PL240690B1 - Autonomous system and method of rain water storage and supply - Google Patents

Description

PL 240 690 B1

Description of the invention

The subject of the invention is an autonomous system and method of storing and supplying rainwater, which are used in housing, municipal and public institutions.

From the patent description CN 201981576 U there is known an invention relating to the provision of rainwater to toilets in a multi-storey building by collecting it in advance in a rainwater tank located on a flat roof. In this solution, the toilet water is also supplied by gravity drainage.

An invention is also known from the patent description CN 201762757 U concerning the collection of rainwater by means of a gutter system in an underground reservoir, and then its use for sanitary purposes and for watering the garden.

Commercial systems using rainwater for flushing toilets are also known. One of the companies offering a similar solution is Aquatechnika, which offers a rainwater collection system and its distribution directly to toilets using self-priming pumps.

The autonomous rainwater storage and supply system according to the invention comprises a lower rainwater tank connected by a supply pipe to the upper rainwater tank. The upper rainwater tank is located above the lower rainwater tank. A filter is provided between the lower rainwater tank and the upper rainwater tank, and a drainage pipe is attached to the upper rainwater tank for supplying water to the outside of the system. The system in question is characterized by a submersible DC pump connected directly to the photovoltaic module and to the lower float switch in the lower rainwater tank. In the upper rainwater tank there is an upper float switch connected to a submersible DC pump and a float valve supplying water from the external water supply network.

The method of autonomous storage and supply of rainwater according to the invention in a system comprising a lower rainwater tank and an upper rainwater tank, in which system, by means of gutters, rainwater is supplied to the lower rainwater tank until the maximum level of water storage in the lower water tank is reached rainwater, characterized by the fact that by means of a submersible DC pump powered directly from photovoltaic modules, water is pumped from the lower rainwater tank to the upper rainwater tank until the minimum level of water storage in the lower rainwater tank is reached or the maximum storage level is reached water in the upper rainwater tank, and then, through drainage pipes from the upper rainwater tank, water is supplied to the outside of the system until the minimum water storage level in the upper rainwater tank is reached, and p o reaching the minimum level of water storage in the upper rainwater tank by means of a float valve, water from the external water supply network is supplied to the upper rainwater tank.

The aim of the solution is to reduce the consumption of clean tap water for sanitary purposes - flushing toilets or for watering the garden, by using rainwater. The essence of the proposed solution is also the use of solar energy (photovoltaic installation) for the purpose of pumping rainwater from the underground reservoir to the collection points, by collecting it earlier in the upper rainwater reservoir. Current sanitary rainwater systems consume electricity. In the event of a power cut, these systems may not work or allow a single flush. The proposed solution eliminates the problem of the lack of electricity supply. In addition, the autonomous system allows you to water the garden after sunset using rainwater without using electricity.

The essence of the solution is the use of a DC pump produced directly from photovoltaic modules. The advantage of such a pump is the elimination of additional elements used in photovoltaic installations, such as a charge regulator, battery or inverter. By powering the pump directly from the photovoltaic modules, it will be possible to reduce the losses associated with energy conversion by omitting the inverter, which converts direct current into direct current.

Replaceable and reduce the cost, weight and size of the device. A very important aspect in the described solution is the appropriate selection of the components of the photovoltaic installation, both in terms of their current and voltage parameters and the correlation of these parameters with the parameters of the water pump. It is also important to use appropriate float on / off switches and tap water supply, thanks to which, in appropriate conditions, it will be possible to pump water from the lower rainwater tank to the upper rainwater tank using solar energy, ensuring a continuous supply of water to the toilets, even in the absence of water in the lower tank rainwater or lack of energy from the sun and electricity grid. Another important aspect of the solution is the appropriate location of the water supply pipe directly to the toilets so as to reduce contamination that may appear in rainwater.

The subject of the invention in an exemplary embodiment is shown in the drawing which shows a diagram of a rainwater storage and supply system.

The rainwater storage and supply system according to the invention consists of two tanks: a lower rainwater tank 1 and an upper rainwater tank 2. The lower rainwater tank 1 is located below the ground level. The upper rainwater tank 2 is located above the topmost toilet in the building, powered by the system in question. Both tanks are connected with a supply pipe 8. There are no contraindications when choosing the technology of the tanks. In addition, tap water was supplied to the upper rainwater tank 2 by means of a hygienic upper float valve 12. A submersible DC pump 14 was installed in the lower rainwater tank 1, powered directly from photovoltaic modules 7. Direct power supply to the submersible DC pump 14 means that it is connected to 7 photovoltaic modules bypassing the charge regulator, battery and inverter. In the rainy season, water from the roof slopes is led by gutters 17 to the lower rainwater tank 1 and stored in this tank. In this tank, water is stored up to a maximum level 3 of water storage in the lower rainwater tank 1, and if more water accumulates, excess water is overflowed via the water outlet 15 from the lower tank to the rainwater channel / sewerage system. From the lower rainwater tank 1, a submersible DC pump 14 pumps the water to the upper rainwater tank 2 during the sunny period. Water from the lower rainwater tank 1 is pumped to the upper rainwater tank 2 until the water storage level in the lower rainwater tank 1 is reduced to a minimum level 4 of water storage in the lower rainwater tank 1. After reaching the minimum level 4 of water storage in the lower rainwater tank 1, the power supply to the DC submersible pump 14 is disconnected via the lower float switch 5. The submersible DC pump 14 can be turned on again after raising the water storage level in the lower rainwater tank 1. The pumping of water takes place with the participation of a submersible DC pump 14, supplied with a direct current with a different operating voltage range. The submersible DC pump 14 is connected with electric cables 6 directly to suitably selected photovoltaic modules 7 in a direct manner, bypassing the charge regulator, battery and inverter. At a variable voltage range, the submersible DC pump 14 operates with different efficiency depending on the intensity of the solar radiation. The greater the intensity of solar radiation, the more electricity is produced by the photovoltaic modules 7 and the more efficiently the submersible DC pump 14 works. Water will be pumped only during the day at a certain intensity of solar radiation. To the upper rainwater tank 2, water was pumped through the inlet pipe 8 so that the rainwater flows through the filter 16 where the contaminants were partially removed. The upper rainwater tank 2 should be low and have a large bottom surface in order to evenly distribute the weight on the roof of the building. In the upper rainwater tank 2, after reaching the maximum level 9 of water storage, the power supply from the submersible DC pump 14 will be disconnected by means of the upper float switch 10. If the minimum level 11 of water storage in the upper rainwater tank 2 is reached, tap water will be added to the tank by means of a hygienic upper float valve 12. This secures the water supply to the upper rainwater tank 2. The minimum level 11 of water storage in the upper rainwater tank 2 can be achieved in the case of a long-term lack of rainfall and thus no power supply to the lower rainwater tank 1, or on cloudy days. From the upper rainwater tank 2, the water flows by gravity to the toilets via drainage pipes 13.

Claims (2)

The method of autonomous storage and supply of rainwater according to the invention in a system comprising a lower rainwater tank 1 and an upper rainwater tank 2, in which system by means of gutters 17 rainwater is supplied to the lower rainwater tank 1 until the maximum rainwater tank 1 is reached. level 3 of water storage in the lower 1 rainwater tank. In the next step of this method, water is pumped from the lower rainwater tank 1 from the lower rainwater tank 1 by means of a submersible DC pump 14 to the upper rainwater tank 2 until the minimum water storage level 4 in the lower rainwater tank 1 is reached or until the maximum water storage level 9 is reached. in the upper rainwater tank 2, and then by means of drainage pipes 13 from the upper rainwater tank 2, water is supplied to the outside of the system until the minimum water storage level 11 in the upper rainwater tank 2 is reached, and after reaching the minimum storage level 11 water in the upper rainwater tank 2, by means of the upper float valve 12, water from the external water supply network is supplied to the upper rainwater tank 2. The rainwater first supplies the lower rainwater tank 1 until the minimum water storage level is reached. Then, by means of a submersible DC pump 14 powered by energy from photovoltaic modules 7, the water is pumped into the upper rainwater tank 2, from where it flows by gravity to the toilets. Water from the upper rainwater tank 2 is also led outside for watering the garden. The invention saves water while operating a submersible DC pump powered by solar energy. The main advantage of the system is its simplicity of implementation, which translates into low production costs and minimal operating costs. The application of the proposed solution allows to increase the use of energy from renewable energy sources. Collecting rainwater allows water to be delivered to toilets even in the absence of tap water and electricity. The system can supply water autonomously to the toilets. The system and method can be used in housing, municipal and public institutions. List of reference symbols 1. An autonomous rainwater storage and supply system comprising a lower rainwater tank (1) connected by a supply pipe (8) to an upper rainwater tank (2) located above the lower rainwater tank (1), in which system between the lower rainwater tank ( 1) rainwater and the upper rainwater tank (2) is equipped with a filter (16), and the upper water tank (2) is There is a drain pipe (13) for supplying water outside the system, characterized in that a submersible DC pump (14) connected directly to the photovoltaic module (7) is arranged in the lower rainwater tank (1) in the rainwater tank. with the lower float switch (5), while in the upper rainwater tank (2) there is an upper float switch (10) connected with a submersible DC pump (14) and a float valve (12) supplying water from the external water supply network. 1 - lower rainwater tank 2 - upper rainwater tank 3 - the maximum level of water storage in the lower tank 4 - minimum water storage level in the lower tank 5 - lower float switch 6 - electric wires 7 - photovoltaic module 8 - supply tubing 9 - the maximum level of water storage in the upper reservoir 10 - upper float switch 11 - minimum water storage level in the upper tank 12 - upper float valve 13 - drain pipe 14 - submersible DC pump 15 - water outlet from the lower reservoir to the rainwater channel / sewage system 16 - filter 17 - gutters Patent claims The method of autonomous storage and supply of rainwater in a system comprising a lower rainwater tank (1) and an upper rainwater tank (2), in which system, through gutters (17), rainwater is supplied to the lower rainwater tank (1) until the maximum level (3) of water storage in the lower rainwater tank (1) is reached, characterized in that by means of a submersible DC pump (14) supplied directly from photovoltaic modules (7) from the lower rainwater tank (1) it pumps water into the upper rainwater tank (2) until the minimum water storage level (4) in the lower rainwater tank (1) is reached or until the maximum water storage level (9) in the upper rainwater tank (2) is reached, and then With the help of drainage pipes (13) from the upper rainwater tank (2), water is supplied to the outside of the system until the minimum storage level (11) is reached water in the upper rainwater tank (2), and after reaching the minimum level (11) of water storage in the upper rainwater tank (2), a float valve (12) is used to supply the upper rainwater tank (2) with water from the external network using a float valve (12) water supply.