ES1322586U - AUTONOMOUS IRRIGATION DEVICE (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

An autonomous irrigation device characterized in that it comprises a volumetric main body (1) of a porous material comprising a hollow through-tube (11); and a plate (2) which is a low container with a perimeter rim (21) located on the upper face of the main body (1) and comprising a cavity (22); and wherein, furthermore, this cavity (22) coincides in position with the tube (11) of the main body (1), and has a larger diameter than the outer diameter of the tube (11) and creates a clearance.

Description

DESCRIPTION

AUTONOMOUS IRRIGATION DEVICE

Object of the invention

The present invention relates to a novel irrigation device that autonomously captures, stores, and releases water, especially rainwater, to the roots of a plant by means of a device made of a porous material, such as natural or baked clay. To this end, the device of the invention comprises a main body or container, which is buried in the ground and comprises a hollow passing tube inside into which the trunk of a plant is inserted; and a plate, which is positioned over the main body and comprises a cavity that forms a gap with the outer wall of the tube of the main body, such that, through this gap, the water collected by the plate flows to the interior of the main body where it is stored and progressively released through its walls into the ground, hydrating the roots of the inserted plant.

The field of application of the invention falls within the sector of manufacturing and marketing of devices for the use of water resources, specifically autonomous irrigation devices.

Background of the invention

Currently, there are numerous irrigation systems or equipment designed to efficiently manage water resources in areas where plantations are located, especially in regions with seasonal rainfall or prolonged periods of drought. This is the case, for example, of sprinkler irrigation and drip irrigation, among others. However, these well-known systems present various drawbacks, including a constant need for water or large amounts of water consumed in a short period of time; dependence on electricity, mechanical pumps, or expensive infrastructure; equipment manufacturing with plastic or metal materials that generate waste and can harm the environment; and/or dependence on external water sources such as wells, rivers, or artificial irrigation systems, which can generate high resource consumption.

Well, all these problems are solved with the autonomous irrigation device of the present invention, since this device is made entirely of a natural material such as clay, which, given its porosity and characteristics, gradually releases the moisture from the liquid contained within, also regulating the temperature of the stored water. Thus, when the device, through its main body, contains water inside, the sweating of the clay causes this main body, which is buried, to supply water to the soil progressively and over time, ensuring continuous and uniform hydration to the roots of the inserted plant, without the need for frequent water refills or constant supervision as with conventional irrigation devices.

Another problem solved by the invention is that it does not require electricity or maintenance for proper operation, as is the case with known devices. The device of the invention operates autonomously, making it an ideal solution for remote areas where access to advanced technology or water resources is limited. Its passive operation reduces workload and promotes more efficient and sustainable water management.

Furthermore, unlike conventional irrigation systems, which are typically made of plastic or metal, the invention, being made entirely of clay, improves the harmonious integration with the ecosystem compared to what is known, and provides a new tool for reforestation and the restoration of degraded soils.

On the other hand, as previously mentioned, many of the currently known irrigation systems depend on external water sources, such as wells, rivers, or artificial irrigation systems, which can generate high resource consumption. However, the autonomous irrigation device of the invention has a structural configuration that takes advantage of local precipitation. Its structure allows it to efficiently capture rainwater through its tray and store it within the clay container, avoiding losses due to runoff and ensuring that the water reaches the plant roots directly. This approach minimizes waste and optimizes the use of available water in the environment.

For all these reasons, these improvements make the irrigation device of the invention an innovative and accessible alternative for all types of land in terms of resource optimization and water conservation. Furthermore, it promotes reforestation and contributes to ecological restoration in areas where water resources are limited, all in a way that is different and improved from what is known to date in this sector. In this regard, the applicant is not aware of a solution that is either similar or as advantageous as the one described and claimed in this specification.

Below is a detailed description of the invention that completes these general ideas introduced at this point.

Description of the invention

The autonomous irrigation device of the present invention comprises a main body which is a volumetric container where water is stored, is buried in the ground, and comprises inside a hollow passing tube where the trunk of a plant is inserted; and a plate, which is a low container with a perimeter rim that is located on the upper face of the main body and that comprises a cavity, which is coincident in position with the tube of the main body and has a clearance with respect to this body, such that the water collected by the plate flows to the interior of the main body through this clearance.

Overall, the device of the invention has the function of collecting water, especially rainwater, from the surface of the tray and storing this water in the volumetric container of the main body located below. As previously mentioned, this is achieved by means of a clearance between the cavity of the tray and the outer face of the main body's through tube, which allows the water contained in the tray to flow by gravity into the interior of the volumetric body.

Another detail of the invention is that the entire device, or at least the main body, is made of a porous material such as natural or baked clay, which has the characteristic of allowing a gradual and gradual release of the water contained within through the capillarity of its walls, also known as the sweating process. This prolonged capillarity also favors the regulation of the temperature of the water stored within, which reduces evaporation of the liquid, thus improving the thermal capacity of the device. Furthermore, in a preferred embodiment, the main body has a water-repellent treatment on its walls that improves the release of water through capillarity.

In this sense, the device is specifically designed to gradually release rainwater into the soil, thereby providing plant roots with the moisture they need for their growth. To achieve this, the main body is buried in the ground up to its upper surface, and the tray is positioned on the outside of the body. Furthermore, the trunk of the plant or tree to be hydrated is inserted through the hollow of the tray and the hollow tube of the main body. That is, the trunk of the plant is positioned through the aforementioned holes, and therefore, the plant's roots are buried beneath the main body. Thus, the release of water stored inside the main body progressively and autonomously hydrates the plant's roots.

This innovative device provides an effective solution to address water scarcity in arid or semi-arid regions, where access to water is limited and the survival of vegetation depends largely on efficient water use. The device of the invention can store rainwater and release it progressively over time, ensuring a constant supply of moisture and preventing rapid evaporation, a common problem in dry climates. All these advantages are a consequence of the porosity and characteristics of the material from which they are made, preferably clay, which through its walls acts as a medium for the constant and gradual release of water through sweating, prevents evaporation of the contained water, and regulates the temperature of the stored water. Another aspect to consider is that the tray acts as a protective barrier for the main body, preventing the entry of dirt and debris into its interior.

Consequently, the structural configuration and material nature of the device of the invention favors reforestation and the restoration of degraded ecosystems; it also promotes more sustainable practices than those known to date in the sector by reducing dependence on artificial irrigation, preserving biodiversity, and combating desertification.

Brief explanation of the figures of the invention

To complete the description being made and in order to help better understand the characteristics of the invention, a set of drawings is attached as an integral part of the same, in which the following has been represented for illustrative and non-limiting purposes:

Figure 1 is a perspective plan of the autonomous irrigation device object of the invention, showing the arrangement of the plate on the main body.

Figure 2 is an elevation plan of the main body of the device of the invention.

Figure 3 is a plan view of the main body of the invention, according to Figure 2.

Figure 4 is an elevational plan of the plate of the device of the invention.

Figure 5 is a plan view of the plate of the invention, according to Figure 4.

Figure 6 is a schematic representation of the device of the invention in an agricultural crop.

Detailed description of an embodiment of the invention

As can be seen in the figures, in a possible embodiment of the invention, the irrigation device of the invention comprises a main body (1) which is a volumetric container where water is stored and which comprises inside a hollow passing tube (11); and a plate (2) which is a low container with a perimeter rim (21) which is located on the upper face of the main body (1) and which comprises a cavity (22) at a central point and, where in addition, this cavity (22) is coincident in position with the tube (11) of the main body (1) and has a larger diameter than the tube (11) which creates a clearance, so that the water collected by the plate (2) flows to the interior of the main body (1).

As shown in the representations, the main body (1) is buried in the ground up to the height of its upper face and the plate (2) is positioned on this main body (1), leaving the aforementioned plate (2) on the outside. Another noticeable detail is that the trunk of the plant (P) is inserted through the cavity (22) of the plate (2) and the hollow tube (11) of the main body (1). Consequently, the roots of the plant (P) are hydrated by the release of water stored inside the main body (1) in a progressive and autonomous way, given by the porosity of the material of this body which is natural or baked clay.

In a possible embodiment, both the main body (1) and the plate (2) are made of clay, such that the characteristics of this material give the main body (1) the quality of gradually releasing the water contained inside it into the soil, providing continuous hydration to the roots of the plants and acting as a temperature regulating barrier. Furthermore, in a preferred embodiment, the main body (1) has a water-repellent treatment that improves the release of water by capillarity.

Another detail of the invention is that the plate (2) acts both as a water-capturing element and as a protective barrier that prevents the entry of dirt and waste, thus keeping the water clean, fresh and ready for distribution.

Finally, it should be noted that, as shown, the structural configuration of the device allows rainwater to be captured and stored within the main body (1), avoiding losses due to runoff, due to the perimeter rim (21) of the plate (2) and the clearance created by the outer face of the tube (11) of the main body (1). Thus, the roots of the plant (P) inserted through the cavity (22) of the plate (2) and the tube (11) of the main body (1) are continuously hydrated by the release of moisture released by the main body (1); also allowing manual water refills on the plate (2) if necessary.

Claims (4)

1. - Autonomous irrigation device characterized in that it comprises a volumetric main body (1) made of a porous material that comprises a hollow passing tube (11) inside; and a plate (2) which is a low container with a perimeter rim (21) that is located on the upper face of the main body (1) and that comprises a cavity (22); and where in addition, this cavity (22) coincides in position with the tube (11) of the main body (1), and has a diameter greater than the outer diameter of the tube (11) and creates a clearance. 2. - Autonomous irrigation device, according to claim 1, characterized in that the porous material of the main body (1) is clay of the type, between natural or baked. 3.- Autonomous irrigation device, according to claim 1, characterized in that the main body (1) has a water-repellent treatment. 4.- Autonomous irrigation device, according to claim 1, characterized in that the material of the plate (2) is clay of the type, between natural or cooked.