ITPI20100036A1 - RADIO CONTROLLED IRRIGATION SYSTEM WITH HUMIDITY SENSORS - Google Patents

Description

TITLE

Patent Application for Industrial Invention entitled:

“RADIO-CONTROLLED IRRIGATION SYSTEM WITH HUMIDITY SENSORS”.

DESCRIPTION

Field of the invention

The present invention relates to the sector of irrigation systems. State of the art

There are irrigation systems on the market that manage to dose the amount of water needed for each individual plant; however, these systems do not perform their function correctly, especially when it has to irrigate different types of plants distributed in differently sunny positions.

Another defect of this type of irrigation system is that it is generally controlled by a timer that distributes water at fixed intervals; in these systems the quantity of water distributed is always the same and does not take into account either the ambient temperature or the fact that there may have been or not precipitation. For example, if there has been a particularly hot day, the amount of water may be scarce, while if it has been a rainy day it may even be useless to irrigate, with consequent waste of water. The only way to change the conditions of the system is a manual intervention by the user who must change the parameters set in the system, for example by varying the frequency and / or the quantity of water as the weather conditions change, thus becoming useless. the use of a programmable timer.

There are also systems that have partially obviated this drawback, by inserting a rain sensor in the irrigation system, capable of measuring the amount of rain that has fallen in a predetermined period of time.

However, even this system is not decisive, since it cannot detect the real state of soil moisture, with consequent possible erroneous irrigation of the same.

Furthermore, this system does not take into account, above all, the diversity of plants and the consequent different water needs of the same.

In fact, it is common to find types of plants in gardens that have different water needs. For example, there are plants with a high water requirement (such as gardenia), plants with a medium water requirement (such as geraniums) and plants with low water requirements (such as citrus fruits).

In addition, these systems do not take into account plants that may not be exposed to rain, such as plants placed attics. Brief description of the figures.

Fig. 1 schematically shows the receiver (11) of the irrigation system (10) according to the invention, in which the water inlet union (12), the outlets (13) for the irrigation systems, the control areas (14).

Fig. 2 shows the hygrometer (15) with the rod (16) at the end of which the humidity sensor (17) is mounted.

Fig. 3 shows the system (10) in communication.

Fig. 4a shows the receiver (11) with the built-in timer (18).

Fig. 4b shows the receiver (11) connected to an existing and separate timer (19).

Summary of the invention

The present invention is represented by a system which comprises an electronic receiver (11) connected to three or more humidity detectors (17), positioned at the end of the hygrometers (15) which are suitably inserted in the pots or at the base of the plants to detect the degree of soil moisture.

The data measured by the humidity detector (15) are sent to the receiver (11), which doses the amount of water to be sent to the controlled area.

The humidity detector (15) can have a more or less long rod (16), in order to insert the humidity sensor (17), which is located at the end of the rod (16), in a point of the soil more or less corresponding to the roots of the plant.

An example of a system (10) such as the one described by the present invention can have the humidity detectors (15) powered by two common batteries, by solar panels or by electric cables which allow the operation of an electronic card, which transmits to the receiver (11), signs of low or sufficient soil moisture.

In the same way, the communications between the receiver (11) and the humidity sensors (15) can be obtained through normal electric cables. The receiver (11) can have a switch that can be set on various sensitivity positions, by way of example only: high, medium and low. The humidity sensor (15) can have in the upper part, the visible one, two LED illuminated indicators, which indicate, through different colors (e.g. green or red) their synchronization with respect to the receiver (11) and the level of the batteries.

The central body of the receiver (11), as shown in Figure 1, has an upper inlet (12) to be connected to the tap or to an existing timer (19), one or more outlets (13) for water distribution to one or more irrigation systems.

The outputs (13) can be one or more or three, as in the example shown in the figures: in fact the receiver (11) can be modular so that its body controls the zones (14) of which the user he needs.

The controls and signals relating to the zones (14) are placed on the receiver (11) at the front; each zone (14) has an on-off switch, a low battery signal from the sensor (15) and a synchronization and connection signal to the sensor (15).

The receiver (11) can have a built-in timer (18) or it can be connected to an existing timer (19), separate from it (11).

The operating system is very simple: for example, when a sensor (15) of zone 1 detects low soil humidity, it sends a signal to the receiver (11) which will give consent to the solenoid valve relating to zone 1 to start irrigation, however always controlled by the timer (18) (19). When the humidity sensor (15) detects that the humidity has returned to the correct levels, it will send a signal to the receiver (11) which will close the solenoid valve of the irrigation circuit 1.

Claims (5)

1. Garden irrigation system comprising at least one control receiver divided into one or more zones and one or more hygrometers. 2. Garden irrigation system, according to claim 1 characterized by the fact that the hygrometers detect the real state of soil moisture, through the humidity sensor positioned at the end of the hygrometer rod. 3. Garden irrigation system, according to claims 1 and 2, characterized in that the hygrometers communicate data to the receiver via radio or by means of suitable cables. 4. Garden irrigation system, according to claims 1, 2 and 3 characterized in that the receiver sends water to the nozzles according to the soil moisture. 5. Garden irrigation system, according to claims 1, 2, 3 and 4 characterized in that the receiver can be divided into one or more zones, depending on the amount of water that the plants in the garden need.