CZ35231U1 - System of controlled retention and use of rainwater depending on meteorological conditions - Google Patents

Description

So far, rainwater from the retention tank is used regardless of the expected meteorological conditions, ie regardless of whether it is necessary to save it when it is not expected to be replenished by rain, and conversely the retention tank should be emptied in the event of heavier rain. subsequent flooding. If the indicated regulation is currently taking place, this is done only partially and sporadically, and only by direct intervention by the operator, and not continuously and automatically.

The essence of the technical solution

These disadvantages are largely eliminated by the system of controlled retention and use of rainwater depending on meteorological conditions, according to this technical solution, the essence of which is that the retention tank is fed the outlet from the gutter system of the building, which fills this retention tank. The retention tank is equipped with a level meter. The outlet of the retention tank is connected by a pipe via a control element to the infiltration object. If the infiltration object is lower than the retention tank, the control element is only a device enabling the opening and closing of the connecting pipe, for example a solenoid valve. If the infiltration object is on the same level as the retention tank, resp. with insufficient slope, the control element is a pump. The controlled retention system is equipped with a control unit to which a level meter is connected, a control element controlling the outflow of water from the retention tank to the infiltration object and a weather station, providing information on the upcoming meteorological conditions. An info panel is also connected to the control unit.

The essence of the technical solution is also that the water collection pipe from the road, for example from the access road, is connected to the inlet of the retention tank.

It is essential that a water collecting pipe from a paved area, for example from a car park, resp. any other area from which rainwater is drained.

It is also essential that the retention tank is connected to the tapping points via a water treatment plant and a pressure source, which is usually a domestic waterworks consisting of a pump and a pressure vessel, with a domestic water supply system and / or a grass irrigation system and / or a system. park irrigation and / or a misting system and / or other element of domestic water consumption.

It is essential that this connection of the retention tank to the sampling points is made by pipes containing electrically operated valves connected to the control unit.

It is also essential that the system is provided with solar panels conductively connected via a battery storage to electrical appliances, the battery storage being connected to a control unit.

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It is essential that the system comprises a well connected via a pump to the retention tank, the pump being connected to the control unit.

Finally, it is essential that the connection of the individual electrical elements is made by wires and / or wirelessly via bluetooth and / or the internet.

In the building, in addition to the distribution of drinking water, the piping of the domestic water supply system is distributed. This domestic water supply system supplies domestic water, in particular to the toilet flushers and to the car wash collection point.

Explanation of drawings

The technical solution will be explained in more detail with the aid of the drawing, in which Fig. 1 shows a system of controlled retention and utilization of rainwater according to this technical solution.

Examples of technical solution

The family house, which is equipped with a retention tank 1, connected to the infiltration object 4, is equipped with a system of controlled retention and use of rainwater depending on meteorological conditions, according to this technical solution.

An outlet from the gutter system of the building 8 is fed to the inlet of the retention tank 1, which is provided with a level meter 2, so that all the water retained by the roof through the gutter system in the rain drains into the retention tank 1.

The outlet of the retention tank 1 is connected by a pipe via the control element 3 to the infiltration object 4. Since the infiltration object 4 is in the same plane as the retention tank 1, the control element 3 is a pump capable of pumping water from the retention tank 1 to the infiltration object 4. the control elements 3 are electrically connected to the control unit 5, to which the info panel 6 and the weather station 7 are also connected, providing information about the upcoming meteorological conditions.

The water collecting pipe from the road 9, ie from the access road to the family house, which is paved and provided with rainwater collecting channels, is connected to the inlet of the retention tank 1.

A water collecting pipe from a paved surface 10 is also connected to the inlet of the retention tank 1, which is also paved and provided with rainwater collecting channels. The paved surface is paved with this paved surface 10. The retention tank 1 is connected via a water treatment plant 11 and a pressure source 21 to sampling points, i.e. to a domestic water supply system in the building 8. The pressure source 21 is a domestic waterworks (darling). Also connected to the pressure source 21 is a grass irrigation system 12. a park irrigation system 13 and a misting system 14. Furthermore, another utility water consumption element 20 is connected to the pressure source 21, namely a fountain, including a fountain with which the fountain is provided.

The connection of the retention tank 1 to the sampling points is made by pipes which contain electrically operated valves 15 connected to the control unit 5. The controlled retention system is provided with solar panels 18 conductively connected via a battery storage 19 to electrical appliances. The battery storage 19 is connected to the control unit 5. The system also includes a drilled well 16, which is connected via a pump 17 to the retention tank 1, the pump 17 being connected to the control unit 5. The individual electrical elements are connected to the control unit 5. conductors, only the pump 17 for pumping water from the remote borehole 16 is connected to the control unit 5 via the Internet.

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Industrial applicability

The technical solution can be used for water management in each family house, which is equipped with a retention tank and a seepage object. It is also suitable for larger properties. Its advantage is better management with the use of rainwater and reducing the risk of floods.

Claims (8)

A system of controlled retention and use of rainwater depending on meteorological conditions, characterized in that an outlet from the gutter system of the building (8) is fed to the inlet of the retention tank (1), which is provided with a level meter (2), the outlet of the retention tank (1) is connected via the control element (3) to the infiltration object (4), while the level meter (2) and the control element (3) are connected to the control unit (5), connected to the info panel (6) and the weather station (7) , providing information on upcoming meteorological conditions. Controlled retention and rainwater utilization system according to Claim 1, characterized in that a road water collecting pipe (9) is connected to the inlet of the retention tank (1). Controlled retention and rainwater utilization system according to Claim 1 or Claims 1 and 2, characterized in that a water collecting pipe from a paved surface (10) is connected to the inlet of the retention tank (1). Controlled retention and rainwater utilization system according to one of the preceding claims, characterized in that the retention tank (1) is connected via a water treatment plant (11) and a pressure source (21) to sampling points, namely a domestic water supply system. in the building (8) and / or the grass irrigation system (12) and / or the park irrigation system (13) and / or the misting system (14) and / or another element (20) of domestic water consumption. Controlled retention and rainwater utilization system according to claim 4, characterized in that the connection of the retention tank (1) to the sampling points is made by pipes comprising electrically operated valves (15) connected to the control unit (5). Controlled retention and rainwater utilization system according to one of the preceding claims, characterized in that it is provided with solar panels (18) conductively connected via a battery storage (19) to electrical appliances, the battery storage (19) being connected to a control unit (5). Controlled retention and rainwater utilization system according to one of the preceding claims, characterized in that it comprises a well (16) connected via a pump (17) to a retention tank (1), the pump (17) being connected to a control unit ( 5). Controlled retention and use system of rainwater according to one of the preceding claims, characterized in that the interconnection of the individual electrical elements is effected by wires and / or wirelessly by means of Bluetooth and / or the Internet.