CS240583B1 - Hydroponic support rod for plants - Google Patents

Abstract

The hydroponic support rod for plants is designed to replenish the nutrient solution in hydroponic containers and to maintain a constant level in these containers, while simultaneously serving as a support for plants, a nutrient solution reservoir and a watermark. The essence of the hydroponic support rod for plants is that a transparent tube is placed in a stand placed in a hydroponic container, closed at the top with an airtight cap and at the bottom with an open cap. This arrangement allows the solution to gradually overflow from the tube into the container as the level in the container drops.

Description

(54) Hydroponic plant support rod

The hydroponic plant support rod is designed to feed the nutrient solution into hydroponic containers and to maintain a constant level in the containers while serving as a plant support, nutrient container, and watermark.

The essence of the hydroponic plant support rod is that a translucent tube is placed in the stand located in the hydroponic vessel, closed at the top by an airtight closure and at the bottom by an open closure. This arrangement allows the solution from the tube to be gradually poured into the vessel as the level in the vessel drops.

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The subject of the invention is a hydroponic plant support rod. Currently, there are several types of plant support rod designs, different nutrient solution reservoir designs, and different watermark designs. A common feature of most of these hydroponic container elements is that they are designed separately and do not allow a constant level of nutrient solution in the containers. Hydroponic vessel in this case means any vessel intended to grow plants in a nutrient solution.

The essence of the hydroponic plant support rod is that it consists of a stand in which a translucent tube is inserted, provided with an airtight closure at its upper end and an open closure at its lower end. This arrangement allows the hydroponic plant support rod to simultaneously act as a support rod, nutrient buffer, and watermark while maintaining a constant solution level in the vessel.

The main advantage of the hydroponic support rod for plants is its versatile use for a wide variety of uses, for a variety of container shapes without the need for prior treatment. A further advantage is that multiple hydroponic rods for plants can be used in a single vessel, thereby obtaining a greater supply of nutrient solution and thereby allowing for. extend refilling intervals.

1 shows a hydroponic rod for plants placed in a container, FIGS. 2 to 4 show the principle of operation, and FIGS. 5, 6 and 8 show an example of a possible embodiment of the lower end of the tube.

The hydroponic plant support rod consists of a stand 4, an airtight closure 2 and a translucent tube 1 at its lower end terminated by a hollow pin 13 with an opening 15 that is rotatable in the open closure 14.

The rack 4 is provided with an aperture 17 covered by a grid 18. The desired level of nutrient solution in the vessel can be controlled by using spacers 10. The tube is filled with nutrient solution, which is periodically poured into it when the level in the vessel 7 drops.

Normally the tube 1 is closed by an airtight closure 2 and the hole 15 in the pin 13 is rotated relative to the slot 16 in the closure 14 as shown in Fig. 3. . If the level of nutrient solution in the hydroponic vessel reaches higher than the top edge of the aperture 15, for example to level X in Fig. 2, the device is at rest and vacuum above the nutrient solution level in tube 1 and atmospheric pressure above the nutrient solution level in vessel 7 column of nutrient solution in tube. When the level in the vessel 7 drops below the upper edge of the opening 15, for example to the level χ, the ambient air begins to pass through the opening 15 into the tube 1. Bubbles penetrate the level of the solution in the tube where the vacuum is broken. until the level rises above the upper edge of the aperture 15. This procedure is repeated if a nutrient solution is in the tube.

After the nutrient solution in the tube 1 has been exhausted, it needs to be filled with a new one and for this reason the opening 15 must be closed. The closing is done by turning the tube 1. Rotating the tube 1 also rotates the pin 13 in the cap 14 Similarly, the position of the washer 10 where the projection 12 fits into the groove 11 in the washer 10 is fixed.

After closing the opening 15, the airtight closure 2 is removed and the nutrient solution is added to the tube. Then the tube 1 is closed again and turned back to the working position according to FIG. 3.

A float 9 can be moved at the solution level in the tube, which clearly signals the level.

Several design variations of the hydroponic plant support rod can be used. The tube can be split and adjusted with increasing plant height. The rack 4 may be provided with a rib 6 which will not allow the rack to rotate in the container. The stand 4 may be constructed as a permanent part of the container 7.

Claims (2)

Subject Hydroponic plant support rod, characterized in that it comprises a stand (4) in which a translucent tube (11) is inserted, provided with an airtight closure (2) at its upper end and an open closure (14) at its lower end. Hydroponic plant support rod according to claim 1, characterized in that the tube (1) is terminated at its lower end by a hollow pin [13] with an opening (15) onto which the open cap (Ϊ4) is pushed.