DE3211985A1 - Plant container or plant pot - Google Patents

Abstract

The invention relates to a plant container or plant pot (6) which is arranged inside a jardinière (1) or the like whose wall (3) is impermeable to liquid. This plant container (6) is made of an absorbent material, preferably of clay which has been fired at high temperatures, and has great strength and high porosity so that irrigation water which may be treated with soluble fertilisers is absorbed and stored. Absorbent projections, legs (8) or the like are arranged at the bottom (7) of the container (6) so that a storage space for the further storage of irrigation water is formed between container (6) and jardinière (1). The irrigation water is passed from the container (6) to the root system of the plant, which is embedded in standard potting compost, and the supply is continued via the absorbent action of the legs (8). Such a plant container allows long irrigation intervals, and the plants can remain unattended over a long period. <IMAGE>

Description

The invention relates to one arranged within a planter or the like with a liquid-tight wall Container or pot for holding plants.

Water is not only vital for plants, but can also cause them to die if it does is too abundant and pushes the air out of the ground. Is the ventilation of the plant roots through an excess If the moisture is interrupted for a long period of time, the plant concerned takes care of it and dies. It die - which is mostly not known - more plants from too much water than from too little water. On the other hand, it also leads too little moisture over a long period of time to kill the plant. Evenly moist soil is ideal, as it can be found in nature in moderate latitudes, whereby the respective moisture content can be found within certain limits.

zen can fluctuate. When keeping plants in rooms, on the balcony, etc., the difficulty arises, the to ensure the required moisture content in the plant container without it on the one hand to an overhumidification and on the other hand, the potting soil dries out for a longer period of time. These problems arise especially when you are absent for a longer period of time from home, for example on vacation.

There are a whole R _e ihe become known of devices and apparatuses which are intended to bring an automatic watering of plants. However, these devices are not only complex and therefore expensive, but they are also prone to failure, so that their functionality is not always guaranteed. These known devices can be used primarily in so-called hydroponic plants in which the plant roots are not in normal garden or potting soil, but in which a soil-free filler material, for example gravel or clay granulate, is used to hold the roots. The nutrients and active ingredients required for the plant are brought in via a nutrient solution.

However, the hydroponic method cannot be used with all plants. In addition, when transplanting to take special precautions for plants grown in normal soil in hydroponic containers with their clay granulate, In particular, the root ball of the plant to be repotted must no longer contain any soil residues. The hydroponics is so by no means problem-free; it is restricted to certain areas and applications.

The object of the invention is therefore to provide a plant container of the type specified in the preamble of claim 1 to the extent that the root system of the plant

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is evenly supplied with water and the necessary nutrients over a longer period of time and at the same time the necessary ventilation of the roots is ensured. The roots should be embedded in natural earth and not - as with hydroponics - in sterile granules. The roots should be optimally supplied with water will; overwatering should definitely be ruled out. The object of the invention is therefore to provide a To create plant containers or pots in which the necessary The plant is supplied with water and nutrients even when the plant owner is absent due to vacation is. In addition, a problem-free repotting of plants from conventional plant pots should also be possible ' be.

To solve this problem are in the characterizing the invention Part of claim 1 specified design features provided, with still in the further claims for the task solution advantageous and beneficial further training are claimed.

By using a highly absorbent material, such as highly burned Clay, which has a very high porosity, acts as a reservoir made of this material as a water reservoir. Due to the arrangement of feet, projections or the like on the bottom of the container, it sits at a distance from the ground of the planter inside 'this planter, so that a further water reservoir is formed and a watering only in relative large time intervals is required. Due to the large watering intervals that can be achieved with the plant container leave the plant unattended for a long period of time. The water level control is also designed with this one Plant container very simple: once the water reservoir between .plant container and planter is exhausted, begins after the release of the in the porous walls of the

Reservoir stored water, the upper edge of the container increasingly lighten, so that this can be recognized can tell when a water refill is required · With this Container, which, because of the advantageous properties described, is also known as a hydro container or hydro pot so no complicated apparatus and facilities are necessary for the growth of the plants to maintain and check the necessary moisture content of the earth.

The invention will now be explained in more detail using an exemplary embodiment in connection with the single figure of the drawing, further advantages become apparent.

In the figure, 1 denotes a conventional planter, the bottom 2 and the wall 3 of which are designed to be watertight. In the figure, the planter 1 is shown as a rotationally symmetrical structure with the axis of rotation 4, as well as the the schematically shown plant 5 receiving pot or container 6 is rotationally symmetrical. Of course The cachepot 1 and the plant container 6 can also be box-shaped or designed in some other way.

As can be clearly seen from the figure, the plant container 6 is arranged within the planter 1 and consists of a highly porous and at the same time very solid and resistant material. High-fired clay in particular has proven to be suitable for this. Due to the high porosity, the plant container 6 soaks up full of irrigation water to which the nutrient salts and substances necessary for the plant 5 are added in water-soluble form, the water absorption being up to 40 % of the weight of the container 6. At the bottom 7 of the container 6 projections or feet 8 are arranged that the bottom 7 of the B _e hälters 6 in distance from the base 2 of the

Hold planter 1 so that there is room for further water storage is formed. Inside the plant container 6, its walls or its wall 9 slightly opposite the Run perpendicular to the outside, the root system Io of the plant 5 is embedded in the soil in the container 6 and held. The dimensions of the container 6 are such that it can be used in all common planters can. The dimensions are chosen so that between the wall 9 of the container 6 and the wall 3 of the planter 1 a free space 11 remains so that a passage of the air through the porous container 6 for ventilation of the root system Io is ensured · The earth keeps the plant 5 much better. more and safer than, for example, that of hydroponics ago known granules; the problems mentioned at the beginning do not apply. ·

When pouring the irrigation water into the free space between the containers 1 and 6, the container 6 first sucks up to saturation with water. Water is filled in until a water level is reached which is approximately at the level of the inner surface of the bottom 7 of the container 6 and which is indicated in the figure with the reference number 12. At this water level 12 there is no waterlogging within the container 6; Rather, the roots Io receive just as much moisture as is needed for the plant to grow. Over time, the water level will gradually drop. However, since the projections or feet 8 are also made of highly porous material, water is sucked in via the projections 8 from the water reservoir and passed on to the potting soil via the bottom 7 and the wall 9 of the container 6 Only when the water reservoir is exhausted and that too Water that has accumulated in the pores of the container 6 has been passed on to the plant, must. The irrigation water, possibly mixed with fertilizers, must be refilled. The projections or feet 8 are made by the way of the same material as the B _e containers 6, being preferably integrally

are trained with this. A flooding of the roots is not possible, since the wall 9 of the container 6 for a steady Ensures water balance and thus optimally supplies the roots of the plant with water. So that the water is in the right place Amount is filled, is on the outside of the wall 9 of the container 6 at the level of the upper edge of the bottom 7, a marking 13 attached, for example as a circumferential can be designed as a rib-like elevation or as a groove-like depression. In addition, it is also possible to use the correct one Determine the filling level by means of a dipstick or the like.

The dimensions of the container 6 are not only, as already mentioned, matched to the dimensions of the respective planter 1, but about 2% larger than the dimensions of conventional flower pots. This makes repotting the Plants possible as the whole. The root ball, as it is pulled out of a normal flower pot, easily into the Container 6 slips without the roots being destroyed. All of the mother earth is preserved and even the finest Suction roots are not damaged, a danger that exists with conventional systems. The repotting will continue through the obliquely outwardly extending formation of the wall 9 of the container is facilitated.

The container 6 made of high-fired clay with high strength and high porosity is therefore a vascular system with water storage for a long-term supply of the plants. That with fertilizers offset irrigation water and plant growth regulate the flow of nutrients by themselves through the controlled discharge through the container to the plant. But not only the optimal irrigation, but also the good ventilation of the roots through the pores of the container are assured. Finally, the container 6 can also be used as a cultivation pot or container, so that Later repotting of the plant is not necessary.

Claims (3)

Expectations 1. Inside a planter or the like with liquid-tight Wall arranged container or pot for receiving plants, characterized in that the with normal garden or potting soil fillable container (6) made of an absorbent material with high strength and high porosity for storing irrigation water mixed with soluble fertilizers, where am Bottom (7) of the container (6) absorbent projections, spacers, feet (B) or the like to form a storage space are arranged for the further storage of irrigation water between the container (6) and the planter (1). 2 · Container according to claim 1, characterized in that it is made of fired clay or the like with a water absorption up to about 4o% of its own weight. 3. Container according to claim 1 or 2, characterized in that that it is integrally formed with the projections, spacers ^ feet (8) or the like. 4 "Container according to one of claims 1 to 3, characterized in that that its internal dimensions are slightly larger than the internal dimensions of conventional growing containers or planters. 5. Container according to one of claims 1 to 4, characterized in that that the container walls (9) are slightly inclined to the outside in relation to the vertical. 6. Container according to one of Claims 1 to 5, characterized in that that on the outside of the wall (9) at the level of the upper edge of the bottom (7) markings for the water level are arranged.