DE1126327B - Device for the photoelectric control of one or more solenoid valves of a water supply system, especially for sanitary systems - Google Patents

Description

Device for the photoelectric control of one or more solenoid valves a water supply system, in particular for sanitary systems. The invention relates to a device for the photoelectric control of one or more solenoid valves a water supply system, in particular for sanitary systems, by means of a interruptible light beam thrown from a light source into a photocell that when excited via an amplifier device with one in the circuit of the solenoid valve output relay that holds the solenoid valve in the closed position.

As long as a light beam excites the photocell, it does this via the Amplifier device that the output relay interrupts the circuit of the solenoid valve, so that the solenoid valve remains closed, so no water flows. Will the ray of light z. B. interrupted by a person stepping into the light beam, the photo line so not energized, then no current flows in the circuit of the photocell, so that the The output relay of the amplifier device closes the circuit of the solenoid valve, opening the solenoid valve and allowing water to flow.

Known devices have the disadvantage that the solenoid valve also is then opened when the light beam is interrupted in other ways than is desirable for the control, for example by the fact that the light source does not Emits light beam. This is e.g. B. the case of failure of the power in the network, to which the device is connected.

To overcome this drawback, the device is according to the invention designed so that in addition one can be influenced by the circuit of the light source Safety relay is provided which, if the luminous flux is interrupted, the circuit of the solenoid valve interrupts.

The arrangement can be made so that the output relay is designed by appropriate arrangement of windings and contacts that it can also perform the function of the safety relay. A transformer can also be used be provided for operating the device with a for human life safe low voltage.

In the drawing, the device is shown in four examples. 1 shows a device in which the safety relay is arranged at any point in the circuit of the solenoid valve, FIG. 2 shows a device in which the output relay is also designed as a safety relay, a transformer for operating the device is provided with a low voltage which is harmless to human life, FIG. 4 shows an overall circuit diagram of a device. A light source 2 is arranged in a circuit 1, which throws its own light beam 3 onto a photocell 4 . The latter is in a circuit 6 connected to an amplifier device 5. A circuit 8 in which a solenoid valve 9 is located is connected to the amplifier device 5 via an output relay 7.

As long as a light beam 3 excites the photocell 4 , this causes the amplifier device 5, that the output relay 7 interrupts the circuit 8, so that the solenoid valve 9 is closed, so no water flows. If the light beam 3 is interrupted, so the photocell 4 is not energized, then no current flows in the circuit 6, so that the output relay 7 closes the circuit 8 of the solenoid valve 9, whereby the solenoid valve 9 is opened and water flows.

In this regard, the device is known.

Since, when the light beam 3 is interrupted, the circuit 8 is closed and the solenoid valve 9 is opened, the solenoid valve 9 would also be opened if the light beam is absent due to a failure of the light source. For this reason, according to the invention, a safety relay 10 is switched on in the circuit 8 , which interrupts the circuit 8 if the light source fails, that is, prevents the solenoid valve 9 from being opened in an undesirable manner if the light source fails. For this purpose, the safety relay 10 is connected to the circuit of the light source 2 by lines 11.

According to Fig. 1, the safety relay 10 is at any point of the Circuit 8 arranged. According to FIG. 2, the output relays 7 and the safety relay 10 by appropriate arrangement of windings and contacts combined.

According to Fig. 3, a transformer 12 is connected upstream of the amplifier device, which allows the device with a harmless to human life Operate low voltage.

Fig. 4 shows an example of a circuit diagram for the device. The alternating current that is stepped down in a transformer 12 is partially converted to Supply of the light source 2 lying in the circuit 1 used, which is a light beam 3 to a photocell 4 or another organ with the same or similar properties throws. In the photocell 4, which is in a circuit 6, is through the light beam 3 generates a voltage; by one from the transformer 12 via a rectifier 13 fed amplifier 5 is amplified and under which a circuit 14 is, in which the output relay 7 is arranged, which contains the solenoid valve 9 Circuit 8 interrupts as soon as it is energized, which then takes place when the Light beam 3 is interrupted. The circuit 14 can be through a safety relay 10 are interrupted as soon as this is de-energized. The safety relay 10 is in the example shown in a circuit 11 that is parallel to the light source 2 is switched.

If the power source 2 emits a light beam, it is therefore below Current, so that the safety relay 10 keeps the circuit 14 closed, then If the light beam 3 is interrupted, the output relay 7 is energized and closes the circuit containing the solenoid valve 9 B. However, the circuit of the Light source 2 itself interrupted, then the output relay 7 can the circuit 8 of the solenoid valve does not close because the circuit 14 is through the safety relay 10 is interrupted.

The safety relay 10 and the output relay 7 are therefore in positions drawn, in which the light source 2 is de-energized and no light beam 3 is sent will.

Claims (3)

PATENT CLAIMS: 1. Device for the photoelectric control of a or several solenoid valves of a water supply system, especially for sanitary Systems, by means of an interruptible light beam emitted by a light source is thrown into a photocell, which when excited via an amplifier device with a In the circuit of the solenoid valve lying output relay the solenoid valve in closed Holds position, characterized in that in addition one of the circuit, the light source controllable safety relay is provided which, if the lighting circuit is interrupted, interrupts the circuit of the solenoid valve. 2. Apparatus according to claim 1, characterized characterized in that the output relay by appropriate arrangement of windings and contacts is designed so that it also functions as the safety relay can exercise. 3. Apparatus according to claim 1, characterized by the arrangement a transformer for operating the device with one for human life safe low voltage.