CS272005B1 - Plant for automatic irrigation of plants - Google Patents

Abstract

The solution relates to a device for automatic watering of plants, allowing for the gradual replenishment of water or nutrient solution in the main container (1) for placing plants, which has hollow side walls (2) provided in the lower part with a filling opening (3) and/or a drain opening (4) for draining the liquid into the auxiliary container (5). The upper edge of the drain opening (4) is at the same height as the working level (9) of the liquid in the auxiliary container (5). The top (7b) of the main container (1) may be perforated or may have an inlet opening (7) provided therein, as shown in Fig. 1. The level (9) in the auxiliary container (5) is maintained at a constant height by the fact that, when it drops due to evaporation of the liquid in both the main (1) and the auxiliary container (5), a small amount (bubble) of air penetrates through the discharge opening (4) from the cavity in the side walls (2) of the main container (1) and the corresponding amount of liquid flows out of the main container (1) into the auxiliary container (5), where the original height of the working level (9) of the liquid is thus restored. The invention can be implemented in several other variants, in particular by the main container being divided into its own plant containers (11) with simple side walls (2a) and a reservoir (10) for the liquid.

Description

The invention relates to a device consisting of a set of containers intended for the automatic irrigation of plants.

Growing plants in containers of various types and shapes, in pots, ceramic containers, etc., is of considerable aesthetic and practical importance and therefore regular irrigation of plants is, especially at certain times of each calendar year, when their growers are not present in apartments and other living spaces. , quite difficult. These circumstances often cause the plants to dry out due to the impossibility of watering them in a timely and adequate manner, and on the contrary, the effort to prevent these damages by excessive watering in the supply often leads to rotting of the plants.

These problems are solved by placing pots and other pots in a large flat container with a recess, into which a small amount, usually dropwise, of tap water is fed through a hose, and the excess is drained from this shallow container. However, this solution is relatively complex and not always effective enough, because a failure in the water supply or a clogged drainage leads to unpleasant consequences.

The device according to the invention eliminates these disadvantages by consisting of a main container for placing irrigated plants, the hollow side walls of which are provided at the bottom with a filling opening for pouring water or nutrient solution and a drain opening for draining water into an auxiliary container at a level determining its level. wherein at least one inlet opening is provided in its bottom or this bottom is perforated and of an auxiliary container into which the main container is inserted and which is completely or partially uncovered from above. The bottom of the main container must conform to the shape of the bottom of the auxiliary container to prevent instability of the main container in both the filling and working positions and to allow water or nutrient solution to penetrate from the auxiliary container into the inlet opening at the bottom of the main container.

Exemplary embodiments of the invention are shown in the accompanying drawings, in which Fig. 1 is a section of the main container and the auxiliary container in the working position, Fig. 2 is a section of the main container in the filling position; around the discharge opening in the working position, Fig. 4 is an axonometric view of the main and auxiliary container corresponding to Fig. 1, Fig. 5 is an axonometric view of the grouping of two own containers with a tank for water or nutrient solution, Fig. 6 is a section the main container with an inserted plant container with simple side walls, Fig. 7 is a section of a group of three plant containers with a water tank placed in an auxiliary container, the bottom of which is provided with depressions and grooves, and Fig. Θ is a plan view of the auxiliary container , the bottom of which is provided with depressions and grooves.

The plants, together with the clay or other nutrient, are placed in the main vessel 2, which has hollow side walls 2 and whose bottom 7b is flat at the bottom, or so shaped that the outer (bottom) side of the bottom 7b guarantees the location of the center of gravity of the main vessel 2. its sufficient stability, both in the working and filling position. In the lower part of the side walls 2, a filling opening 2 is provided, which can generally be closed by a plug 3a. for pouring water or nutrient solution, on the one hand a discharge opening 6 for draining water or nutrient solution 2 into the auxiliary vessel 2. inlet opening 2 or this bottom is perforated. A main vessel 2 is inserted into an auxiliary vessel 2, designed to keep the water or nutrient solution in the amount required for the desired degree of irrigation.

In the filling position, the main container 2 facing upwards is filled with water or nutrient solution 2 via the filling opening 2. ^After filling the cavity in the side walls 2 of the main container 2, the filling opening 2 is closed in any suitable manner and opening 2. ^ouzo boil temporarily and finger during its overturning of the filling position into the work especially when the bleed-hole 2 may be also a function of the filling opening 2 · the main container 2 overturning upside up, i.e. back to the working position, this placing into the auxiliary container 2; an appropriate amount of liquid must be poured into it first, as close as possible to the working level 2, ie such that

CS 272 005 B1 the discharge opening 6 has therefore found below this level level 2 · J® the advantageous location of the discharge opening £ so that it is accessible from the side, i.e. for example on the bevelled part of the bottom 7b; this bevel is given by an acute angle θ exceeding 10 degrees.

If water is not poured into the auxiliary vessel 2 beforehand, the supply of water or solution in the main vessel 6 could be reduced by evaporation by the volume required to fill the auxiliary vessel 5 into the working level 2 of the liquid, which is often undesirable. As soon as the main container 6 returns to its working position in the auxiliary container 6, one or more pots or plant containers 11 with simple side walls 2a can be placed in the auxiliary container 2, which are then automatically watered for a longer period up to depletion of water or solution in the main vessel 2 This is carried out in such a way that the water or solution from the auxiliary vessel 2 penetrates the inlet opening 6 into the lower part of the main vessel 2, where it rises into the soil and is sucked by the plant roots; part of the water or solution is evaporated from the liquid level in the auxiliary vessel 2 and from the soil in the main vessel 6. The liquid level 2 in the auxiliary container 2 is kept constant, because when it drops - even very small - a small amount of air penetrates through the discharge opening £ from the cavity in the side walls 2 of the main container 2 and a corresponding amount of water or solution flows out of the main container 2. into the auxiliary vessel £, where the original level is restored to the working level 2 of the liquid. This height can be arbitrarily changed by different placement of the discharge opening £ in the side wall £ of the main container 2 = for drought-loving plants the minimum height is chosen, while for plants requiring more moisture the level can not be regulated to a higher level. If there were more drain holes £ in the main vessel 6, then the level 2 level in the auxiliary vessel 2 would be determined by the position of the drain hole 6 located at the most from the bottom of the main vessel 6.

A similar function as the cavity in the side walls £ of the main container £ is the water or nutrient solution tank 10, which can be placed in the auxiliary container 2 together with the plant containers ££ or pots, the single side walls 2a and the perforated bottom or bottom. , in which the inlet opening 7a is arranged. This container 10 is completely closed except for the filling opening 3c provided with a stopper 3d and provided at its bottom 3e and the discharge opening 6 and provided at the bottom of its side wall 6. The handling of the container 10 is also similar to the handling of the main container 6: it is filled in the upside-down position and is put into operation by inverting from the filling position to the working position.

Fig. 6 shows a part of another embodiment of the device according to the invention, in which a plant container 11 with single side walls 2a and a perforated bottom 7b is inserted into the main vessel 6 instead of directly placing irrigated plants with the respective clay or other nutrient material; with a bottom 7c in which the inlet opening 7a is arranged. This embodiment makes it possible to bring the main container 6 into the filling position without having to empty the soil or remove the plant already planted.

Giant. 7 and 8 show an embodiment which limits the rapid evaporation of water or nutrient solution in the auxiliary vessel 6 by ^{substantially reducing the relatively large area of the liquid level in the working level 2 in the} auxiliary vessel 6 by forming a recess 5a for accommodating the main vessel 6 or reservoir. 10 for water or nutrient solution, a recess 5b for accommodating plant containers ££ and grooves 5c for the flow of water or nutrient solution from the main container £ or from the reservoir 10 to the plant containers £ 1. These depressions and grooves formed in the bottom 6 of the auxiliary vessel 6 make it possible, by the depth of their profile, to maintain the working level 2 of the liquid at the desired level, without having to leave this level 2 over the entire surface of the bottom. The achieved reduction of the evaporating surface of the water or nutrient solution results in the filling of the liquid in the main vessel 6 or in the tank 10 being sufficient for a considerably longer time compared to the previous embodiments.

In addition to the advantages apparent from the above description of the essence of the device according to the invention and its function, it should be pointed out that the solution according to the invention allows the use of any material for main and auxiliary vessels, including a separate water tank only with

CS 272 005 B1 limited to the need to use water and air impermeable materials. This makes it possible to apply to all components of this equipment the most suitable surface treatment, a combination of colors and shapes, as well as a combination of containers in accordance with the requirements of appropriate design modifications. In this way, it is possible to create the most suitable aesthetically and functionally complementary purpose-built unit, which together with cultivated plants or flowers, represents a suitable and visually refreshing residential element.

Claims (5)

OBJECT OF THE INVENTION Device for the automatic irrigation of plants, consisting of a main container for accommodating irrigated plants, with hollow side walls, characterized in that the hollow side walls (2) are in. the lower parts are provided with a filling opening (3) for pouring water or nutrient solution and / or a discharge opening (4) for draining water or nutrient solution into the auxiliary container (5), the upper edge of the discharge opening (4) being at the same height as the working level level (9) of water or nutrient solution in the auxiliary vessel (5), while the bottom (ýb) of the main vessel (1) is provided with an inlet opening (7) or its bottom (7b) is perforated. 2. Device according to claim 1, characterized in that the discharge opening (4) leading from the cavity in the side wall (2) of the main container (1) is arranged on a part at the edge of the bottom (7b) whose surface is deviated from the bottom auxiliary vessels (5) at an acute angle («= <) exceeding 10 degrees. 3. Apparatus according to claims 1 and 2, characterized in that the main container (1) for accommodating irrigated plants is divided into its own containers (11) for plants with simple side walls (?a) and a perforated bottom (7b) or with a bottom (7b). 7c), in which an inlet opening (7a) is provided and on a tank (10) for water or nutrient solution with a filling opening (3c) and / or with a discharge opening (4a) in the bottom wall (3e), both the containers themselves ( 11) for plants, so the tank (10) for water or nutrient solution is inserted into the auxiliary container (5). 4. Apparatus according to claims 1 and 2, characterized in that a plant container (11) with single side walls (2a) and with a perforated bottom (7b) or with a bottom (7c) is inserted into the main container (1), in which the inlet opening (7a) is provided. 5. Device according to items 1 to 4, characterized in that an auxiliary container (5) is in the bottom (5d). depressions (5a, 5b, 5c) are formed for accommodating the main container (1 (or the container (10)) and the plant containers (11), the depressions (5a, 5b) for the main container (1) for the container (10) being formed. and for the plant containers (11) are interconnected by depressions (5c) for the flow of water or nutrient solution.