TECHNICAL SUPPORT
FREQUENTLY ASKED QUESTIONS
Water Pressure Reducers
Water Pressure Reducer; It is produced to prevent damage that may occur in installations and devices connected to installations by reducing the pressure in high-pressure mains water.
The factory setting pressure is calibrated as 3 Bar. Adjustment pressure can be changed by the user if desired. In order to change the setting pressure, firstly, the black plastic plug at the bottom of the product is unscrewed by hand. Adjustment is made by turning the hex head adjustment screw, which is located inside the place where the plastic plug is removed, with the hex key.
Setting Pressure;
- To increase, turn the adjusting screw clockwise (+),
- To decrease, it is calibrated to the desired pressure value by turning the adjusting screw counterclockwise (-).
The working system of water pressure reducers is based on the balance of two opposing forces. These forces are;
- The compressive force exerted by the compressed spring
- The force exerted by the water pressure on the piston
If the pressure force of the spring is greater than the force applied to the piston, the piston moves down, if it is small, the piston moves up and provides a controlled adjustment of the outlet pressure.
Mains water pressure under normal conditions; It should be between 3 Bar and 5 Bar. Pressure reducing valves are also factory-set to these values. If the pressure is high or low, the cover on the valve can be opened and the pressure can be adjusted through the socket turned with the hex key.
Safety Valves
In accordance with the working principle of the thermosiphon safety valve, when the internal pressure of the thermosiphon rises above the set pressure, water discharge begins in the form of drops from the discharge port of the valve.
In accordance with the working principle of the thermosiphon safety valve, when the internal pressure of the thermosiphon rises above the set pressure, water discharge begins in the form of drops from the mouth of the valve. This situation is a sign that you are extremely natural and safe, and it is definitely not a negative situation.
Mains water pressure under normal conditions; It should be between 3 Bar and 5 Bar. Pressure reducing valves are also factory-set to these values. If the pressure is high or low, the cover on the valve can be opened and the pressure can be adjusted through the socket turned with the hex key.
Automatic Air Release Devices
Automatic air evacuation devices are produced to automatically evacuate the air formed in closed-circuit systems working with water and to prevent the damages caused by air accumulation.
It is applied to heating systems, combi systems, closed circuit heating systems.
The air formed in closed circuit systems always moves towards the upper points of the system. For this reason, the air formed in the system reaches the automatic air evacuation device mounted at the top of the system.
The air reaching the device is discharged from here to the outside through air ducts. As the air in the installation decreases, the water level in the device rises. The rising water level starts to lift the float inside the product. As the water level rises, the pin pulled down by the float weight also moves up and closes the gasket in the discharge port.
Thus, the air evacuation ends. As air builds up in the system, the cycle of work continues in this way.
Automatic Filling Valve
The automatic boiler filling device is calibrated as a preset pressure of 1.5 bar at the factory. Adjustment pressure can be changed by the user if desired. Adjustment is made by turning the adjustment key sent with the product to change the adjustment pressure.
It ensures that the water that is lost in closed-circuit heating systems is filled again. Also, the filling process stops automatically when it reaches pressure.
With the water pressure reducing system it contains, it is based on the balance of two opposing forces.
- The compressive force exerted by the compressed spring
- The force exerted by the water pressure on the diaphragm
If the pressure force of the spring is greater than the force applied to the piston, the piston moves down, if it is small, the piston moves up and provides a controlled adjustment of the outlet pressure.
It ensures that the water that is lost in closed-circuit heating systems is filled again.