FR2952923A1 - Tank filling device for crop protection product sprayer tank filling station, has circulation unit permitting circulation of flow of fluid outside of filling pipe when closed end of pipe is closed - Google Patents

Abstract

The device has a filling pipe (11) provided with an open end (211) and a closed end. The open end of the pipe includes a capturing unit (13) for capturing a jet of fluid. The closed end of the pipe is introduced in a tank, and includes a closing unit for closing the other end. A circulation unit i.e. vent pipe (300), permits circulation of flow of the fluid outside of the pipe when the closed end of the pipe is closed. The pipe has a telescopic part (111) connecting the closed end to a remaining part of the pipe.

Description

The invention belongs to the field of tank filling devices. More particularly, the invention relates to a device that can be used for filling the tank with water from a spray of plant protection products. However, the invention will be used for filling liquids tanks that may contain products subject to comparable regulations. Such a device is used in particular by farmers in spray tank filling stations, for the application of plant protection products on crops. The said phytopharmaceutical products are first placed in the tank in the form of a liquid or powdery concentrate, which tank is then filled with water in order to dilute the said products. In order to preserve the environment, these filling stations must comply with regulatory constraints and in particular: - When filling the sprayer from the drinking water supply network, avoid any point or diffuse contamination of the network by plant protection products, particularly in the event of accidental depression in the supply lines. Having means capable of preventing any contamination of the environment by plant protection products, in particular by overflowing the tank during filling. According to the prior art, the solutions for solving these technical problems consist of:

2 have an intermediate buffer tank, install a volumetric meter or automatic stop meter to accurately program the amount of water used for filling, have in the circuit a check valve or a hydraulic backflow. The buffer tank alone does not solve the technical problems. It must be associated with other means: volumetric and / or non-return valve. Its volume is generally greater than or equal to the volume of the tanks to be filled. It can be installed low position, in this case the filling is carried out by a pump and a non-return valve is interposed between the tank and the tank to be filled to prevent any return of plant protection products in the tank. It can also be installed in a high position and in this case requires the construction of a particular civil engineering work. In both cases a volumeter must be installed between the tank and the tank. The presence of a relatively large buffer volume introduces into the installation a quantity of stagnant water, occupies space and requires expensive constructions. The presence of a check valve or a hydraulic backflow 20 create losses in the circuit and require maintenance or at least a regular check of their operation. The presence of a volumetric meter does not protect against the programming errors of it, errors that may be consecutive to a lack of knowledge of the effective capacity of the tank, or the volume still available in it if the filling is done in several times. Generally, to avoid any degradation or indelicate use, the supply valves and other programming means are placed in a shelter or closed housing, at least a few steps away from the filling area. Consequently, even if the operator closely monitors the filling operation, he must move to maneuver the said means in case of a problem such as an overflow of the tank. Depending on the flow rate, this reaction time may be sufficient to cause a consequent discharge of the mixture containing plant protection products. The invention aims to solve these shortcomings of the prior art by an autonomous device, adaptable to any filling station and ensuring: - the absence of contamination of the water network by the products in the tank, the impossibility discharge of phytopharmaceutical products, by overflow of the tank during filling. To this end, the invention proposes a device adaptable to the hydraulic circuit of a tank filling station comprising: a filling pipe comprising two ends; A second end of said duct adapted to be introduced into a tank and comprising means for closing said end - means capable of causing the flow of the fluid out of the filling duct when the second end is closed

Such a device is very easy to install by a person skilled in the art on an existing filling station. It connects directly to the supply duct which is connected to the fluid network: the jet capture means are placed vertically the existing supply duct is cut to the height of said means so that the jet of fluid exiting said duct enters through the means for capturing the jet in the filling duct, in which the fluid flows by gravity to the second end, thereby filling the tank. It is not necessary to make a complex and sealed connection between the supply duct and the filling duct, the connection tolerates a significant misalignment between the two ducts and even a relative mobility between them. The means capable of causing the flow of fluid out of the filling duct are placed outside the tank, these means may be the same as the jet capture means, when said second end is closed, if the supply in continuous fluid, the feed fluid, which does not contain plant protection products, flows out of the tank. The device does not require any particular calibration and requires almost no maintenance. Thus, when filling the tank, the operator can remain in the immediate vicinity thereof to monitor and directly close the filling end by closing means which can be very fast while being without risk for the existing installation. Such risks are, for example, the generation of overpressures or "water hammer". these can not occur in the open filler duct at both ends. The cutting of the supply duct also prevents any aspiration of the mixture of the vessel by the fluid network even in the event of depression therein. Advantageously, the filling duct comprises a telescopic part connecting the second end to the rest of the duct. It is thus easy to place the second end of said duct at an adequate height in the tank while maintaining at a fixed height the first end of the filling duct and the jet capture means. Thus, it is possible to place the sectioning and the jet capture means to a height such that they can not be degraded by shocks with the machinery operating in the filling area of the tanks. Advantageously, the closure means of the second end are controlled by the level of liquid in the tank to be filled. The operator can adjust the filling level to prevent overflow. The shutter means are triggered when this level is reached, even without strict supervision of the filling operation, even in the event of programming error of the meter. This device also allows the simultaneous filling of several tanks from the same supply duct. The filling duct

6 then comprises a first end comprising the jet capture means and a plurality of conduits and ends intended to be introduced into several tanks. Successive closure of the closure means first modifies the distribution of flow rates between the tanks before operating as described above for the last tank. The closure means of the second end of the filling duct may be of any type known to those skilled in the art, controlled electrically, mechanically or by hydraulic principles, such as by a float. In the latter case it is advantageous that the level of the float is automatically adjusted by the level of the end of the filling duct in the tank. For this purpose the device may comprise means capable of fixing the height of the second end in the tank and a float secured to said second end. In this case, the second end is advantageously closed directly by the float and the position of said end in the tank directly gives the maximum level of liquid therein. The manometric head of fluid applied to the float and tending to push it from the end of the filler pipe, is equal to the difference in fluid height between the first and the second end of the filler pipe. It may be advantageous for the device to comprise additional means making it possible to limit this head height to a lower value, particularly if this difference in height is high. Advantageously, means for limiting the manometric height 7 applying to the float can be combined with the means for adjusting the height of the second end of the device in the tank. The invention also relates to a spray tank filling station equipped with a device according to the invention. Advantageously, this device makes it difficult to use the filling station for washing the tanks, containers or devices located on the filling area, thus avoiding contamination of the environment by the flow of washing water. . There is however the risk of misuse of the device, in particular by an operator who wishes to introduce a plant protection product supplement into the tank during its filling, and who, for this purpose, would pour said product into the collection means. of the jet. To counter this eventuality, it is advantageous for the jet collection means and the sectioning of the supply duct to be placed in a casing. The feeding mode of the filling duct offers the possibility of a relative movement between the latter and the supply duct. This possibility can be advantageously used to achieve articulation between the two ducts without resorting to a rotary joint. The invention will now be more specifically described in the context of preferred embodiments, in no way limiting, represented in FIGS. 1 to 5, in which: FIG. 1 represents a schematic sectional view of an example of

8 embodiment of the device according to the invention FIG. 2 illustrates in detail in perspective and in section an exemplary embodiment of the closure of the second end of the filling duct FIG. 3 is a perspective view of an exemplary embodiment of FIG. FIG. 4 illustrates in perspective an embodiment of a filling station incorporating a filling duct made according to a particular embodiment of the invention. FIG. 5 shows the installation of the filling device in the 10 station of Figure 4. Figures 1 and 3, the device according to the invention is intended to fit on existing filling stations. It connects via appropriate means (100) to the network water pipe (1). It consists of a filling duct (11), receiving at its first end (211) a means 15 for capturing the jet (13), here in the form of a funnel. Between the first end (211) and the second end (12) of the filling duct, the latter may be of any shape, see being constituted by a flexible tube, since the height of the first end (211) is greater than the height of the second end (12) placed in the tank (20), so as to allow the flow of the fluid by gravity in the filling duct (11). Advantageously, this filling duct (11) consists of two parts (110, 111) capable of sliding one into the other. The end (12) of the

9 filling tube is placed in the tank to fill (20). A sectioning (101) with putting the jet at atmospheric pressure is practiced in the circuit. Thus, when the pipe (1) is supplied with water, this water comes out as a jet at the sectioning (101). The jet is recovered by capture means (13), then it enters the filling duct (11), which it leaves through the second end (12) to fill the tank (20). Advantageously, the second end (12) is equipped with a float (30) which is held in place by a cage (120) screwed for example to the end (12) of the filling duct. When the level (210) of liquid in the tank reaches a predetermined height, the float closes the second end (12) of the conduit. The connection of the device according to the invention to the water pipe (1) is configured such that the maximum water level (211) in the whole of the filling pipe (11), including the capture means the jet (13), is located above the water level (210) in the tank, regardless of the tank that can be filled on the filling area, if necessary by installing a bracket (not shown) suitable for raise the height of the supply line (1). This maximum water level (211) is preferably located at a distance d under the sectioning (101) of the supply duct (1). The filling duct (11) and the jet capture means (13) act as a buffer volume without the disadvantages of the prior art, namely that the water does not stagnate, and that it does not not occupy a significant area

10 of the filling area. The flow is effected by gravity in a large diameter tube, the dynamic pressure of the jet at the second end of the filling duct and the rigidity of the sliding part make the device inconvenient for washing the gear, tanks or containers. containers which have contained plant protection products and discourages users of the filling area from using these means for these activities which are particularly polluting for the environment. When the water level in the tank reaches such a height (210) that the float closes the end of the filler tube, the water arriving through the pipe (1) fills the filler pipe (11), then the means capturing the jet (13) and overflowing when the level reaches the maximum level (211). Thus, even in case of omission of cutoff of the water supply after the tank filling volume is reached, it is overflow water and not the mixture contained in the tank. There is therefore no environmental contamination by plant protection products. The float (30) is on the one hand subject to buoyancy thrust of the liquid contained in the tank, thrust which tends to close the orifice of the filler tube (111), and secondly, to the corresponding pressure at the height of the water column (h) in the filling duct. The maximum height of this water column is approximately the difference in height between

11 level of liquid in the tank (210) and the first end (211) of the filling duct. FIG. 2, to prevent the float from being pushed back by this water column when it closes the second end (12), the application surface of the buoyancy thrust (d2) must be proportionally greater than the surface (dl) to which the pressure resulting from the water column applies. For example, if the float is of substantially cylindrical shape of section d2 and length L, that the sealing surface, d1, is subjected to a height, h, of fluid column, the ratio of the sections is given by: dl / d2 = L / h Thus for a length L of 100 mm, and a height h of 2 meters, the diameter of the outlet orifice of the jet at the second end should be about 4.5 times less than that of the float. However, it is advantageous for the sectioning (101) and the means for catching the jet (13) to be placed at a height such that they are not likely to be struck and deteriorated, in particular by machines such as agricultural tractors frequenting the road. filling area. In such a configuration, this condition on the thrust surfaces leads to reducing the opening section d1 of the second end of the filler tube and thus to introducing significant losses in the circuit. To avoid the creation of such losses, the device object of the invention, Figure 2, has means (113,300) to limit the height of water in the filling tube when it is closed.

According to an exemplary embodiment, the end of the filling tube comprises an inner sleeve (113). The annular space between this inner sleeve (113) and the wall of the filler tube (111) is connected to vent tubes (300). When the float closes the end port of the filler tube, the water fills the annular space between the sleeve (113) and the wall of the filler tube and flows through the vent tubes (300), so that the height of the water column applying to the float is limited to the height separating the end port of the filler tube from the vent tubes. Advantageously, these vent tubes (300) are sufficiently robust to be used in order to manipulate the device and in particular to slide the telescopic part (111) of the filling tube. They also make it possible to constitute a stop on the tank (20) and thus to position the height of the end of the filling tube, which fixes the level of filling of the tank.

The skilled person will easily adapt this device to any filling station, thus meeting all regulatory constraints. For this purpose the device can be delivered in kit (10), Figure 3, integrating alone all the functions necessary to meet the regulatory constraints, insofar as this device ensures the absence of risk of aspiration mixture in the water network and avoids the overflow of said mixture out of the tank during filling. The installation of such a kit requires only the presence of a fluid supply outlet at the top, which is a simple sectioning

13 of the supply duct. It connects to the device by an adapter placed in the connector (15) located above the jet capture means (13). If the nature of the supply duct (1) does not allow it to support the weight of the device (10), it can be attached to a bracket by links (16) in the form of chains or cables taking over at the edges of the jet capture means (13). In this case the attachment of the supply conduit in the connector (15) is not necessary and the mounting confers some mobility to the device. Such an installation can be carried out, particularly for an installation at an individual, without particular skills depending on the situation of the original installation. For collective use, the device can be integrated into a complete filling station, FIGS. 4 and 5. Such a station connects to the water network (1) at the bottom (150).

It is fixed to the ground by bolting (52). It extends the supply conduit (1) by a conduit (17) advantageously comprising a valve (60) and a meter (61). The nature of this extension conduit allows it to support the weight of the filling device, even when it is filled with fluid. This second conduit (17) ends with a gooseneck (18) creating the sectioning of the circuit and the jet flows into the capture means (13). This mechanical separation between the feed conduit (17) and the filling device is used to achieve a joint. For this purpose the filling device is movable along an axis (41) with respect to the

14 extension duct (17). Advantageously, to make the installation more compact, this articulation can be fixed directly on said conduit (17). The extension conduit assembly (17), valve (60), flow meter (61) and jet capture means (13) is integrated in a light but strong casing (50) consisting for example of a tube of composite material. This tube comprises openings (42,43) to allow the exit of the filling device and its pivoting around the articulation (41). Access to the control means (60,61) is possible by a door (51) locking. This housing protects the fragile means (60,61), allows the use of the station only by authorized persons and having the trap key (51) and avoids the spill of plant protection products in the jet capture means (13). The housing assembly and filling device can be delivered in kit form requiring no or very little civil engineering and plumbing work for its installation. The above description clearly illustrates that by virtue of its different characteristics and advantages, the present invention achieves the objectives it has set itself: because of the hydraulic discontinuity introduced into the circuit and the distance ) between the sectioning and the maximum level (210) in the filling duct (11) it is impossible to suck the mixture contained in the tank.

There is no stagnation of water or mixing in the filling duct. If the water supply is interrupted and the tank is not full, the water contained in the pipe empties into the tank, making it even more unlikely that it will be aspirated. If the water supply stops while the tank and the filler tube are full, the water will drain through the vent tubes. It is the same if, the tank being full, the water supply continues. In all cases, only water is spilled. The device does not require complex adjustment and can be installed without civil engineering and without any special skill. It takes only a small footprint, it is lightweight and easily transportable or deliverable.

Claims (10)

CLAIMS1- A device adaptable to the hydraulic circuit of a filling station of a tank (20) characterized in that it comprises: - a filling duct (11) having two ends; a first end (211) of said duct comprising means (13) for capturing a fluid jet; - A second end (12) of said conduit adapted to be introduced into a vessel (20) and comprising closing means (30) of said end; means (13, 300, 113) capable of causing the fluid to flow out of the filling duct when the second end (12) is closed. 2- Device according to claim 1 characterized in that the filling duct (11) comprises a telescopic portion (111) connecting the second end (12) to the rest of the duct. 3- Device according to claim 1 characterized in thatque the shutter means (30) of the second end (12) are controlled by the liquid level (210) in the tank to be filled. 4- Device according to claim 1 characterized in that it comprises means (300) adapted to fix the height of the second end in the vessel and a float (30) integral with said second end. 5- Device according to claim 4 characterized in that it comprises means (113,300) adapted to limit the manometric head of fluid in the filling duct (11) when the second end (12) is closed directly by the float (30). ). 6- Device according to claim 5 characterized in that the height of the second end (12) of the filling duct in the tank is given by the means (300) adapted to limit the manometric head of fluid in said duct, which form stop with said tank (20) 7- filling station of spray tank plant protection products characterized in that it comprises a device according to any one of the preceding claims. 8- filling station according to claim 7 characterized in that it comprises a supply duct (17) connected to the fluid network which conduit discharges the fluid in the jet capture means (13) of the filling duct (11). ) by a jet at atmospheric pressure, the outlet section of said jet being located above the end (211) of the filling duct. 9- filling station according to claim 8 characterized in that the filling duct (11) is movable along an axis of rotation (41) relative to the supply duct (17). 10- filling station according to claim 9 characterized in that the means for capturing the jet (13) of the filling duct are placed in a closed casing (50).