EP0675234B1 - Method for independantly activating a flush - Google Patents

Abstract

The flushing method uses a valve (5) in the water feed pipe (4), which is operated by an electronic control and analysis unit (14). The feed pipe is also fitted with a water turbine (6) which drives a generator (7). The electrical energy produced by the generator is stored in a capacitor (15). The control unit monitors the state of charge of the capacitor, and when its voltage falls below a predetermined value, the valve is opened for an adjustable period. The system can also be made to operate at fixed intervals, regardless of the charge on the capacitor. <IMAGE>

Description

The invention relates to a method for automatically triggering a rinsing process with water, especially for flushing urinals, toilets and Wash basins, preferably in commercial and public facilities, with an electrical one arranged in the water supply line Generator driving water turbine for generating electrical energy for the Supply of an electronic control and evaluation unit for controlling an in the water supply line, electrically operated shut-off valve, wherein the electrical energy stored and the state of charge of the storage is monitored in order to ensure a minimum charge level Trigger the flushing process to charge the energy store.

For a flushing process, especially for flushing urinals, toilets and Trigger wash basins in commercial and public facilities, it is known to have an electrically actuated shut-off valve in the water supply line to order that for hygienic reasons not by a Hand contact of the user, but contactless with the help of an electronic Control unit is operated. As a pulse generator for the electronic control unit Either light barriers or reflex infrared detectors are used.

The main problem with these electronic control units is the energy supply. A supply with mains voltage presupposes that an electrical Mains connection is installed. The installation of such network connections However, requires a lot of work and costs, because in addition to plumbers also electricians for the assembly of the complex in individual cases and complicated electrical installations have to.

In order to reduce this effort, it is also known from EP-A-0 433 631 known to use batteries or accumulators for power supply are supplied with the energy generated by the water turbine. The The state of charge of this energy storage device is monitored to ensure that it falls below one minimal state of charge, a rinsing process for charging the energy store trigger. Despite advances in battery and accumulator technology, in the battery or the accumulator are changed at regular intervals. In addition to the associated material costs for the battery or the accumulator high costs arise for the related technical Service. Because batteries and accumulators are often not disposed of in an environmentally neutral manner an environmental problem arises at the same time. This problem is exacerbated if particularly long-lasting batteries or accumulators are used, containing lithium, mercury or cadmium. As for a change suitable flaps or openings for the battery or the accumulator must be provided is increased by these visible installations experience has shown that there is a risk of vandalism, i.e. the wanton destruction of such facilities.

The invention has for its object to develop the above-described method for automatically triggering a rinsing process such that the electrically actuated shut-off valve in the water supply line can be controlled by means of a control and evaluation unit without a mains power supply and without the use of batteries or accumulators.

The solution to this problem by the invention is characterized in that the electrical energy generated by the generator is stored in a storage capacitor, the charging voltage is monitored by the electronic control and evaluation unit, that the shut-off valve automatically for an adjustable by the electronic control and evaluation unit Opening time is opened as soon as the charging voltage falls below a predeterminable minimum value and that the voltage rise in the storage capacitor is monitored by the electronic control and evaluation unit after each opening of the shut-off valve and the shut-off valve is kept open if there is no voltage rise in the storage capacitor.

Because storage capacitors are used in a very short time and practically indefinitely can be charged and discharged and an extraordinarily large Have lifetime, does not apply to the use of a Storage capacitor for storing the electrical generated by the generator Energy the need for a periodic change of energy storage like when using batteries or accumulators. They also provide capacitors no disposal problem. By monitoring the Charging voltage of the storage capacitor using the electronic control and Evaluation unit and through the automatic opening of the shut-off valve when falling below a predefinable minimum value for the charging voltage is ensured that the energy stored in the storage capacitor even for the Triggering an upcoming rinsing process is available when over no user flushing for a relatively long period of time was triggered. Because water turbine, generator and storage capacitor like this can be interpreted that a rinsing process of about 30 seconds is sufficient to the Covering electricity requirements for at least 24 hours results when not in use just one additional rinse per day. Such an additional flush is always an advantage if the odor trap of the urinal, the Toilet or wash basin should be maintained. Since the electronic control and evaluation unit the voltage rise in Storage capacitor is monitored every time the shut-off valve is opened and that Shut-off valve if there is no voltage rise in the storage capacitor is kept open, takes place when water is absent and therefore does not occur Charging the storage capacitor keeping the shut-off valve open. This results in the system being shut down without external access, for example by simply shutting off the water for a longer period Not used or to prevent the risk of freezing. At the same time achieved that over the water turbine and the generator driven by it The storage capacitor is charged immediately as soon as again Water is available. In the event that the storage capacitor is defective should be triggered, the flushing process is not triggered and thus does not open the shut-off valve. This remains with a defective storage capacitor closed.

In an alternative solution to the task set out above by the invention, the electrical energy generated by the generator is also stored in a storage capacitor and the shut-off valve through the electronic control and evaluation unit periodically after a adjustable period of time for an adjustable opening time, where again by the electronic control and evaluation unit of the Voltage rise in the storage capacitor after each opening of the shut-off valve monitors and the shut-off valve if there is no voltage rise in the Storage capacitor is kept open.

In this alternative embodiment, the monitoring of the charging voltage is omitted of the storage capacitor by the control and evaluation unit and is by a timer in the control and evaluation unit is replaced periodically The shut-off valve opens for an adjustable period of time, for one again adjustable opening time, so that even with this configuration it is ensured that for periods of prolonged non-use of the system Storage capacitor stored electrical energy at any time for triggering an upcoming rinsing process is sufficient.

In both configurations, there is the essential advantage that Installations recognizable from the outside are eliminated, so that the risk of Vandalism significantly reduced.

The odor trap of the urinal, the toilet or the sink too always in the case of monitoring the charging voltage of the storage capacitor Keep functional, according to another feature of the invention for proposed the first alternative of the method according to the invention, regardless of the opening of the. caused by monitoring the charging voltage Shut-off valve the shut-off valve periodically after an adjustable Open time span for an adjustable opening time. This will ensured that even at higher temperatures leading to faster Evaporation of the water in the odor trap, the odor trap is always kept functional.

Finally, for a preferred embodiment of the invention, it is proposed that the use-induced triggering process for opening the shut-off valve by monitoring the change in temperature over time in one Trigger odor trap. The trigger is independent of the respective base temperature, since not the size of the temperature change, but the rate of temperature change, i.e. the temperature change over the Time for triggering the rinsing process is used regardless of the direction of the temperature change. A rinsing process will therefore always triggered when there is something in the odor trap Water either briefly warms up or cools down, for example by emptying it of dirty water into the urinal, toilet or sink.

With the invention, the permanent maintenance of the functionality of the electronic control for triggering a rinsing process guaranteed and maintain the effect of the odor trap at the same time as long as the System is ready by waiting for the necessary water pressure, and independent of regular use. Even in the event of one temporary decommissioning, for example to eliminate the Danger of freezing, the functionality remains intact without access to the electronic control and evaluation unit or the storage condensate.

Fig. 1

schematisch einen senkrechten Schnitt durch ein Urinal und

Fig. 2

ein Diagramm mit dem Spannungsverlauf über der Zeit.

The drawing schematically shows an exemplary embodiment of a device for automatically triggering a flushing process for flushing a urinal with a water turbine arranged in the water supply line, namely:

Fig. 1

schematically a vertical section through a urinal and

Fig. 2

a diagram with the voltage curve over time.

1 is a on a wall 1 in the schematic vertical section according to FIG fixed urinal 2 to recognize, the water outlet 3 to a water supply 4 is connected. In this water supply line 4 is behind one Shut-off valve 5 a water turbine 6 arranged, the electric Generator 7 drives. The shut-off valve 5 is actuated by a Electromagnets 8.

There is an odor trap at the lowest point of the basin formed in urinal 2 9 connected, which ends in a drain line 10. On the through a cover 11 protected against access odor trap 9 is a Temperature sensor 12 attached by a signal line 13 with a electronic control and evaluation unit 14 is connected. The energy supply this electronic control and evaluation unit 14 is carried out by a Storage capacitor 15, the charging voltage generated by the generator 7 electrical energy is generated, the capacitor 15 by a Charging line 16 is supplied. The electronic is via a control line 17 Control and evaluation unit 14 connected to the electromagnet 8.

2 shows the course of the charging voltage U of the storage capacitor 15 over the time t specified in hours. The storage capacitor 15, which is supplied with maximum charging voltage by the electrical energy generated by the generator 7 at time zero, loses its stored energy due to the absence of flushing processes. The charging voltage U drops continuously over a period of about one day. As soon as the charging voltage U shown in solid lines in the diagram according to FIG. 2 reaches the minimum value shown in the diagram, which is determined by monitoring by means of the electronic control and evaluation unit 14, the electronic control and evaluation unit 14 opens the shut-off valve 5 initiated flushing process, the water turbine 6 is driven, which in turn drives the electrical generator 7, the electrical energy of which is supplied to the storage capacitor 15, so that the charge voltage U ₂ is increased to the maximum value again with the forced flushing Z ₂ initiated. Before this, the charging voltage U has dropped below the minimum value by actuating the electromagnet 8, as can be seen from the diagram in FIG. 2. However, the energy of the storage capacitor 15 available at the minimum value of the charging voltage U is sufficient to actuate the magnet 8 for a predetermined period of time in order to open the shut-off valve 5.

The diagram of FIG. 2 shows the voltage curve for normal rinsing processes S ₁ to S ₆ with solid lines. The diagram shows that the rinsing processes S ₁ to S ₆ initiated by a user are sufficient to normally store sufficient energy in the storage capacitor 15.

In the alternative embodiment, the shut-off valve 5 is opened by the electronic control and evaluation unit 14 by actuating the electromagnet 8 after an adjustable time period T. In the diagram, this time period T is twenty-four hours, so that the energy in the storage capacitor 15 is increased in time by a forced rinse Z ₁ before the charging voltage U drops below the minimum value required to open the shut-off valve 5 by the magnet 8 to provide the required energy.

When the first rinsing process S _{1 is} triggered by a user, the voltage curve of the alternative embodiment shown with dash-dotted lines changes to the voltage curve shown with solid lines.

By means of the electronic control and evaluation unit 15 Voltage rise in the storage capacitor 15 after each opening of the Shutoff valve 15 monitors. If there is no such increase in voltage, it will Shutoff valve 15 kept open. This makes it possible to flush the system of urinals, toilets and wash basins in the commercial sector and in public facilities easily without intervention in the electronic control by switching off the water, for example to turn it off To prevent freezing. As soon as water is made available again Via the shut-off valve 15, a drive of the water turbine 6 and thus the generator 7, so that the storage capacitor 15 loaded and the system is ready for operation.

Reference symbol list:

1

wall

2nd

urinal

3rd

Water outlet

4th

Water supply

5

Shut-off valve

6

Water turbine

7

generator

8th

Electromagnet

9

Odor trap

10th

Drain pipe

11

cover

12th

Temperature sensor

13

Signal line

14

Control and evaluation unit

15

capacitor

16

Charging line

17th

Control line

t

time

T

Period of time

U

Charging voltage

Z ₁

Forced flushing

Z ₂

Forced flushing

S ₁ - S ₂

Rinsing process

Claims (4)

1. Method for automatically triggering a flushing action with water, in particular for flushing urinals, toilets and wash-basins, preferably in the industrial sector and in public facilities, with a water turbine (6), which is disposed in the water supply pipe (4) and drives an electric generator (7), for generating electric energy for feeding an electronic control and evaluation unit (14) for controlling a shut-off valve (5), which is disposed in the water supply pipe (4) and can be electrically actuated, wherein the electric energy is stored and the state of charge of the store is monitored in order to trigger a flushing action for the purpose of charging the energy store if the state of charge falls below a minimum value,
   characterised in that the electric energy generated by the generator (7) is stored in a storage capacitor (15), the charging voltage (U) of which is monitored by the electronic control and evaluation unit (14), that the shut-off valve (5) is automatically opened for an adjustable opening time by the electronic control and evaluation unit (14) as soon as the charging voltage (U) falls below a predeterminable minimum value, and that the voltage increase in the storage capacitor (15) is monitored by the electronic control and evaluation unit (14) subsequent to each opening of the shut-off valve (5), and the shut-off valve (5) is held open in the absence of a voltage increase in the storage capacitor (15).
2. Method for automatically triggering a flushing action with water, in particular for flushing urinals, toilets and wash-basins, preferably in the industrial sector and in public facilities, with a water turbine (6), which is disposed in the water supply pipe (4) and drives an electric generator (7), for generating electric energy for feeding an electronic control and evaluation unit (14) for controlling a shut-off valve (5), which is disposed in the water supply pipe (4) and can be electrically actuated, wherein the electric energy is stored and the state of charge of the store is monitored in order to trigger a flushing action for the purpose of charging the energy store if the state of charge falls below a minimum value,
   characterised in that the electric energy generated by the generator (7) is stored in a storage capacitor (15), that the shut-off valve (5) is periodically opened for an adjustable opening time by the electronic control and evaluation unit (14) at the end of an adjustable time interval (T), and that the voltage increase in the storage capacitor (15) is monitored by the electronic control and evaluation unit (14) subsequent to each opening of the shut-off valve (5), and the shut-off valve (5) is held open in the absence of a voltage increase in the storage capacitor (15).
3. Method according to Claim 1, characterised in that the shut-off valve (5) is periodically opened for an adjustable opening time by the electronic control and evaluation unit (14) at the end of an adjustable time interval (T) independently of the opening of the shut-off valve (5) occasioned by monitoring the charging voltage (U).
4. Method according to at least one of Claims 1 to 3,
   characterised in that the use-induced triggering action for opening the shut-off valve (5) is triggered by monitoring the change in temperature over time in a stench trap (5).

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