1. Patent Search
  2. Details

Adjustable, controlled rate plant watering device

11570957 · 2023-02-07

    Inventors

    Cpc classification

    International classification

    Abstract

    A device facilitating water or liquid fertilizer distribution to a plant growth medium by wicking from a tube that accepts a separate and removable liquid reservoir. The tube is closed at the bottom and accepts the outlet of the external reservoir. The tube is inserted into the top surface of the plant growth medium so that the wick emerges from the tube above the top of the plant growth medium and contacts it. As liquid is transferred by the wick, the liquid level in the tube drops below the opening of the reservoir outlet, allowing air to enter the reservoir from the bottom and more water to flow from the reservoir into the tube. The characteristics of the wicks can be adjusted by the user to change the water flow rate and water distribution pattern to accommodate the needs of individual plants.

    Claims

    1. A plant watering device to be inserted into the top surface of a plant growth medium comprising: a) a hollow tube being an elongated unit open at its upper end and completely closed below, impervious to aqueous solutions, allowing the open upper end of the hollow tube to receive the discharge of a separate and removable reservoir of liquid having an opening at its lower end and being otherwise hermetic, b) at least one wick or capillary exiting the open upper end of said tube above the top of said plant growth medium and connecting said tube and said plant growth medium to draw said liquid from said reservoir into said plant growth medium, thereby watering a plant.

    2. The device, according to claim 1, where said tube has at least one extension from its lower end into said plant growth medium.

    3. The device, according to claim 1, where said tube has a plate formed near its lower end having a top surface area at least twice the cross sectional area of said tube.

    4. The device, according to claim 1, where the ratio of the depth of the hollow tube to said tube's maximum diameter is greater than three.

    5. The device, according to claim 1, where said tube contains a plurality of said wicks or capillaries.

    6. The device, according to claim 1, where said wicks or capillaries are attached to a retention device or structure inserted within said tube.

    7. The device, according to claim 1, where said tube has at least one notch around its upper end.

    8. The device, according to claim 1, where the body of said tube is approximately cylindrical.

    9. The device, according to claim 1, where the inside diameter of said hollow tube is 10 mm to 30 mm.

    10. The device, according to claim 1, where the depth of the hollow tube is 50 mm to 150 mm.

    11. The device, according to claim 1, where at least one wick or capillary passes through an impervious sleeve after leaving the tube.

    12. The device, according to claim 2, where said extension is tapered.

    13. The device, according to claim 2, where said extension is 40 mm to 150 mm long.

    14. A method for distributing a liquid to a plant, comprising: a) providing a plant disposed in a container of plant growth medium and a separate and removable reservoir of liquid plant nutrient having an opening at its lower end and being otherwise hermetic, b) providing an elongated hollow tube device having an open upper end and being completely closed below and impervious to aqueous solution placed in situ within said container with the open upper end of the tube above said plant growth medium to accept said reservoir and having at least one wick or capillary exiting said tube through the open upper end as a means of passively conveying said liquid to said plant growth medium, and c) inserting the open end of said reservoir into said tube device, providing liquid nourishment to said plant growth medium from said reservoir, whereby said liquid is conveyed to said plant growth medium.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    (1) Figures are attached illustrating the prior art watering globe and the disclosed device in perspective and cross sectional views.

    (2) FIG. 1 shows a prior art watering globe device.

    (3) FIG. 2 shows the device in accordance with the first embodiment.

    (4) FIG. 2a shows the watering device in cross section in accordance with the first embodiment.

    (5) FIG. 3 shows the watering device in accordance with a second embodiment.

    (6) FIG. 4 shows the watering device in accordance with a third embodiment.

    (7) FIG. 5 shows prior art tips that can be attached to a bottle to form a reservoir.

    DRAWINGS—REFERENCE NUMERALS

    (8) 10 body of tube 20 wick retaining notch 30 tube extension 40 wick 50 wick retaining device 70 bottom plate 80 tip 90 securing device

    DETAILED DESCRIPTION—FIGS. 1, 2, 2a, 3 AND 4

    (9) FIG. 1 shows a commercially available prior art watering globe that works well with the disclosed device. Note that it is hermetic (air tight) on top and has a rigid extension with an opening at the bottom.

    (10) FIG. 2 shows the first embodiment of the disclosed device in perspective view. The tube (10) is inserted into the plant growth medium. One end of at least one wick (40) is inserted into the tube. The wick (40) can be routed through optional notches (20) with its other end inserted into the plant growth medium. In use, the tip of a separate, filled, prior art watering globe or other reservoir can be inserted into the tube (10), providing water to the plants, via the wick (40).

    (11) FIG. 2a shows the first embodiment of the disclosed device in cross section view. The tube (10) is inserted into the plant growth medium. One end of at least one wick (40) is inserted into the tube and optionally held in place by a retaining device (50). The wick (40) can be routed through optional notches (20) with its other end inserted into the plant growth medium. In use, the tip of a separate, filled, prior art watering globe or other reservoir can be inserted into the tube, providing water to be conveyed to the plants.

    (12) FIG. 3 shows a second embodiment with the tube (10), optional notches (20), at least one wick (40) and a tube extension (30). In use, a reservoir is inserted into the tube.

    (13) FIG. 4 shows a third embodiment with the tube (10), optional notches (20), at least one wick (40) with a bottom plate (70) substituted for the extension shown in embodiment 2. In use, a reservoir is inserted into the tube.

    (14) FIG. 5 shows types of prior art tips (80) that can be attached to bottle by insertion into the mouth of the bottle, insertion of the bottle's mouth into the tip housing, threading the bottle mouth into the tip or other means (90) in order to convert it into a reservoir for plant nourishment.

    (15) The construction materials and dimensions of the tube (10), extension (30), retaining device (50), wicks(s) (40) and plate (70) can be varied, the requirements being that they be insoluble in the liquids used to nourish the plants and structurally strong enough to support a filled watering globe or other reservoir. The upper, open portion can be manufactured with varying depths or diameters to accommodate watering globes of different dimensions. Typical depths of this portion are 50 mm to 150 mm and diameters are typically 10 mm to 30 mm. The extension (30) that provides stability and support for the watering globe is typically 40 mm to 150 mm long and typically tapered for ease of insertion into the plant medium. The bottom plate is typically 5 mm to 20 mm thick and its area is typically four to ten times the cross sectional area of the tube (10).