NL9202271A - Plant watering system. - Google Patents

Description

Plant watering system.

This invention relates to a plant watering system.

It has been found that often a saucer is placed under a flower pot in order to catch the abundant water without spilling. However, since the saucer and the flower pot are closely connected, this will block air transfer and allow a large number of mosquitoes and the like to reproduce. Furthermore, it is unfortunate that many precious plants often die from watering too much or too little.

Therefore, the present invention aims to provide a plant watering system which prevents and remedies the aforementioned drawbacks

Fig. 1 is a perspective view of a preferred embodiment of a plant watering system according to the present invention;

Fig. 2 is a view of the plant watering system in loose parts;

Fig. 3 is a view of the arrangement of the plant watering system; and

Fig. 4 is a perspective view of another preferred embodiment of the present invention;

Fig. 5 is a view of FIG. 4 in loose parts; and

Fig. 6 is a view of the arrangement of the plant watering system of FIG. 4.

With reference to the drawing and in particular to Figs. 1, 2, and 3, the plant watering system according to the present invention mainly comprises a reservoir 1, two hooks 2, a plastic tube 5 and a wick 6.

The reservoir 1 is made entirely of plastic according to the blow molding method and can thus be manufactured in any suitable shape. The outside of the reservoir 1 can be provided with patterns that match and embellish the plant in the pot. At the top of the reservoir 1 there is a filling opening »water with required nutrients can be mixed. At the top of the reservoir 1 there is a cap 12, so that the water cannot evaporate from the reservoir 1, nor can it flow out. An upper and a lower tick mark 14 and 15 are marked on the outside of the reservoir 1 to indicate the highest water level as well as to indicate that water must be added through the fill opening 12. The hooks 2 are firmly attached to the back of the reservoir by locking members 3, which extend through the reservoir 1 for connection to retaining rings 4. It is clear that there are still countless ways to connect the hooks to the reservoir 1, all of which should fall within the spirit of the present invention.

The inside of the reservoir 1 is provided with an opening 13 through which the bottom end of the plastic tube 5 is inserted into the reservoir 1 while the top end is inserted into the potting soil. The wick 5 is pre-arranged in the plastic tube 5.

During use, the reservoir 1 is suspended from the top edge 71 of the pot 7 by means of the hooks 2. Then fill the reservoir 1 up to the top mark 14 and insert the top part of the plastic tube 5 into the ground of the pot, but the lower part of the plastic pipe 5 is located inside the reservoir 1. When the water level drops to the bottom mark 15, it is necessary to add water to the reservoir 1 through the filling opening 11.

The operation of the present invention relies on capillary action which results in water being transferred from the reservoir 1 to the soil in the pot until the moisture equilibrium is reached and the capillary pressure ceases. When the plant absorbs water from the soil, the water in the soil will decrease causing the soil to dry out and consequently water is withdrawn from the reservoir 1 and transferred to the soil in the pot.

The degree to which water is transferred depends on the actual need of the plant in the pot. It can thus be said that the more water the plant needs, the faster the degree of water transfer. As a result, the watering system of the present invention will automatically supply the required amount of water to the plant. In addition, the water can be pre-mixed with nutrients, which promotes the growth of the plant. The material and size of the wick 6 can be selected according to the size of the reservoir and plant type, while the size of the plastic tube 5 must be adapted to the wick 6 to be used. In Figures 4, 5 and 6, a another preferred embodiment of the plant watering system of the present invention is shown. As indicated, the reservoir 1 consists of a bag provided with a zipper 8 instead of the filling opening 11 and the cap 12. The reservoir 1 can be further modified as desired. Determiningly, the present invention uses capillary action to transfer water from a reservoir to the plant in the pot by means of a wick enclosed by a plastic tube so that it is not necessary to water the plant every day . In addition, the degree of water uptake by the plant will change with the capillary pressure of the wick 6 automatically controlling and adjusting the desired amount of water to meet the different requirements of different plants in different living conditions.

Claims (1)

Plant watering system consisting of a reservoir that can be filled with water and which has graduations at the top and bottom to indicate the highest and lowest water level as well as at the top of a water filling opening and a cap that can be screwed onto the opening, so that the water cannot evaporate from or flow out of the reservoir, as well as with an outlet opening and furthermore provided with two hooks which are firmly mounted on the back of the reservoir for hanging the reservoir on a pot and with a plastic tube which with its lower end protruding into the outlet opening of the reservoir and with an upper end in the potting soil and further provided with a wick which is located in the plastic tube, all this in such a way that the plant watering system uses capillary action whereby water is transferred from the reservoir to the plant in a pot through the wick enclosed by the plastic tube through which the desired amount of water is automatically regulated and adjusted in order to meet the different requirements of various plants in different living conditions.