Assembly well irrigation system for environmentally friendly water conservation
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[0038]In the first embodiment, the irrigation system is applied to a plurality of planting containers 4, so that the wells 1 are installed in the planting containers 4 respectively. To secure the wells 1, a hook 164 is installed to a side of the connecting element 16 and hanged to the top edge of the planting container 4. To securely fix the well 1 into the planting container 4 and facilitate the installation of the water guiding tube 3, the water guiding tube 3 is passed and installed to the planting container 4, and a fastener 41 is disposed at the bottom of the planting container 4 and provided for fixing the water guiding tube 3 into position. As shown in FIGS. 1 and 2, the fastener 41 and the water guiding tube 3 are latched and fixed with one another.
[0039]The irrigation system further comprises a water level controller 5, and the water level controller 5 has a water inlet valve 51, and the water inlet valve 51 is connected to a water inlet pipe 52, and the water inlet pipe 52 is
Example
[0046]With reference to FIGS. 6 to 8 for the second embodiment of the present invention, the difference between the first and second embodiments resides on that the irrigation system of the second embodiment is installed to a single planting container 4, so that if a user just needs to irrigate a single planting container 4, the user may insert the well 1 into the soil inside the planting container 4 directly through the sealed tip 14, so that the irrigation system of the second embodiment may be applied directly to a single planting container 4 without requiring the removal of the soil of the planting container 4 or requiring the installation of the water level controller 5. When the water supply bottle 2 supplies water, the sealed tip 14 is formed at an end of the well 1, so that the water level rises in the well 1. With the aforementioned method and principle, the water level of the well 1 can be controlled, adjusted and observed for the irrigation of the soil 7. Therefore, the pres
Example
[0047]With reference to FIGS. 9 and 10 for the third embodiment of the present invention, the difference between the first and third embodiments resides on that the irrigation system of the third embodiment is applied in a large-area planted land 8 without requiring the installation of the planting container 4, and a portion of the well 1 and the water level controller 5 are directly and synchronously buried into the soil 7, and the well 1 is installed as described above, and the tip 14 of the well 1 is removed to form a tubular shape. With the aforementioned arrangement, the water level can be controlled, adjusted, and observed, and the soil 7 can be irrigated. Other implementation methods of this embodiment are similar to the first embodiment, and thus will not be repeated.
[0048]Obviously, the present invention may be applied to one or more planting containers 4 as well as a large-area planted land 8, and thus the present invention has a broad scope of applicability.
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