DE102006048402B4 - Pressure controlled irrigation system - Google Patents

Abstract

Irrigation system, characterized by the following components:
at least one storage unit (1) and at least one pressure vessel (3) for the irrigation water;
at least one between the storage unit (1) and the pressure vessel (3) arranged valve (2) for the pressure-dependent flow control of the irrigation water; and
at least one connected to the pressure vessel (3) bottom element (5) for supplying the irrigation water in the indirect and / or immediate vicinity of plant roots (7).

Description

The The invention relates to an irrigation system.

at conventional irrigation systems usually significantly more irrigation water consumed than this to meet the actual needs of the plants would be necessary.

Of the present invention is based on the object, the irrigation system to improve so that the water consumption for the irrigation is reduced, without the irrigation effect too affect.

These Task is inventively characterized solved, that the irrigation system at least one storage unit and at least one pressure vessel for the irrigation water, at least one arranged between the storage unit and the pressure vessel Valve for pressure-dependent Flow control of irrigation water, and at least one connected to the pressure vessel bottom element for feed of irrigation water in the indirect and / or immediate vicinity of plant roots.

Although it is known to reduce the water consumption in a connected to a water pipe irrigation system by the water pressure is adjusted in each case by complex control and regulating devices at an over several height levels extending plant ( EP 0052601B1 ). In comparison, the irrigation system according to the invention is simpler and does not require a water pipe for feeding the system with water.

Thereby, that the irrigation water arranged by means of the between the storage unit and the pressure vessel Valve according to the invention pressure controlled for casting flows through becomes the irrigation water inflow from the pressure vessel on the plants to the actual Need situation coupled, so that the irrigation water is not unnecessarily permanent or constantly flow got to; with the provision of floor elements according to the invention for the supply of the irrigation water into the indirect and / or immediate proximity of plant roots additionally the effect connected that in about only so much irrigation water is fed into the soil, as it is directly from plant roots needed so that a direct evaporation on the soil surface, the may also be slightly further away from the plants, is avoided. This is essentially only the plants indeed used water for irrigation consumed.

on the other hand is for that to take care of that too Plants also be sufficiently supplied with irrigation water. This is characterized according to the invention guaranteed that several ways to Water flow due to the pressure-controlled nature the irrigation system are kept open: it could for example, using the sun's rays a water-driving Power built in the system, and in the absence of the sun's rays the plant root osmotic pressure to suck the water from the irrigation system be used; after all is it still possible, an electronic control of the irrigation water flow in the system provided.

The Invention will be described below with reference to advantageous embodiments with reference to the attached Drawings for example described. Show it:

1 a schematic representation of an irrigation system according to the invention as a sunflower box casting machine with a reservoir, a pressure vessel and a pipe system;

2 a schematic representation of an irrigation system according to the invention as a large system with pump operation;

2a a top view of the irrigation system 2 ;

3 Structure and operation of a preferably provided with a valve blade valve;

4 Structure and operation of a preferably provided with capillaries stone rod and a perforated shank drill bottom element; and

5 a schematic representation of the involvement of a computer control in the irrigation system according to the invention.

In the 1 illustrated irrigation system according to the invention is designed as a sunflower box casting machine. The irrigation water is stored in a reservoir 1 stored. About a valve 2 is a pressure vessel 3 with the reservoir 1 connected, wherein by means of the valve 2 on the one hand a certain amount of gas 10 in the pressure vessel 3 maintained on the other hand, the water flow from the reservoir 1 in the pressure vessel 3 is controlled pressure-dependent. The gas 10 , which is usually normal air, but may also be inert gas, finds access to the pressure vessel 3 preferably by means of a gas valve 20 , About a pipe system 4 in particular consisting of water hoses and / or pipes can, is the pressure vessel 3 with a variety of floor elements 5 connected directly to the ground 6 penetrate and the irrigation water in the indirect and / or immediate vicinity of roots 7 the plants 8th respectively.

Under the effect of the sun's rays 9 become the pressure vessel 3 and the amount of gas contained therein 10 heated. The gas volume 10 expands and pushes the water 11 in the pressure vessel 3 through the pipe system 4 in the soil elements 5 until the turn of the floor elements 5 flowing irrigation water the plant roots 7 and / or reaches the surrounding medium (for example, potting soil).

In the absence of sunbeams 9 suck the plants 8th the irrigation water by the plant root Osmosedrucks from the sunflower box-casting machine itself in their roots 7 , wherein the water flow from the reservoir 1 in the pressure vessel 3 again via the intermediate valve 2 pressure controlled.

The storage unit 1 is preferably at least partially elastic, so that when emptying the pressure vessel 3 the supply water by applying pressure to the storage unit 1 over the valve 2 in the pressure vessel 2 can be transported.

Conveniently, several reservoirs 1 and pressure vessels 3 be provided.

2 shows a trained as a large irrigation plant, which is particularly suitable for the cultivation of crops. Here are storage tanks 1 and pressure vessels 3 expediently formed relatively flat to provide the largest possible irrigation surface. The valve 2 is also between reservoir 1 and pressure vessels 3 arranged.

In addition, there is a separate water supply 12 provided by means of (not shown) pump operation and large amounts of irrigation water in the reservoir 1 can feed. The pumping system can be operated in particular by solar energy and / or electronically controlled.

Of the increased Gießwasserbedarf In crop cultivation can be covered by such large-scale plants. Especially in dry and hot Regions (such as in central Africa) are marked with a clear Water saving effect calculated.

In 3 are the structure and operation of the valve 2 , preferably with a valve blade 22 is provided as a deposit is shown. The valve 2 is circumferentially by a valve stem 21 enclosed while the valve lamella 22 arranged transversely to the flow direction flat and along the circumference thereof by means of a Durchbiegenshaltevorrichtung 23 on the inner surface of the valve stem 21 is attached. The valve lamella 22 is elastically (or formnachgiebig) formed and along the flow direction with a plurality of valve pores 221 provided, which can be preferably formed as a micropores. When overpressure from above, ie when the above pressure outweighs the lower, the valve lamella bends 22 down, causing the valve pores 221 be pulled apart to small water holes, leaving the valve 2 is open and the water can flow through. If the pressure drops, the elastic valve lamella returns 22 gradually back to its original flat shape, so that the water holes gradually narrow, until the release of the overpressure the valve 2 is closed and the water flow is stopped. The valve 2 thus has no mechanical moving parts and is also self-cleaning.

In connection with 1 or 2 becomes clear: when the water in the pressure vessel 2 has expired, causes the valve 2 the water from the reservoir 1 due to a pressure reduction in the pressure vessel 2 to run after them; and then gradually adjusting pressure equalization closes the valve 2 accordingly again. Due to the balancing effects between these processes, the system can work fully automatically.

To prevent algae infestation of the plant, the valve lamella 22 expediently irradiated with a solar powered special lamp, which is also commercially available. In addition, an optical system, which emits harmful wavelengths only for algae, is suitable for use.

In an advantageous embodiment according to the 4 includes the floor element 5 a stone rod provided with capillaries 51 , which is preferably designed as Mikrokapillarsteinstab, and a perforated shank drill 52 , which is the ideal form-fitting recording of Mikrokapillarsteinstabs 51 suitable is. The water hose 4 leads to a Bohrersteinstabklemmring 41 , in addition with locking springs 42 and seals 43 is provided. The microcapillary stone rod 51 settles in the shank drill 52 plug in and can in the locking springs 42 engage. After all components are coupled together and in particular watertight plugged together and the shank drill 52 including contents correctly in the earth rich 6 to the plant root 7 is plugged, the system can then lead the irrigation water into the ground.

The advantage of this embodiment is that the irrigation water flowing through the Kapillarsteinstab 51 flows, now the plant roots 7 and keeps the surrounding medium (such as potting soil) constantly evenly moist. Through this irrigation water also the Wurzelelfäu le can also be avoided as a result of an excess of moisture.

However, in the event that the above-described sun-controlled irrigation principle does not adequately lead to success, or additional influence on the irrigation process are desired, then offers as an alternative or complementary measure, compressed gas in the pressure vessel 3 pulsating and the water required by useful plants electronically controlled by a computer directly to the roots 7 to lead. According to 5 becomes the resistance in the soil 6 by means of extremely long-wave sound waves detected by a speaker 13 , a microphone 14 and a computer 15 are used for measuring purpose. The speaker 13 in the soil 6 sunk, emits an extremely long-wave pulse. This penetrates the soil 6 and hits the ground as well 6 recessed microphone 14 with an impact energy that changes depending on the soil moisture. From the microphone 14 The value of the impact energy to the computer 15 directed. To turn on the irrigation system according to the invention in dry soil, this is from the computer 15 controls by the computer 15 Depending on requirements, compressed gas intervals are occasionally added to the pressure vessel 3 passes. The compressed gas finds access to the pressure vessel 3 over the gas valve 20 , To the speaker 13 and the microphone 14 To better protect, these are preferably waterproof enclosures 16 Mistake.

Alternative to speakers 13 and microphone 14 can the resistance in the soil 6 be measured by means of electrodes, so that when the soil is too dry, the irrigation system according to the invention is turned on.

The Irrigation system according to the invention is not only suitable for large systems for crops, but is also in small format for example flower boxes Balconies usable.

Claims (18)

Irrigation system, characterized by the following components: at least one storage unit ( 1 ) and at least one pressure vessel ( 3 ) for the irrigation water; at least one between the storage unit ( 1 ) and the pressure vessel ( 3 ) arranged valve ( 2 ) for pressure-dependent flow control of irrigation water; and at least one to the pressure vessel ( 3 ) connected floor element ( 5 ) for the supply of irrigation water in the indirect and / or immediate vicinity of plant roots ( 7 ). Irrigation system according to claim 1, characterized in that the pressure vessel ( 3 ) via a pipeline system ( 4 ) with a plurality of floor elements ( 5 ) connected is. Irrigation system according to claim 1 or 2, characterized in that the pressure vessel ( 3 ) a quantity of gas ( 10 ) and a gas valve ( 20 ) having. Irrigation system according to claim 3, characterized in that the action of sun rays ( 9 ) for supplying the in the pressure vessel ( 3 ) ( 11 ) on the plant roots ( 7 ) and / or the surrounding medium. Irrigation system according to one of claims 1 to 4, characterized in that the storage unit ( 1 ) is at least partially elastic. irrigation system according to one of the claims 1 to 5, characterized in that this as a large system trained and suitable for growing crops. Irrigation system according to one of claims 1 to 6, characterized in that a separate water supply ( 12 ) is provided with pump operation, which is done by solar energy and / or electronically controlled. Irrigation system according to one of claims 1 to 7, characterized in that the valve ( 2 ) with a valve blade ( 22 ), which is elastically formed and with a plurality of valve pores ( 221 ) is provided. Irrigation system according to claim 8, characterized in that the overpressure from above the valve ( 2 ) is open. Irrigation system according to claim 8 or 9, characterized in that when the overpressure is released, the valve ( 2 ) closed is. Irrigation system according to one of claims 8 to 10, characterized in that a solar powered special lamp for irradiation of the valve blade ( 22 ) is provided. Irrigation system according to one of claims 8 to 10, characterized in that a harmful only to algae wavelengths radiating optical system for irradiation of the valve blade ( 22 ) is provided. Irrigation system according to one of claims 1 to 12, characterized in that the bottom element ( 5 ) a capillary-provided stone rod ( 51 ) and a perforated shank drill ( 52 ), wherein the shank drill ( 52 ) for receiving the stone rod ( 51 ) is provided. Irrigation system according to one of claims 1 to 13, characterized in that pressurized gas in the pressure vessel ( 3 ) is provided and the water supply is computer controlled. Irrigation system according to claim 14, characterized in that a loudspeaker ( 13 ), a microphone ( 14 ) and a computer ( 15 ) for measuring the resistance in the soil ( 6 ) are provided. Irrigation system according to claim 14 or 15, characterized in that the loudspeaker ( 13 ) for emitting extremely long-wave pulses and the microphone ( 14 ) are suitable for measuring the impact energy of these pulses. Irrigation system according to one of claims 14 to 16, characterized in that the computer ( 15 ) to the line as required metered pressure gas intervals on the pressure vessel ( 3 ) is provided. Irrigation system according to one of claims 1 to 13, characterized in that electrodes for measuring the resistance in the soil ( 6 ) intended.