ES2790023A1 - Irrigation water volume control device and drip irrigation system with irrigation volume control through it (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Device (1) for controlling the volume of irrigation water, for facilities with at least one conduit (2) with irrigation outlets and emitters (4) integrated in correspondence with an irrigation outlet respectively, which comprises a body (6) whose shape and dimensions allow it to fit into the emitter (4) in a position of blocking the flow of water, where the body (6) is made of material with degradability properties in contact with water, with a degradation period that depends on the material composition. Irrigation system with control of the irrigation volume, by means of control devices (1), comprising at least one conduit (2) with irrigation outlets and integrated emitters (4), where at least one emitter (4) arranged in a zone with absence of roots (3) at the time of planting has a device (1) to control the irrigation volume. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

Irrigation water volume control device and drip irrigation system with irrigation volume control through it

Technical field of the invention

The present invention corresponds to the technical field of irrigation systems that comprise at least one irrigation conduit with a series of irrigation outlets and a series of drip irrigation emitters integrated therein, arranged in correspondence with an irrigation outlet respectively. and, specifically, to a device for controlling the volume of irrigation water in said installation and to a drip irrigation system with volume control using this device.

Background of the Invention

At present, irrigation facilities normally use irrigation emitters or drippers integrated in them.

In crops, especially those of the woody type, the water needs increase as the vegetative development of the tree increases. In the same way, the root system, which at the beginning of the plantation is restricted to areas close to the trunk of the tree, gradually develops to explore areas of the soil of the plot that are increasingly distant from the trunk.

All this implies that an irrigation installation designed to supply the initial needs of the plantation, must be able to increase the volume of water applied to it, as well as the surface wetted by the drippers or otherwise it would be insufficient to said plantation with the development of it.

Nowadays, given that the irrigation systems used usually have drippers already integrated in the conduction, the most economical thing is not to modify the installation of the conduits in which they are installed.

This implies that in the initial practice, drippers are installed in areas where there is no presence of roots, and therefore no water demand, in anticipation that over time they will develop them until reaching these areas. In this way, during the first years of the plantation's life, the irrigation installation is supplying water between consecutive trees in which there are no roots, which generates a considerable loss (up to 62.5% and on average 31.5% ) of water and nutrients supplied.

Likewise, there is another drawback related to this aspect and it is due to the fact that the installation of these drippers that are going to irrigate water in areas that in principle do not require it, entails an overuse of the energy necessary to pump the water, as well as a leaching of nutrients into aquifers. These two major problems are due to the continuous increase in energy costs and the fact that many of the fruit growing areas are in areas already declared vulnerable to nitrate contamination.

In practice, the solution to this problem is usually to plug the drippers in these areas using auxiliary systems that must be installed and uninstalled manually, which prevent the water from leaking in an initial period of time and which are manually removed by the user when it is understood that the plant requires a higher flow. This implies a high cost in labor, so it is not a practice that is carried out normally and even less in the case of localized underground irrigation, as it would be absolutely unfeasible.

Another option, used independently or combined with the previous one, is to increase the number of dripper pipes, arranging them with a uniform separation and a regulation of the volume emitted according to the irrigation time, depending on the pressure-flow of the emitter. This type of driving forces to increase the costs of the installation and the material.

These solutions have several drawbacks, mainly due to the fact that the installation is underused, obtaining a low performance of the drippers or emitters, which increases the possibility of blockages in the system and at the same time generates a high energy and water consumption contributing a greater amount of water than necessary, and ultimately wasting resources.

On the other hand, the plastic caps used are placed and removed manually, with the time and economic cost that this implies.

Finally, another important drawback is that agronomic control of the crop is not allowed.

No drip irrigation system or any device applicable to them has been found in the state of the art, which allows having an efficient system capable of increasing water consumption based on the water demand of the trees in a controlled way and without labor, and that therefore leads to an efficient use of a resource as scarce as water.

Description of the invention

The irrigation water volume control device presented here is aimed at irrigation facilities that comprise at least one pipeline with a series of irrigation outlets and a series of drip irrigation emitters integrated in it and arranged in correspondence with an irrigation outlet respectively. Each irrigation emitter comprises a filtering zone for water inlet, an interior conduction zone for the water flow with pressure regulation means, connected to the filtering zone, and a water outlet zone with an outlet orifice. arranged coinciding with the corresponding irrigation outlet.

This device comprises a body whose shape and dimensions are such that it can be fitted to the emitter in a position of blocking the flow of water. Furthermore, the body of the device is made of a material that exhibits degradability properties in contact with water, where the degradation period of the same depends on the composition of said material.

In this report, a drip irrigation system with control of the irrigation volume is presented, by means of irrigation water volume control devices, as previously defined, which comprises at least one irrigation conduit with a series of outlets. irrigation system and a series of drip irrigation emitters integrated into it and arranged each one in correspondence with an irrigation outlet. In this system, at least one of the irrigation emitters arranged in an area with no roots at the time of planting has a device for controlling the irrigation volume.

With the irrigation water volume control device proposed here, a significant improvement in the state of the art is obtained.

This is so because a control device is achieved that achieves a controlled variation of the volume of irrigation water in the system, depending on the water demand of the plantation crop.

In this way, an increase in the efficiency in the use of water in localized drip irrigation systems for woody or non-seasonal crops is achieved through the development of this device that blocks those emitters in which it is available and in which after a period of time, allows the controlled release of irrigation water.

This is achieved by means of a device that is simple to manufacture and install, which also does not require labor to uninstall it, since contact with water itself generates a degradation of the device over time, which favors its disintegration. in a period of time that depends on the composition and design of the material itself, at which time it allows the irrigation water to flow through the emitter in question and therefore, the increase in the volume of the same offered by the system.

Likewise, the irrigation system proposed here is a localized system that allows temporarily controlling the emission of the flow of the dripper or emitter, with a controlled release of water, thus allowing the reduction of the consumption of water and fertilizers, which consequently contributes to a significant reduction in environmental impact.

On the other hand, the material used for this device, when degrading does not cause an impact on the environment and does not cause clogging problems in the dropper.

It is therefore a device for controlling the volume of irrigation water and an irrigation system by means of the same very effective, practical and simple to use, which increase the efficiency of the irrigation system and reduce at the same time water and energy consumption, by time that reduce the impact on the environment.

Brief description of the drawings

In order to help a better understanding of the characteristics of the invention, according to a preferred example of a practical embodiment thereof, it is provided as part part of said description, a series of drawings where, by way of illustration and not limitation, the following has been represented:

Figure 1.- Shows a perspective view of the irrigation water volume control device, for a first preferred embodiment of the invention.

Figure 2.- Shows a perspective view of an emitter with the irrigation water volume control device, for a first preferred embodiment of the invention.

Figure 3.- Shows a perspective view of the irrigation water volume control device, for a second preferred embodiment of the invention.

Figure 4.- Shows a perspective view of an emitter with the irrigation water volume control device, for a second preferred embodiment of the invention.

Figure 5.- Shows a perspective view of the filtering area of an emitter with the irrigation water volume control device, for a third preferred embodiment of the invention.

Figure 6.- Shows a sectional view of an emitter with the irrigation water volume control device, for a third preferred embodiment of the invention.

Figures 7.1 and 7.2.- Show perspective views of an emitter with the irrigation water volume control device not fitted and fitted respectively, for a fourth preferred embodiment of the invention.

Figure 8.- Shows a schematic view of a section of the plantation with a drip irrigation system with control of the irrigation volume, at the time of installation, for a first preferred embodiment of the invention.

Figure 9.- Shows a schematic view of a section of the plantation of a drip irrigation system with control of the irrigation volume, after a determined period of time, for a first preferred embodiment of the invention.

Detailed description of a preferred embodiment of the invention

In view of the figures provided, it can be seen how in a first preferred embodiment of the invention, the device (1) for controlling the volume of irrigation water that is proposed here is aimed at irrigation installations that comprise at least one irrigation conduction (2) that has a series of irrigation outlets and a series of drip irrigation emitters (4) integrated therein and arranged in correspondence with an irrigation outlet respectively. Each of the irrigation emitters (4) or drippers comprises a filtering zone (8) for water inlet and an interior conduction zone (9) of the water flow with pressure regulating means and connected to the filtering (8) and, a water outlet zone with an outlet hole (5) arranged coincident with the corresponding irrigation outlet.

This device (1) comprises a body (6) whose shape and dimensions are such that it can be fitted into the emitter (4), in a position of blocking the flow of water. On the other hand, the body (6) of the device (1) is made of a material that exhibits degradability properties in contact with water, where the degradation period of the same depends on the composition of said material and its design. In this first embodiment, a minimum degradation period of 1 year and a maximum of 4 years is considered, preferably considering in this case, a degradation period of 3 years.

As shown in Figures 1 and 2, in this first preferred embodiment of the invention, the position of blocking the water flow is located in the water outlet area of the emitter. In this case, in addition, the body of the device (1) comprises a projection (7) that emerges perpendicular to it, the shape and dimensions of which are such that it can be fitted into the outlet orifice (5) of said emitter (4).

Likewise, in this first embodiment, the body (6) of the has a shape suitable to fit inside the emitter (4), around the outlet orifice (5).

In other embodiments, the body (6) can be configured in other ways, such as the case of a second proposed embodiment, which can be seen in Figures 3 and 4, in which said body (6) has a rectangular shape. Furthermore, in this case, this shape is suitable to fit outside the emitter (4), around the outlet orifice (5).

This possibility in some embodiments can be alternative, that is, the shape of the body (6) can be suitable to adapt around the outlet orifice (5), indistinctly inside or outside the emitter (4).

A third preferred embodiment of the invention is proposed in this specification, in which the water flow blocking position is carried out in the water filtering zone (8). As can be seen in Figures 5 and 6, in this third embodiment the filtering zone (8) comprises a filtering area (10) that has at least one water inlet orifice.

In this case, the body (6) comprises a projection (7) that emerges perpendicular to it, where the shape and dimensions of said projection (7) are such as to allow it to fit in said filtering area (10).

A fourth preferred embodiment is also proposed in which the blocking position of the water flow is carried out in a connection zone (12) between the filtering zone (8) and the inner conduction zone (9) of the flow.

As shown in Figures 6.1 and 6.2, in this case the body (6) comprises fitting means around said connection area (12) formed by a series of holes (13) through which the flow of water circulates from the filtering zone (8) to the inner conduction zone (9).

In any of the cases raised, not excluding any other way of blocking the flow of water, regardless of the emitter, whether or not it has a membrane (11) and whatever the number of inlet holes it has, the device (1 ) of control has the necessary shape to achieve this blockage, preventing the exit of water from the emitter (4) during the period of time that elapses before its degradation by contact with water.

In the first preferred embodiment of the invention, the material that makes up the body (6) has degradability properties due to temperature, the degradation period with temperature being less than the degradation period due to contact with water. In this embodiment, degradability is considered with instantaneous temperature with temperatures between 50-60 °, so if it is necessary to accelerate the process, this rise in temperature would cause instant degradation of the device.

In other embodiments, the material that makes up the body (6) of the device can have degradability properties on contact with a solution. Said solution is applied in the conduction network so that it comes into contact with the device and is environmentally sustainable. The period of degradation by contact with said solution is less than the period of degradation by contact with water.

Likewise, in other embodiments it may happen that the material has degradability properties both with temperature and by contact with said solution and if necessary it would be decided whether to apply the solution or both at temperature.

In this way, the emitters (4) that incorporate this device (1) do not allow the passage of water through the irrigation outlet of the conduit (2) at first, but precisely the passage of water through the interior of the conduction (2) and therefore in contact with the emitter (4) and with this device (1), will cause the degradation of the device (1) and finally, after a period of time, it will allow the passage of water through the irrigation outlet, letting the emitter (4) work normally. In the same way, if there is an urgency in increasing the volume of irrigation water in the plantation, in this case it is possible to apply temperature to degrade the device (1) in an accelerated way, since the material of the same in this first mode In realization, it exhibits degradability properties with temperature. In other embodiments, as indicated, it is possible to accelerate the degradation by applying an environmentally sustainable solution against which the device exhibits degradability properties.

There is therefore greater control even if possible, of the moment in which you want to increase the irrigation volume.

Also presented in this report is an irrigation system with control of the irrigation volume, by means of devices (1) for controlling the irrigation water volume as previously defined.

This system comprises at least one irrigation conduit (2) that has a series of irrigation outlets and a series of drip irrigation emitters (4) integrated therein and each arranged in correspondence with an irrigation outlet. Likewise, at least one of the irrigation emitters (4) arranged in an area with the absence of roots (3) at the time of planting has a device (1) for controlling the irrigation volume.

In this irrigation system, which is represented in Figures 8 and 9, there is more than one irrigation pipe (2), although in said Figures only one of them is represented.

On the other hand, as shown in Figure 8, at the time of installation in this system, for a first preferred embodiment of the invention, in each of the pipes (2) all the emitters (4) of the irrigation arranged in an area with no roots (3) at the time of planting, they have a volume control device (1).

Thus, at the time of installation, as can be seen in Figure 8, the system only provides irrigation water in the area with the existence of roots (3), so that the water resources are perfectly used.

On the other hand, after a certain time according to the design and characteristics of the material and that in this embodiment has been considered, a minimum of one year and a maximum of 4, and that in this first preferred embodiment of the invention it is calculated so that is 3 years, the control devices (1) that over time have begun to degrade, are completely degraded and allow the passage of water through the irrigation outlets of the conduit (2) arranged in the areas that were initially absent roots (3), but after these 3 years, they already present their presence, since the crops have grown and expanded.

Thus, as shown in Figure 9, the irrigation surface in the plantation has increased after the degradation of the control devices (1) arranged in the emitters of the areas limited to irrigation initially, so that these emitters (4 ) start to work as designed.

In other embodiments, it may be that at least one irrigation emitter (4) of the at least one pipeline (2) arranged in an area with the presence of roots (3) at the time of planting, also has a device ( 1) volume control. With this, it is possible to control the amount of water that is added to the crop and is practical with crops that require less water in an initial growth period and more water in the past a time. This variation in volume is achieved with the existence of emitters (4) with a device (1) and without a control device (1) in the growing area.

The described embodiments constitute only examples of the present invention, therefore, the specific details, terms and phrases used in the present specification are not to be considered as limiting, but are to be understood only as a basis for the claims and as a representative basis that provides an understandable description as well as sufficient information to the skilled person to apply the present invention.

Claims (1)

1- Device (1) for controlling the volume of irrigation water, for irrigation facilities that comprise at least one conduit (2) that has a series of irrigation outlets and a series of drip irrigation emitters (4) integrated in the same and arranged in correspondence with an irrigation outlet respectively, where each emitter (4) comprises a filtering zone (8) for water entry, an interior conduction zone (9) of the water flow with means for regulating the pressure, connected to the filtering zone (8) and a water outlet zone with an outlet orifice (5) arranged coinciding with the corresponding irrigation outlet, characterized in that it comprises a body (6) whose shape and dimensions are such that allow it to fit into the emitter (4) in a position of blocking the flow of water, where said body (6) of the device is made of a material that exhibits degradability properties in contact with water, being the degradation period of the same as It depends on the composition of said material. 2- Irrigation water volume control device (1), according to claim 1, characterized in that the water flow blocking position is located in the water outlet area of the emitter (4) and the body (6 ) of the device comprises a projection (7) that emerges perpendicular to it, the shape and dimensions of which are such that it can be fitted into the outlet hole (5) of the emitter (4). 3- Device (1) for controlling the volume of irrigation water, according to claim 2, characterized in that the body (6) has a suitable shape to adapt inside the emitter (4), around the outlet hole (5 ). 4- Device (1) for controlling the volume of irrigation water, according to claim 2, characterized in that the body (6) has a shape suitable to adapt to the outside of the emitter (4), around the outlet hole (5 ). 5- Device (1) for controlling the volume of irrigation water, according to claim 1, characterized in that the blocking position of the water flow is carried out in the water filtering zone (8). 6- Device (1) for controlling the volume of irrigation water, according to claim 5, characterized in that the filtering zone (8) comprises a filtering area (10) that It has at least one water inlet hole and the body (6) comprises a projection (7) that emerges perpendicular to it, where the shape and dimensions of said projection (7) are such as to allow it to fit in said filtering area (10). 7- Device (1) for controlling the volume of irrigation water, according to claim 1, characterized in that the blocking position of the water flow is carried out in a connection zone (12) between the filtering zone (8) of the water and the inner flow conduction zone (9), where the body (6) comprises fitting means around said connection zone (12). 8. Device (1) for controlling the volume of irrigation water, according to any of the preceding claims, characterized in that the material that makes up the body (6) of the device has degradability properties due to temperature, the degradation period being with the temperature below the degradation period by contact with water. 9- Device (1) for controlling the volume of irrigation water, according to any of the previous claims, characterized in that the material that makes up the body (6) of the device has degradability properties by contact with a solution, where said solution is environmentally sustainable, the period of degradation by contact with said solution being less than the period of degradation by contact with water. 10- Irrigation system with irrigation volume control, by means of irrigation water volume control devices (1), as defined in any of claims 1 to 9, characterized in that it comprises at least one conduit (2) of irrigation that has a series of irrigation outlets and a series of drip irrigation emitters (4) integrated into it and arranged each in correspondence with an irrigation outlet and, where at least one of the irrigation emitters (4) arranged in an area with absence of roots (3) at the time of planting, it has a device (1) for controlling the irrigation volume. 11- Irrigation system with irrigation volume control, according to claim 10, characterized in that all the irrigation emitters (4) of the at least one conduit (2), arranged in an area with the absence of roots (3) in At the time of planting, they have a volume control device (1). 12- Irrigation system with irrigation volume control, according to any of the preceding claims, characterized in that at least one irrigation emitter (4) of the at least one conduit (2), arranged in an area with the presence of roots ( 3) at the time of planting, it has a volume control device (1).