/+160°C) , (PFTE:- 10°C/+180°C) | Açma Zamanı: 30 ms Kapama Zamanı: 30 ms | 1,72 |
LTC1111 | 1/4" | BSP, İsteğe göre NPT | 16 Bar | 0-50 Bar | IP65, Class H, ED 100% | -10/180°C | -10/60°C | 0,310 kg. | Tek yönlü | (NBR:-10°C /+80°C) , (EPDM:-10°C/+130°C) , (VİTON:-10°C/+160°C) , (PFTE:- 10°C/+180°C) | Açma Zamanı: 30 ms Kapama Zamanı: 30 ms | 1,8 |
LTC1113 | 1/2" | BSP, İsteğe göre NPT | 16 Bar | 0-50 Bar | IP65, Class H, ED 100% | -10/180°C | -10/60°C | 0,585 kg. | Tek yönlü | (NBR:-10°C /+80°C) , (EPDM:-10°C/+130°C) , (VİTON:-10°C/+160°C) , (PFTE:- 10°C/+180°C) | Açma Zamanı: 300 ms Kapama Zamanı: 900 ms | 75 |
LTC1114 | 3/4" | BSP, İsteğe göre NPT | 16 Bar | 0-50 Bar | IP65, Class H, ED 100% | -10/180°C | -10/60°C | 0,635 kg. | Tek yönlü | (NBR:-10°C /+80°C) , (EPDM:-10°C/+130°C) , (VİTON:-10°C/+160°C) , (PFTE:- 10°C/+180°C) | Açma Zamanı: 300 ms Kapama Zamanı: 900 ms | 85 |
LTC1115 | 1" | BSP, İsteğe göre NPT | 16 Bar | 0-50 Bar | IP65, Class H, ED 100% | -10/180°C | -10/60°C | 0,700 kg. | Tek yönlü | (NBR:-10°C /+80°C) , (EPDM:-10°C/+130°C) , (VİTON:-10°C/+160°C) , (PFTE:- 10°C/+180°C) | Açma Zamanı: 300 ms Kapama Zamanı: 900 ms | 95 |
LTC1116 | 11/4" | BSP, İsteğe göre NPT | 16 Bar | 0-50 Bar | IP65, Class H, ED 100% | -10/180°C | -10/60°C | 1,570 kg. | Tek yönlü | (NBR:-10°C /+80°C) , (EPDM:-10°C/+130°C) , (VİTON:-10°C/+160°C) , (PFTE:- 10°C/+180°C) | Açma Zamanı: 300 ms Kapama Zamanı: 900 ms |
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