DE1800013U - DRIVING BOX FOR PLANT SEEDLINGS. - Google Patents

Description

Propulsion box for plant seedlings The invention relates to a propulsion box for plant seedlings.

It is known to collect seeds by periodically wetting them with a nutrient liquid to germinate and grow. The propulsion box according to the invention is intended to do this Facilitate periodic wetting, as the wetting occurs after filling in the nutrient solution all germination containers take place automatically. The drive box is characterized by this from that it consists of a lockable box with at least two on top of each other arranged, removable germination containers and that a line system is arranged, through which a nutrient solution is gradually automatically transferred from one upper container overflows into the lower container, in such a way that the complete The nutrient solution does not continue to flow from one container to the next after it has reached a set height in the upper container.

The accompanying drawing shows two exemplary embodiments of the subject matter of the invention shown, namely Fig. 1 shows a schematic partial view in an open Propulsion box, with one variant on the left and one on the right side of the picture of the line system is shown and FIG. 2 shows a section through a valve.

The drive box 1 is a closed unit and points one above the other arranged germ container 2a, 2b, 2c, each consisting of a tub and inserted removable strainer baskets exist, with two arranged directly on top of each other container 2 are connected by a line 4 provided with valve 3a, 3b, 3c. The containers 2 stand on cross members 5 and can be lifted off. In box 1 is in addition, an air circulation device consisting of a wind tunnel 6 in which a fan 7 and a heater 8 are installed. The heater can with be connected to a thermostat.

The valve 3 of the line system according to the left exemplary embodiment in Fig. 1 and according to Fig. 2 consists of the cylinder housing 9, in which a float 10 is arranged, which can slide up and down on the shaft 11.

At its lower end, the shaft has the locking pin 12 for the drain line 13 and at its upper end two rings 14, between which the snap spring 15 is located.

The drive box works as follows: Into the germination container 2a, 2b, 2c the seeds or seedlings are inserted; then it is in the container 16 is filled with a nutrient salt solution through the supply line 17, or it is added to the container 16 added water and nutrient salt. The nutrient solution does not flow after opening the drawn valve in line 18 in the uppermost container 2a and wets the germ material contained therein. Simultaneously with the filling of the container 2a the increases Liquid level in the associated valve cylinder 9, the one with the lowest point of the container 2a is connected. The valve 3a remains closed until the one that rises Float 10 strikes against the lower ring 14 and this and the shaft 11 and thus also lifts the pin 12. The snap spring 15 snaps into the one indicated by dashed lines Position. The valve is open and the liquid runs out of the container 2a into the container 2b, where the same process is repeated. After passing the The liquid flows out of the box 1 through the last valve 3c.

The supply of water or nutrient solution to the container 16 can be coupled to a float, which is built in such a way that when the Valve in line 18, the outer supply line 17 is closed until the container is completely emptied and the valve in line 18 is closed again.

In the embodiment as shown on the right In Fig. 1, the line system is between two germ containers lying one above the other 2 from a line 4 forming a downwardly open U-shaped bend 19 If the container 2 is filled with nutrient solution, the liquid level also rises in the, the riser of the arch 19 facing the container. At the moment when the liquid has reached height A in container 2, the solution overflows in the U-bend and flows into the lower container. Once the drain has been brought into flow, emptied the whole container 2, since the suction in the line 4 tearing off the Impossible to flow. By adjusting the height A of the line 4, the requested Liquid level in container 2 can be set. The cable diameter may not be too big.

By choosing different lines 4 with different inside diameters the outflow times of the nutrient solution from one container to the next Affect container. The smaller the cable cross-section, the longer it is Drain time. The line can be made of metal or flexible plastic tubing.

The drive box can be provided with lighting that matches the Growth of the plants, especially the formation of chlorophyls, is beneficial. In the individual germination containers can be arranged in a bed made of granular, porous material, which substance gives the germinating seeds and roots support and moisture at the same time saves. The bed can z. B. made of pumice, charcoal, broken bricks, etc. exist.

Instead of the lines described, other line systems can also be used be arranged that only allow the nutrient solution to continue flowing after this has reached a desired height in a germination container.

All containers can be provided with known overflow protection devices be.

Claims (5)

Protection requirements 1.) Forcing box for plant seedling thereby marked that it consists of a lockable box with at least two on top of each other arranged, removable germination containers, and that a line system is arranged, through which a nutrient solution is gradually automatically transferred from one upper container overflows into the lower container, in such a way that the complete The nutrient solution does not continue to flow from one container to the next after it has reached a set height in the upper container. 2.) Propulsion box according to claim 1, characterized in that it has an air circulation device with built-in controllable heating. 3.) propulsion box according to claim 1, characterized in that im Box lighting fixtures are arranged. 4.) propulsion box according to claim 1, characterized in that the Piping system from one container to the lower container from one at the deepest Point of the upper container consists of the beginning line, which its continuation in an upwardly closed U-shaped arch that opens into the lower container opens, has, wherein the apex of the arch is adjustable in height, in such a way, that when filling the upper container, the liquid level in part of the U-shaped arch rises until it reaches the apex of the arch, where the liquid is overflows and through the suction in the line all the liquid from the upper Removes container. 5.) propulsion box according to claim 1, characterized in that the The line system from one container to the lower container consists of one line, which starts at the lowest point of the upper container and has a float valve opens open above the lower container, with the float in the valve at Filling the container with the increase in liquid lifts and upon reaching the desired level Liquid level in the container the valve suddenly opens. 28157