FR2800996A1 - Metering feed for plant irrigator has head to receive irrigation feed pipe with casing to determine amount of water fed to each plant - Google Patents

Abstract

The metering feed (18-20) for plants has a head which receives the end of the irrigation feed and blocks water supply (21) when the head is full, an intermediate casing to control the amount of water received for feeding each plant and a water diffuser. The amount of water delivered to each plant is controlled by the size of the intermediate casing. An air vent allows free passage of air by prevents loss of water. A filter plug prevents impurities in the water passing out with the air.

Description

The present invention relates to a device for accurately and individually dosing <B> to </ B> each plant the amount of water supplied by distributed irrigation system, automatic or manual.

In the current state of the art, watering dripper systems are based on two main elements: <B> - </ B> - The distribution valve that, plugged into the network of. water distribution, opens and closes, <B> to </ B> pre-programmed hours whether it automatic, or manually. During opening, the water supplies the capillary water diffusion system.

<B> - </ B> The capillary water dispensing system, consisting of an adapter that reduces the pressure <B> to </ B> a value compatible with the distributed elements, and distributed elements that include the pipes, connecting elements, and finally drippers placed at the foot of plants <B> to </ B> water <B>: </ B> crops, decorative plants in pots, etc ... <B> It </ There may be drippers of different rates, which allows the quantity of water to be distributed to each plant: driers <B> > 1 </ B> I / H (liters per hour), 2 I / H, etc ...

This traditional solution of flow rate <B> emitters has four major drawbacks <B> - </ B> The actual flow of the drippers lacks precision, so that the amount of water distributed <B> to < Each plant is very approximate. It has been found that on a set of <B> 10 </ B> 21 / H emitters sold in the same package, and placed under identical distribution conditions, the actual flow rate varied <B> to </ B> nearly uniformly. in a slice of <B> + 52% at - </ b> 14% versus <B> at </ B> the theoretical value, with an average of 2.3VH, and a difference of 76Xo between the most passing dripper (3VH) and the least passing dripper <B> (1.71 / 1-1). </ B>

<B> - </ B> Water is dispensed in real time during the opening phase of the dispensing valve. The flow of water is important, hence possible overflow when it comes to potted plant, and risk of obstruction of small openings (drippers) by impurities, because it is not possible to put buffers filtering without significantly and uncontrollably impacting the flow rate and thus the amount of water dispensed.

<B> - </ B> The ideal dose of water <B> to </ B> receive by each type of plant varies in considerable proportions, much larger than what allows to otter several types of drippers. As a result, and except for installing multiple distribution networks, each with its own valve for independently setting the watering time, it is not possible to fit exactly <B> to </ B> each plant the amount of water dispensed.

<B> - </ B> Finally watering is done on the surface, so it tends to develop superficial roots exposed to the heat of the sun and therefore more fragile.

The device according to the invention makes it possible to remedy <B> to </ B> these disadvantages. <B> It </ B> is described in the figures <B> 1 to 3. It </ B> consists of three elements which may be cylindrical and whose material may be plastic: a Head, a Diffuser, an Intermediate Body. The layout of the internal components <B> to </ B> each of these three elements is given <B> to </ B> as an example and could be different.

The head (figure <B> 1) </ B> consists of an outer body <B> (1) </ B> whose lower part has a thread (2), a water inlet <B > (3) </ B> connected <B> to </ B> a pipe of the capillary water sprinkler system, an air exhaust (4) which can be constituted by a dripper or by any other device capable of passing air and limiting the passage of water, a filter pad <B> (5) </ B> made for example by a plastic foam and protecting the exhaust of air impurities potentially contained in the water of irrigation to avoid obstructions. The place of the water inlet and exhaust air can be on the side or on the top. We can put them side by side on the top of the head so as to limit the visible part of the montage.

<B> - </ B> The Intermediate Body (Figure 2) consists of an outer body <B> (11) </ B> whose upper and lower parts have threads (12) and <B> (13). ) </ B> so that it can be screwed into the threads (2) and <B> (7) </ B> respectively of the lower parts of the Head and Upper Diffuser respectively. This intermediate body, outside the threaded parts, can have any height H and diameter <B> D </ B>. <B> It </ B> can therefore <B> y </ B> have several models of Intermediate body in terms of dimensions, but all can be screwed on the unique model of Head and Diffuser. <B> - </ B> The Diffuser (Figure <B> 3) </ B> consists of an outer body <B> (6) </ B> whose upper part has a thread <B> (7) ) </ B> so that it can be screwed into the threads (2) and <B> (13) </ B> of the lower part of the Head or the Intermediate body, of a sprinkler <B> (8) </ B> consisting for example of a dripper or any other device capable of limiting the passage of water, a filter pad made for example by a plastic foam, a protective filter <B > (10) </ B> consitued for example by fabric and which avoids <B> to </ B> the land in which is seated the diffuser or roots to obstruct the sprinkler.

Figures 4 <B> to 7 </ B> show a simplified drawing of the head (14), the diffuser <B> (15) </ B> and two examples <B> (16) </ B> and <B> (17) </ B> intermediate body, whose lower part could be tapered to reach the width of the diffuser, to facilitate penetration into the earth. Figure <B> 8 </ B> shows three examples <B> (l 8), (19) </ B> and (20) mounting device, connected <B> to </ B> a distribution system capillary water (21) and buried in the soil of a plantation, each of which can be assigned <B> to </ B> particular plant, being installed for example in his flower pot <B>: </ B> the assembly <B> A </ B> is an assembly without intermediate body, intended <B> to </ B> a minimum watering, assembly <B> <B> </ B> is a montage with intermediate body of the same diameter as the head and the diffuser, the assembly <B> C </ B> is an assembly with intermediate body <B> to </ B> large diameter. The quantity of water distributed <B> to </ B> the plant depends on the presence or not of the intermediate body, and its volume if it is present, and can therefore be adapted <B> to </ B> each plant. The assembly <B> </ B> B <B> </ B> also shows a case where the water inlet and the exhaust air are located at the top of the head to limit the visible part of the device .

The operation of the device is as follows: <B> A, <B> B <B> and <B> C </ B> are connected to the same system. capillary distribution of water, for example the same connection pipe downstream of the pressure adapter. When the dispensing valve is open, the three elements fill up, because the air goes out through the exhaust of the head. As soon as the water reaches this exhaust, the flow is almost blocked <B>: it </ B> is limited, if the exhaust <B> d '</ B> of the head and the sprinkler of the diffuser are made with drippers, at the rate provided by two drippers. With more advanced devices this flow could be zero, but it turns out that it is not necessary because the opening time of the dispensing valve, as discussed below, is very short. The <B> (A), </ B> edit that has the smallest volume, the first one full, the <B> </ B> B <B> </ B> edit comes next, then the <B> edit C. At this point the valve can be closed, which causes <B> to </ B> a valve open time of about 40 seconds if the <B> C </ B> element contains one liter <B>: </ B> therefore the opening time is set to the largest assembly capacity. We understand that <B> </ B> the error <B> </ B> due <B> to </ B> broadcast drippers montages <B> A </ B> and <B> </ B> B <B> </ B> once these are full is very limited <B>: </ B> it is about <B> 25 </ B> ml when the biggest assembly of the installation makes a liter, which is negligible <B>: </ B> it is enough to take into account to calibrate the different montages. Once the valve is closed, the water slowly diffuses into the ground <B> at </ B> the base of the assembly and near the deep roots of the plant, this ensures a gentle and regular watering, <B> to < / B> good temperature and, if it is decorative plants in pot, without any overflow.

Compared to traditional systems, we understand the advantages of the invention <B> - </ B> The amount of water distributed no longer depends on the actual flow of drippers, which is not precise, it depends only on the size of the intermediate body.

<B> - </ B> The water distribution is mainly delayed after the closing of the distribution valve. <B> It </ B> is no longer overflow if it is potted plant, or risk of obstruction of small openings (drippers) because they are used at very low flow, hence the possibility of filtering pads.

<B> - </ B> The ideal dose of water <B> to </ B> receive by each type of plant can be precisely defined by the size of the intermediate body.

<B> - </ B> Watering is done in depth and thus allows the development of deep roots, not subject <B> to </ B> the heat of the sun.

<B> It </ B> should be noted that the device described in the exemplary embodiment allows, <B> to </ B> from standard head and diffuser sets, and a collection of intermediate bodies of various sizes, to achieve variable volume dosers by simple assembly by means of threads. <B> It </ B> is understood that in other embodiments, any other means of assembly, such as glue, could to be used, insofar as it allows to associate the three elements (head, diffuser and intermediate body). One can even imagine that, for economic reasons or optimization of manufacture, the separation of the three elements is not physically realized in practice or only partially, and therefore that each assembly consists of a head / body assembly intermediate (optional) / broadcaster physically unique or at least limited in number of distinct parts, and including the functions of the three elements.

Claims (1)

Claims <B> 1 </ B> Dispensing device for watering characterized by the fact that it consists of a standard head and a standard diffuser, and an optional intermediate body of which there may be several models including the volumes are different, these elements can be made for example plastic. Claim 2 Device according to Claim <B> 1 </ B>, characterized in that the head has an outer body <B> (1), </ B> a thread (2) <B> to < / B> the base, a water inlet <B> (3) </ B> that can be connected <B> to </ B> a capillary water distribution system of an automatic or manual watering , an air exhaust (4) easily passing air but blocking or significantly reducing the passage of water, a filter pad <B> (5) </ B> protecting the exhaust of air impurities potentially contained in the water of irrigation to avoid obstructions and made for example with plastic foam Claim <B> 3 </ B> Device according to claim <B> 1 </ B> characterized by the fact that the diff-user has an external body <B> (6), <B> (7) </ B> at the top, a sprinkler <B> (8) < / B> can gently let out water and made for example by a dripper, a filter pad <B> (9) </ B> prot the sprinkler impurities potentially contained in the irrigation water to prevent clogging, a protective filter <B> (10) to </ B> the base made for example with fabric avoiding <B> to </ B> the land in which the <B> the </ B> difluser is squeezed or the roots clog the sprinkler. Claim 4 Device according to Claim <B> 1 </ B> characterized by the fact that <B> the </ B> intermediate body, whose height H and the diameter <B> D, </ B> it is < B> to </ B> say the volume, can vary from one model <B> to </ B> the other, has an outer body <B> (11), </ B> a thread at the top <B> (l </ B> 2), and <B> at </ B> the base (<B> 13). </ B> Claim <B> 5 </ B> Device according to the one of claims <B> 1 to </ B> 4 characterized in that the threads of the head, the diffuser and the intermediate body are made in such a way that the head can be screwed to the top of the diffuser or to the top of the intermediate body , that the intermediate body can be screwed <B> to </ B> at the base of the head and at the top of the diffuser, that the diffuser can be screwed <B> to </ B> the base of the head or the intermediate body . Claim <B> 6 </ B> Device according to claim <B> 5 </ B> characterized by the fact that the threads make it possible to mount various dosing dosing devices, examples of which are shown in the figure <B > 8, </ B> consisting of a standard head at the top, a standard diffuser <B> '</ B> the base, and an optional middle body in the middle whose size allows to define the overall volume of all and therefore the amount of water that will be distributed by assembly. Claim <B> 7 </ B> Device according to claim <B> 6 </ B> characterized in that a mounting consisting of the standard head, the standard diffuser, and possibly an intermediate body is adapted <B > to </ B> the amount of watering required by the plant <B> to </ B> which is intended means of absence or presence, and in the latter case of size, the intermediate body. Claim <B> 8 </ B> Device according to Claim <B> 6 </ B> or <B> 7 </ B> characterized by the fact that the assembly connected by the water supply from the head to the system capillary distribution of water from an automatic or manual distributed irrigation system, and pressed into the soil near the plant <B> to </ B> water in such a way that the part not sunk in the ground can be limited <B> to </ B> the part of the head containing the water inlet and air exhaust as shown in Figure <B> 8 </ B> for three mounting examples, and such watering is done at the deep roots of the plant. Claim <B> 9 </ B> Device according to one of the claims <B> 1 <I> to </ I> 5 </ B> characterized by the fact that the fastening system of the elements can be realized by any other system by threading, for example by glue, insofar as it allows to associate the three elements (head, diffluseur and intermediate body) to achieve dosing dosing sprinkler. Claim <B> 10 </ B> Device according to claim 2 characterized in that the water inlet (3) and the air exhaust (4) of the head can be located at <B> to < / B> side on the top of the head so <B> to </ B> limit the visible part of the assembly, as shown in assembly B of figure <B> 8. </ B> Claim <B > 11 </ B> Device according to one of claims <B> 1 to 5, </ B> characterized in that, for example for economic reasons or manufacturing optimization, the separation of the three elements is not not physically performed in practice or only partially, and therefore each assembly consists of an optional, physically-unique intermediate-head-to-body assembly limited in number of distinct parts and including the functions of the three elements.