Simple operation for everyone
A Human Machine Interface (HMI) is the interface from the operator to the PLC in the form of a graphical user interface. This is usually a touch display, which is installed in the door of the control cabinet.
All sizes can be displayed clearly and visually appealing. It is also possible to enter desired parameters such as target pressure and target frequency during operation. In addition to fixed installation at any location, there are also mobile solutions. For example, entries can be made in a control center, with the control cabinet installed in the basement.
For maximum flexibility remote access is recommended.
Visually appealing, intuitive user interface
Customized according to requirements
Simple operation for everyone
A Human Machine Interface (HMI) is the interface from the operator to the PLC in the form of a graphical user interface. This is usually a touch display, which is installed in the door of the control cabinet.
All sizes can be displayed clearly and visually appealing. It is also possible to enter desired parameters such as target pressure and target frequency during operation. In addition to fixed installation at any location, there are also mobile solutions. For example, entries can be made in a control center, with the control cabinet installed in the basement.
For maximum flexibility remote access is recommended.
Visually appealing, intuitive user interface
Customized according to requirements
Complex problems simply solved
A frequency inverter can usually take over simple pressure control itself. In more complex systems, such as the operation of a wastewater treatment plant, there are many influencing factors. There are also several pumps and therefore several frequency inverters. In this case, it is necessary to use a central control system. This records all variables that have an influence on the system. The control system reacts to this and can therefore always reach the desired destination.
The main task of groundwater lowering is to lower the groundwater level. In larger systems with several pumps, the flow of the groundwater can also be influenced by comprehensive control.
No nasty surprises thanks to extensive sensor technology
Integration of additional functions without additional effort
Complex problems simply solved
A frequency inverter can usually take over simple pressure control itself. In more complex systems, such as the operation of a wastewater treatment plant, there are many influencing factors. There are also several pumps and therefore several frequency inverters. In this case, it is necessary to use a central control system. This records all variables that have an influence on the system. The control system reacts to this and can therefore always reach the desired destination.
The main task of groundwater lowering is to lower the groundwater level. In larger systems with several pumps, the flow of the groundwater can also be influenced by comprehensive control.
No nasty surprises thanks to extensive sensor technology
Integration of additional functions without additional effort
Electronic management of the water book
The operation of a heat pump requires the pumping of groundwater. As water is a precious commodity, there are regulations governing the maximum amount of water that may be withdrawn over a certain period of time.
However, a heat pump does not require maximum flow at all times. The combination of Temperature measurements in the water circuit and speed control of the pump, maximum efficiency is possible with minimum water consumption.
In addition, the measurement of the flow rate, including data storage, provides electronic management of the water book, which is necessary anyway due to the regulations.
Temperature measurement for efficient use of the heat pump
Flow measurement and automatic data acquisition for the water logbook
Electronic management of the water book
The operation of a heat pump requires the pumping of groundwater. As water is a precious commodity, there are regulations governing the maximum amount of water that may be withdrawn over a certain period of time.
However, a heat pump does not require maximum flow at all times. The combination of Temperature measurements in the water circuit and speed control of the pump, maximum efficiency is possible with minimum water consumption.
In addition, the measurement of the flow rate, including data storage, provides electronic management of the water book, which is necessary anyway due to the regulations.
Temperature measurement for efficient use of the heat pump
Flow measurement and automatic data acquisition for the water logbook