DE20120637U1 - Automatic heating test and filling device - Google Patents

Description

Description: "Automatic heating testing and filling device"

After new installations, extensions or repairs to hot water heating systems, they must be checked for leaks and filled. The manual venting of the heating systems begins at the same time as the filling process.

This generally involves a lot of working time, which can be particularly important with older systems, large systems and underfloor heating systems.

The device described below is able to automatically carry out the work steps from leak testing to filling hot water heating systems and thus save working time compared to conventional methods.

The portable device consists of a pressure generator, a vacuum generator, solenoid valves and pressure sensors, which are connected by pipes as shown in the figure. The functional sequence described below is controlled by the internal electronic circuitry of the device components.

The device includes an external, battery-operated sound level meter for leak detection. This device is commercially available and has dimensions of approx. 150 x 70 x 20 mm. It is able to locate the sound waves of escaping air.

The device components including the electronic control are installed in a sheet steel housing (1) with dimensions of approx. 800 X 350 X 250 mm (LXWXH), on which the operating elements and displays are arranged.

The electric solenoid valves (6; 8; 9) are suitable for electromechanical switching of water and air. The pressure sensors (7; 11; 12) detect water and air pressures and convert them into electrical signals.

The electromotive compressed air ( 5 ) and vacuum generators ( 10 ) as well as the solenoid valves, pressure sensors, connecting pipes and hoses are commercially available components with pipe connections up to ³ A".

All electrical components, including the control electronics of the device, are also made from commercially available components. The device has a mains connection of 220 V / 10 A.

The figure shows the operating principle of the device:

The device is connected to the heating system ( 3 ) via the connection valve V1 ( 2 ). Fresh water ( 4 ) and electricity are connected to the device.

The automatic function sequence is started when the compressed air generator ( 5 ) is switched on. This switches off when the preselected test pressure P1 ( 7 ) of up to 12 bar is reached. The solenoid valves MV1 ( 6 ) and MV2 ( 8 ) are then closed.

If the pressure remains constant for a defined time (time relay), the system being tested is sealed. The pressure is then automatically released and the vacuum generator (10) is started, which vents the heating system to a preselected vacuum (up to 10 mbar). If the vacuum sensor P2 (11) signals that the system has been vented, the vacuum generator switches off automatically.

The solenoid valves MV1 (6) and MV2 ( 8 ) are closed. The solenoid valve MV3 ( 9 ) opens and fills the system with water until the preselected working pressure P3 (12 ) is reached and then switches off automatically. The automatic filling cycle is finished, the heating system is filled with water:

In the event of a leak in the heating system ( 3 ), the test pressure built up in the first step drops within a defined, preselectable time. The automatic process is interrupted and an error is signaled, prompting the operating personnel to search for the leak manually.

The air escaping through the leak generates sound waves, even outside the human hearing range, which are manually located by the operating personnel using the battery-operated sound level meter, thus finding the leak.

Once the leak has been sealed, the automatic process is started again by manually restarting the cycle.

Claims (1)

"Automatic heating testing and filling device" is characterized by
that in a portable sheet steel housing with dimensions of approximately 800 × 350 × 250 mm (L × W × H) a compressed air generator, a vacuum generator, electric solenoid valves and pressure sensors are connected by pipes and electrically wired,
that after connecting this device to the hot water heating systems to be tested and filled, an automatic process is started,
which carries out the leak test using overpressure generated by the compressed air generator, whereby pressure changes in the system are recorded by a pressure sensor and electronically evaluated to determine the degree of leakage of the system,
and subsequently the filling with water into a vacuum previously created by the vacuum generator in the heating system takes place automatically until the preselected working pressure is reached and thus the manual venting of the heating systems is no longer necessary,
as well as the manual localization of leaks in the system where escaping compressed air generates sound waves, using a commercially available mobile, battery-operated sound level meter.