DE3207992C1 - Use of an irrigation valve device for potted plants - Google Patents

Abstract

The irrigation valve device for potted plants which is described is used to restrict the level of the water in the saucer of the plant pot, which is fed by the valve directly into the saucer. It has an elongate swellable body which controls a valve as a function of its moisture content, is subject to the influence of the water passing through the valve and is retained by a valve body, and, in order to permit the vertically adjustable fixing of one end of the swellable body in the vicinity of the bottom of the saucer, a retaining device.

Description

The invention relates to the use of an irrigation valve device for potted plants, with an elongated swelling body that controls a valve depending on its moisture content, is under the influence of the water that has passed through the valve and from a valve body is held.

A known irrigation valve device of this type is described in DE-OS 27 39 650. This will inserted into the earth by means of an insertion point, so that the swelling body depending on the Insertion depth comes into direct contact with the earth to a greater or lesser extent. The source body is thus the Exposed to soil moisture, so that it shrinks when the soil dries out and the valve opens so that a Irrigation is taking place. The water penetrating into the earth partly reaches the source body, so that it swells and closes the valve. By varying the insertion depth, the extent of the Influencing the irrigation cycle by the atmospheric conditions changed and thus a Irrigation can be achieved that is optimally adapted to the water needs of the plants.

In the event of incorrect adjustment of the known irrigation valve device and extreme sunlight it can happen that the soil in the plant pot dries out to such an extent that the Irrigation valve device supplied water penetrates down, but not in the earth spreads laterally and for this reason the swelling body inserted into the ground initially not achieved. This is due to the fact that very dry earth takes up water only slowly, so that the supplied Water not from the drip point at a certain distance on the irrigation valve device spreads over the soil directly to the source body, but first flows downwards and is in the Dams the saucer of the plant pot. Then it can happen that too much water enters the saucer can reach and exit from the same.

Furthermore, the US-PS 41 21 608 shows an irrigation valve device used in the same way type mentioned at the beginning, whose swelling body stuck in the potting soil the water supply to the plant in Depending on the moisture content of the soil controls. What has been discussed above also applies here Problem.

In another known irrigation valve device according to DE-AS 11 91 163, the swelling body is arranged under the plant pot and is in contact with the potting soil via a suction sponge, which protrudes through the water outlet opening in the bottom of the plant pot into the ground. The one from that Well-controlled water supply takes place on the surface of the earth. Avoids this type of irrigation the possibility of a large amount of water accumulating in the saucer, but it does lead to extremely sluggish regulation and high water saturation of the soil.

Finally, in DE-OS 26 32 540 a non-generic irrigation valve device is described which works without source body. The water supply in the

ίο The plant pot takes place via an electromagnetically controllable Drip valve operated by an electric water switch located in the saucer of the plant pot is controlled. In this way, the water level in the coaster is practically constantly regulated, whereby the potting soil is always kept saturated with water. This is unfavorable for plant growth because the plant suffers from a lack of oxygen.

The invention is based on the object of providing an irrigation valve device of the type mentioned at the beginning Kind of use in such a way that the risk of water escaping from the trivet is excluded and optimal irrigation is guaranteed.

This object is achieved according to the invention in that the irrigation valve device for Limitation of the level of the water fed directly into the coaster through the valve is used in the coaster.

The valve is used to feed water into the saucer of a plant pot and to limit it of the water level in the same. With that, the principle is direct to the water of the earth to supply and to capture the soil moisture directly through the swelling body, abandoned and through the The principle replaces using the suction tension in the earth to suck in water from the saucer and control the water supply to the coaster. In this way it is achieved on the one hand that the water level in the coaster cannot exceed a maximum value, so that there is a risk of leakage water from the coaster can be safely excluded. On the other hand, the irrigation valve device adjust without further ado so that the earth is not always completely saturated with water, which would lead to the fact that the plants suffer from a lack of oxygen, but that the dehydration of the swelling body until the renewed supply of water lasts longer than the absorption of the when the Valve in the saucer accumulated amount of water, so that a suction tension arises in the potting soil, which at

reopening the valve sucks water out of the coaster. Preferably by adjusting of the valve can maintain a suction voltage of up to 2 mWS, which is extremely beneficial for the Oxygen supply affects the earth.

The invention is described below with reference to the description of exemplary embodiments explained in more detail on the drawings. It shows

F i g. 1 is a sectional view of an irrigation valve device used according to the invention;

2 shows a side view of the device according to

F i g. 3 the section IH-III in F i g. 1;

F i g. 4 shows an irrigation system comprising irrigation valve devices for three used according to the invention Potted plants; and

5 shows a diagram of the mode of operation in the Use according to the invention of a watering valve tileinrich device.

You irrigation valve device 1 has a Ventükörper 2, a swelling body 3 and a Squeeze hose 4 holds. The swelling body 3 has the shape of a wooden cylinder or a tube and is attached to the pin-like valve body 2 so that it this encloses with play and its cylindrical outer surface is exposed. It is on a flange 8 of the Valve body 2 supported. At the upper end of the swelling body 3 according to the drawing is a pressure disk 5 placed on the same, which represents a bearing for the squeeze tube 4. This is through a den Valve body 2 passed in the transverse direction penetrating elongated hole 9 and is thus between the Pressure washer 5 and a bushing placed on the valve body 2 above the squeeze tube 4 6. This socket acts as an abutment and can be used with With the aid of a threaded cap screwed onto the upper end of the valve body 2 designed as a threaded end 7 move in the longitudinal direction of the valve body 2 so that the squeeze tube 4 or more is squeezed less severely.

The fig; 1 to 3 also show a holding device in the form of a stand 10, made of spring material such as metal or plastic wire with an overhead clamping eyelet 11 and two cantilevered feet 13 with which the stand stands in the coaster 12. The plant pot 14 stands on the feet 13 and fixes the irrigation valve device. The clamping lug 11 'surrounds the swelling body 3 in a height-adjustable manner, so that the lower edge of the swelling body can be adjusted to a desired distance B from the bottom of the saucer, which is adapted to the size of the plant pot. The distance B determines the amount of water that is dammed up in the saucer and that is still absorbed by the soil of the potted plants by capillary action after the valve has interrupted the water supply. The swelling body 3, which is advantageously made of wood, in particular spruce wood, and whose longitudinal axis is expediently tangential to the annual rings.After each of the irrigation valve devices has been adjusted in the manner described above and the distance B and according to the pot and saucer size has been set, this has the effect If the swelling body dries out under the influence of the ambient air, it shrinks, as a result of which the valve opens and water is fed into the saucer 12. The water level in the coaster rises until it reaches the lower end

to the swelling body reached so that this is again moistened and the squeeze tube by swelling 4, d. H. the valve closes so that the water supply is cut off. The one in the coaster 12 Any water present is soaked up by the earth 15 in the plant pot 14 like a sponge and consumed by the plant, so that the water level releases the lower end of the swelling body 3 again and this begins to dry out. After a while the valve opens again for another one Irrigation cycle. The water consumption is the reason for the water consumption during the drying time of the swelling body Pot plant has a suction pressure of up to 2 mWS within the soil, which is beneficial to the Oxygen supply to the earth and thus to the

Affects plant growth. Since after opening the valve that from the drop end of the squeeze tube escaping water is first absorbed by the earth and then a few millimeters of water in the coaster 12 are dammed up from the earth are then sucked up until they are saturated, the irrigation valve device 1 dispenses the water exactly as the plant has consumed water.

The material for the valve body is suitable

Plastic. Of course, the construction of the valve body can differ from the embodiment described. For example, the swelling body be designed without a central bore, wherein the valve body is designed with ribs that the

runs, it is first watered so that it can hold its ty swelling body from the outside without covering it.

maximum. Length. Then the squeeze tube 4 connected to a water tank and the threaded cap 7 opened or closed so far that just no more water drips from the drop end 4 'of the squeeze tube. This setting is optimal because the facility responds to the least amount of water required.

An example of an irrigation system operating with several of the irrigation valve devices 1 described is shown in FIG. 4 shown. A water vessel 16 is used to irrigate three potted plants 17. The plant pots 14 are each housed in their own saucer 12, each saucer 12 being equipped with one of the described irrigation valve devices 1, in such a way that the plant pot 14 is on the ground of the saucer 12 is placed on the feet 13 of the stand 10 so that the irrigation valve device 1 is securely fixed in such a way that the outer surface of the swelling body 3 is exposed and its lower end is a few millimeters above the bottom of the saucer 12. While the free short drop end 4 'of the squeeze tube 4 points into the interior of the saucer 12, the other end of the squeeze tube 4 leads directly. Any structure that can be arranged between the saucer base and the underside of the plant pot or attached to the saucer edge can serve as a holding device. In particular, it can be a holding strap made of flat material, which is injection-molded onto the lower end of the valve body and bent according to the desired distance B so that it can be fixed between the plant pot and saucer.

The water is fed to the earth through openings in the bottom of the plant pots 14. In general, the distance between the bottom of the plant pot and the saucer is so small that the adhesion of the water is sufficient to bridge this gap and reach the ground. In the case of larger gaps, it is sufficient to put some soil between the bottom of the plant pot and the saucer to establish contact between the water and the soil of the plant pot, or to set the distance B larger than the distance between the base of the saucer and the potting soil.

Irrigation starts when the source body

via the supply hose 18 into the water container 16 65? so far dried using the irrigation valve

(F ig. 4 left) or in a distribution hose 19, which is net that it shortens.

in turn reaches into the water container 16 (Fig. 4 from the diagram of Fig. 5 of the irrigation

to the right). a pot plant with the described irrigation

valve device, the ratio of the amount of water to the irrigation time or the duration of the capillary water absorption can be seen: The irrigation extends here to about 1.5 hours and amounts to 130 cm ^{3 of} water. The slow onset of watering is initially absorbed by the potted plant completely by capillary action. After about 80 minutes, however, the amount of drips per minute is greater than the amount of water that can be absorbed by the potted plant per minute, ie water now begins to accumulate in the saucer. After a further 10 minutes, the water reaches the lower edge of the swelling body, so that it begins to swell and after about a minute the water supply stops. ^{The 30 cm 3 of} water accumulated in the saucer is still sucked up by capillary action after another half an hour.

From the diagram it can be seen that the capillary water uptake of a potted plant takes longer than the watering time is. This means that there is a need to keep an amount of water in the coaster damming up, which is only absorbed by the irrigation valve device after the water has been dispensed will. The amount of water to be dammed is for large

ίο pots larger than for small ones, which is why the irrigation valve device is to be arranged adjustable in height, since with a given saucer diameter the The amount of water to be accumulated can only be regulated with the height of the water in the saucer.

For this purpose 3 sheets of drawings

Claims (1)

Claim: Use of an irrigation valve device for potted plants, with an elongated Swelling body, which controls a valve depending on its moisture content, under the Influence of the water that has passed through the valve is and is supported by a valve body is to limit the level of the water fed directly into the coaster through the valve in the coaster.