This invention helps ensure that all sides of a plant get even and adequate sun exposure to reduce the chance that the plant grows towards one side.
Plants often get uneven sun exposure. For indoor plants, the side that faces the window may get reasonable sunlight; however, the opposite side gets limited sun exposure. The same is true for outdoor plants, where physical structures and trees prevent all sides of the plant from receiving even sunlight. This unbalanced sunlight often causes the plant to grow crooked, usually towards the direction of the side with the most sunlight, rather than straight and upright.
To address this problem, some individuals manually swivel the plant pot. However, this is tedious and difficult to do on a regular basis.
By automatically rotating the plant pot on a regular, pre-set schedule, this invention helps ensure that all sides of the plant get even sunlight over the course of a day or week, without any manual intervention. This helps the plant grow straight up rather than bend to one side.
The present invention comprises a flower pot with a mechanism that allows the pot to automatically rotate based on a preset rotational speed. This allows the plant pot to rotate so that all sides of the plant can get equal exposure to the sun's rays within the course of the day or week.
A motor situated within the base of the structure turns a disc that sits on top of the base structure. The disc contains four grooves. The plant pot sits on top of the disc and can be detached from the base structure. The legs of the plant pot are inserted into the grooves of the disc so that when the disc rotates, the plant pot can securely rotate with the disc.
The present invention comprises a plant pot with a mechanism that allows the pot to automatically rotate based on a preset rotational speed.
The invention will now be described by reference to the Figures.