DE19639957A1 - Rainwater utilisation plant - Google Patents

Abstract

The plant comprises a rainwater catchpit (1), a pump (6) for feeding the supply line (7) and a feeder tank (8) where drinking water is fed via a valve (12) and from which the pump receives water. The feeder tank is accommodated in the catchpit or directly fitted to it, being in connection with it. A sensor (9,10) controls the valve by detecting the water level in the feeder tank and the connection between the feeder tank and the rainwater catchpit is such that water flow from the feeder tank to the catchpit is prevented, in the event of water level drop in the feeder tank.

Description

The invention relates to a rainwater harvesting system with the features of Preamble of claim 1.

Such a system is from the brochure HWW-UT04 water saving module Company known as U.T.E.K Laudenbach. The module described there contains the Pump and the make-up tank. The pump inlet is via a solenoid valve with the make-up container and via a suction line and one in it Check valve switched on with the remotely located Rainwater catch basin connected, this check valve only one Allows flow to the pump. In the drinking water inflow to the make-up basin is a additional solenoid valve switched on. The two solenoid valves mentioned are from a float switch in the rainwater catchment basin when the Rainwater operated below a predetermined level so that now from the pump Water can be removed from the refill container.

The invention is based on the object, the known system in terms Improve effort.

This object is solved by the features of claim 1.

Exemplary embodiments of the invention are explained with the aid of the drawing. Show it:

Fig. 1 shows a first embodiment,

FIG. 2 shows an exemplary embodiment with slight changes compared to FIG. 1.

In Fig. 1, 1 denotes a rainwater catchment basin, into which 2 rainwater enters via a connection. In the basin 1 , a make-up tank 8 is housed, which is connected via a check valve 4 and a suction hose 5 to a swimming filter 3 , which allows collected rainwater to pass to the make-up tank. The make-up tank is connected via a line 14 and a funnel 13 via a free outlet according to DIN 1988 without pressure to a drinking water line, in which a solenoid valve 12 is switched on. In the make-up tank 4 there is a submersible pump 6 , the output of which is connected to a valve 7 with a consumer line. A water level sensor consisting of two electrodes 9 and 10 is accommodated in the make-up tank. This is connected to control electronics 11 , which in turn controls the solenoid valve 12 .

If, as the float filter 3 shows, there is enough water in the rainwater catch basin 1 and thus in the make-up tank 8 , the water level sensor 9, 10 of the electronics 11 signals this: the solenoid valve is closed. The pump 6 pumps water to the fitting 7 if necessary. However, if the rainwater level drops so much that the electrode 9 is no longer covered by water, the electronics 11 cause the solenoid valve 12 to open and drinking water to flow into the refill container 8 until the electrode 10 is covered again and the solenoid valve 12 closes again and thus interrupts the flow of drinking water. The check valve 4 prevents drinking water from entering the rainwater collecting basin 1 . If necessary, the pump 6 now pumps drinking water into the consumption circuit. If the rainwater level rises again, rainwater is fed again via the swimming filter 3 , the suction hose 5 and the check valve 4 .

In the exemplary embodiment in FIG. 2, most of the parts are identical to the corresponding parts in FIG. 1 and are therefore provided with the same reference symbols. However, the water level sensor is a float switch here, which is in position 15 when the water level is low and in position 16 when the water level is high. It controls the flow of water in the feed tank 8, instead of the check valve 4 of FIG. 1 is now a float valve 17 is provided, the float indicates 17 a high in the fully extended position, the water level in the rain water collection tanks and then holds open the valve 17. When the water level is low, the float is in the position shown in broken lines and blocks the valve 17 . This breaks the connection between the rainwater storage tank and the make-up tank. The float switch now triggers the replenishment of drinking water; thus only a small amount of drinking water is fed into the make-up tank 8 .

In addition to the options for controlling the solenoid valve 12 shown in FIGS. 1 and 2, other solutions can also be used. For example, the sensor could also be pneumatic, capacitive, inductive, etc. (e.g. Liquifant F, reed float switch), or the valve 12 and the sensor could be replaced by a mechanical float valve.

Instead of the check valve 4 or the float valve 17 , a check valve, a pinch valve, etc. could also be provided.

The make-up container can also be open at the top. Then the check valve 4 or the float valve 3 and the associated hose connection 5 can be omitted.

In contrast to FIGS. 1 and 2, the pump can also be accommodated outside the make-up container 1 . In this case, a suction line of the pump ends in the make-up tank.

Claims (10)

1. rainwater utilization system, consisting of a rainwater catch basin ( 1 ), a pump ( 6 ) for taking water and feeding into a supply circuit ( 7 ), a make-up tank ( 8 ), into which drinking water can be fed via a controllable valve ( 12 ) and from which the pump ( 6 ) takes water, characterized in that the make-up tank ( 8 ) is accommodated in the rainwater collecting basin ( 1 ) or is attached directly to it, that the make-up tank ( 8 ) is connected to the rainwater collecting tank ( 1 ), that a sensor (9, 10; 15, 16) is housed in the top-up tank (8) which controls the level in the feed tank (8), the controllable valve (12) upon a decrease in drinking water supply, and that the connection of rain water collecting basin (1) with the Make-up tank ( 8 ) is designed so that water flow from the make-up tank ( 8 ) to the catch basin ( 1 ) is prevented when the rainwater level drops . 2. Rainwater utilization system according to claim 1, characterized in that in the rainwater collecting basin ( 1 ) housed make-up tank ( 8 ) the make-up tank ( 8 ) is at least partially open above. 3. rainwater utilization system according to claim 1 or 2, characterized in that the make-up tank ( 8 ) via a shut-off valve ( 4 ; 17 ) is connected to the catch basin ( 1 ), which prevents water flow from the make-up tank ( 8 ) to the catch basin ( 1 ). 4. rainwater utilization system according to claim 3, characterized in that the shut-off valve is a check valve ( 4 ). 5. rainwater utilization system according to claim 3, characterized in that the shut-off valve is a float valve ( 17 ). 6. Rainwater utilization system according to one of claims 1 to 5, characterized in that the pump is a submersible pump ( 6 ) and is housed in the make-up tank ( 8 ). 7. rainwater utilization system according to one of claims 1 to 61, characterized in that the sensor consists of two vertically different height electrodes ( 9 , 10 ). 8. rainwater utilization system according to one of claims 1 to 6, characterized characterized in that the sensor consists of two vertically different heights installed switches responsive to the water level in particular Reed switches exist. 9. rainwater utilization system according to one of claims 1 to 6, characterized in that the sensor is a float switch ( 15 , 16 ). 10. rainwater utilization system according to one of claims 1 to 9, characterized characterized in that the controllable valve and the sensor as Float valve are formed.