DE2618540A1 - Electronic regulation of irrigation system - using low press. induced in tube for switching supply with timed venting of tube - Google Patents

Abstract

Automatic irrigation of agricultural ground is affected by monitoring the moisture level using a ceramic cell and using the low pressure in a tube to switch a contact. The ceramic cell (3) is located on the end of a long tube (7) coupled to a water container over a valve (5). When the pressure falls, due to the ground drying, a relay (4) is switched to open the valve. any air bubbles in the tube are passed through to the water tank. This process is repeated periodically under the control of a timer.

Description

Title: Electronic control for irrigation

via tensiometer, preferably in horticulture and agriculture.

State of the art: Systems are known as control systems for irrigation, that of the change in electrical conductivity, electrical capacitance and run out of capillary tension.

Criticism of the status With systems based on the electrical conductor Technique: ability of the soil to build up, the disadvantage shows that several times per year the target values have to be readjusted, since the salinity of the soil changed by fertilization or leaching due to rain or irrigation.

The capacitance measurement is subject to strong disruptive factors, so that a precise regulation over longer periods of time is not possible.

(If the sensor is wetted, the actual values change very strongly, although there is no change in the soil.) The capillary tension appears to be the most useful Basis for moisture measurement. So far it has the disadvantage that in the course of the Time small air bubbles form in the measuring system, which influence the measurement and are inaccurate or as not to be maintenance-free, Task: The task of the invention is to To offer a maintenance-free control system to give the plants optimal moisture conditions to accomplish.

Solution Based on the well-known tensiometer, which consists of a Water-filled cell with a ceramic transition layer, became developed a sensor system, which applies the resulting negative pressure to a contact manometer or differential pressure switch can act. via an electronic control one or more sensors queried and controlled for specific, adjustable times used by water valves. The air bubbles that appear are regularly adjustable time intervals by opening a solenoid valve left out of the system, the escaping air space is automatically refilled with water.

Through this system the of the respective plant culture Set the required water exactly.

Achievable Advantages: The advantages achieved with the invention exist in that by optimizing the water consumption considerable water savings can be achieved. Maintenance-free operation means that the maintenance of the System for occasional cleaning.

Description of a on a T-rail 1, which is used as a carrier of the application example: Devices and serving as a ground spike are on mechanical supports 2, the ceramic Cell 3, the pressure switch 4, the vent valve 5 and the water tank 6 installed, The parts 3 to 6 are connected by connecting pipes 7. The ceramic cell 3 is sunk into the ground as far as the root layer of the respective plant culture or plant it requires. Sludging creates intimate contact with the ground manufactured.

When the floor dries, the capillary suction tension occurs, which sucks the water out of cell 3. About the connecting pipe 7 is the Transfer negative pressure and acts on pressure switch 4.

The air bubbles that occur are drawn into the water tank via valve 5 6 left, with water running into the pipe 7.

L e r s e i t e

Claims (1)

Claims. Generic term: £ 0 Electronic control for irrigation via tensiometer, preferably in horticulture and agriculture, identifying part: characterized, that a tensiometer was provided with a solenoid valve and water tank to To be able to exchange air bubbles for flowing water. General term of the 2nd electronic regulation for irrigation subclaim: Via tensiometer according to claim 1, characterizing part characterized in that the exchange of the dependent claim: the air bubbles automatically in any adjustable Time intervals via an electronic control. Generic term of the 3rd electronic regulation for irrigation subclaim: Via tensiometer according to claims 1 and 2, characterizing part characterized in that that irrigation time of the dependent claim: and infiltration time independent of each other are freely adjustable. Generic term of the 4th electronic regulation for irrigation subclaim: Via tensiometer according to claims 1 to 3, characterizing part characterized in that that at the end of the measurement of the dependent claim: area there is a contact that in the event of unintentional dryness (water failure), protect the measuring system from excessive negative pressure protects. Overloading is prevented by opening the vent valve.