DE4223577A1 - Plant pot with galvanised lining serving as one-volt battery - exploits potential difference between lining and coil or filter of different metal surrounding watered plant - Google Patents

Abstract

The pot is either mfd of galvanised material or coated correspondingly on its inside and has a coil or filter of silvered Cu wire in its centre. When a plant is inserted with potting compost or hydroponic material and watered sufficiently, a voltage of 1.1 V can be measured between an end of the coil and the lining. Alternatively a Cu pot may be used with a galvanised coil or filter. A current of up to 80 mA can be supplied from a 1.5 litre pot 140 mm high with dia increasing from 100 to 155 mm. USE - For supplying current eg to electric clocks, thermometers, table-top fans, ionisers, radios etc or for recharging accumulators.

Description

In a galvanized container (pot) or a container with galvanized Inside is a spiral or a center Silver-plated copper wire strainer. The jar is with potting soil replenished. In the middle of the pot and therefore also in the middle a plant is planted in the spiral or sieve. If you attach a cable to one point of the spiral, you get one has the positive pole at the end, the one at the end of a cable one point of the zinc pot was attached, the negative pole one Voltage source.

A copper vessel can be used instead of a galvanized vessel become (positive pole). In this case, the spiral or the sieve be galvanized (negative pole).

At the cable ends you get a voltage of something over 1 volt. The current intensity depends on the size of the vessel and the composition of the potting soil filled in.

One model was in a small galvanized iron pot (Height: 120 mm, bottom diameter: 100 mm, top diameter: 145 mm) with a volume of 1 liter a spiral made of ver silver copper wire used. The pot was made with normal Potting soil (of the DOM brand) replenished without additional fertilization and planted a plant in the usual way. At norma Watering the pot as is necessary for the growth of the plant is necessary, a voltage of 1.068 V and a current of 20 mA at the end of two cables that are connected to the plant pot in the manner described, detected. The cables were driven by a motor (Faulhaber brand, Type 2230 T 040 S, connection resistance 193 Ohm) connected whose axis is a fan blade (plastic, 4 blades, through knife 75 mm) was attached. One can observe one continuously Broken rapid movement of the fan blade.

The model has been in operation for several weeks without that the movement of the motor has slowed down. The water Feed is only as large as it is for the growth of the plant is required. The development of the plant is undeveloped disturbs. If you let the earth dry out, the engine listens to itself move. When the water is supplied, the engine immediately stops Movement in the usual way at the same speed as before the standstill.  

The model described can therefore not only be used as a decoration, but can also be used as an optical measuring device. When breastfeeding the engine is in need of watering the plant, so that it doesn't suffer any damage.

If you enlarge the plant container (this also enlarges the spiral or the sieve in the middle), the increases Electricity that can be drawn from the vessel considerably. At a Model was made in a galvanized iron pot (height: 140 mm, through knife on the bottom: 100 mm, diameter above: 155 mm) with a Volume of 1.5 liters a maximum current output of 80 mA, at a voltage of 1.1 V determined by a measuring device (with normal potting soil without additional fertilization, EUFLOR brand Planta-Rhodo).

When selecting a suitable motor (motors with ironless Bell anchors deliver fast even with low current Rotational movement) z. B. Maxon, type 2140 935-11, connection resistor 16 ohms, with attached fan blades, you get a continuous A running table fan near which a noticeable Air movement takes place.

By enlarging the plant container or by forming it together a table fan with the for fans usual performance. Can instead of an engine Of course, other electrical devices on the plant pot can be closed like clocks, electric thermometers, ion tight generators, acoustic devices etc. When several are interconnected Plant pots can be operated with a radio. This is also possible with a plant pot if it has a certain one Has size (depending on the performance of the radio). With help A DC converter can remove the voltage from a plant zentopf be increased from 1 V to the desired voltage. Consequently can electrical devices that have a higher voltage than 1 V need to be operated from a plant pot.

If you have a constant flow from the plant container want to maintain, it should be noted that the current draw from the The vessel must be slightly less than the maximum output. This can e.g. B. when operating motors with electricity from a Plant container can be achieved in that the engine has a ge own connection resistance. As described, you get then a continuous movement of the motor.

It is also possible to limit the maximum amount of electricity a plant can supply to use barrel. The electricity consumer must after some time be interrupted or switched off. After a short time the maximum current that the plant container can deliver again to disposal.  

With the current obtained from a plant vessel z. Belly a revolving stage can be operated for decorative purposes or for better exposure of plant pots on this revolving stage be put. The plant pot can also be rotated yourself the. If you attach an electric motor of suitable stability (stable axis and storage) on the plant container so that the axis the motor with a base plate (stand) rotates the plant pot is horizontal around its own axis. Becomes a Potentiometer switched between motor and plant pot, see above the speed of the pot can be regulated.

The stream obtained from a plant pot can also be used for charging used by accumulators. For example, two Plant pots of 1.5 liters capacity, the same Deliver power, connected in series, an NC battery (Mignon) 1.2 V, 600 mA, charge. So that not too much electricity comes out at once is removed from the plant pot, a charging module must be in front of the battery be switched with which the charging current to a certain Strength (here 60 mA) is set. The battery can also from be loaded into a pot when a DC-DC converter ver is applied. Because by increasing the voltage the removable If the current drops, there is an extension of the drawer time. This can be characterized by an enlargement of the plant pot be compared.

If fertilizer is added to the plant container in the amount, such as it is recommended for plants, so the removable increases Current from the plant container. If you increase the fertilizer supply beyond the recommended level increases the removable current continues. If a plant container is not included Soil, but with plant granules or hydroponic substrate filled, you get after adding fertilizers in the em the same current as with potting soil. It only needs to be fertilized as much as for the use of Plant granulate or hydroponic substrate is recommended. Therefore the growth of a plant in plant granules or hydroponic Add fertilizer to the irrigation water the plant container described can also be used with granules or Hydroponic substrate to be filled. With intensive fertilization of the Soil, granules or hydroponic substrates are obtained a "1 volt battery" from the plant container described high amperage, which occurs when the power supply decreases The addition of water or fertilizer is restored can be.

Claims (1)

Plant container made of a galvanized material or with a galvanized inner surface, in the middle of which there is a spiral or a sieve made of silver-plated copper wire.
If the vessel is filled with potting soil or plant granulate or hydroculture substrate and a plant is planted in, then with sufficient watering of the plant, the positive pole is obtained at the end of a cable that has been attached to one point of the spiral or sieve , the negative pole of a voltage source at the end of a cable that was attached to a point on the galvanized vessel.
Instead of a galvanized vessel, a copper vessel can be used (positive pole). In this case the spiral or the sieve must be galvanized (negative pole).
At the cable ends you get a voltage of just over 1 volt. The current intensity depends on the size of the vessel and the composition of the potting soil, the granulate or the hydroponic substrate.