BR202019021779Y1 - IMPROVEMENT INTRODUCED IN FLOW METER FOR AGRICULTURAL SPRAY NOZZLES - Google Patents

Abstract

presents a utility model referring to an improvement introduced in a device that is intended to be used in agriculture, more particularly in crops, having the function of measuring the flow of nozzles for spraying agricultural products. wherein, said apparatus comprises a casing (1) from which derives a hose (2) equipped with a nozzle (3) for coupling to the spray nozzle. whereas, inside the casing (1) a flow sensor (f) is mounted, as well as an electronic processing board (p) and data transmission via radio frequency (r)? more particularly bluetooth? through which the device communicates with an application installed on a cell phone device, so that the readings taken are transmitted in real time to the cell phone, where the application displays the information instantly.

Description

field of invention

[001] The present utility model refers to an improvement introduced in a device that is intended to be used in agriculture, more particularly in crops, having the function of measuring the flow of spray nozzles of agricultural products, thus it can be seen its operating conditions, and possible maintenance, adjustment or replacement needs, aiming at its better functioning.

State of the art

[002] It is known that in agricultural activity, one of the most important tasks is the application of agricultural products, which are made available, in their vast majority, in the form of liquid products, which are sprayed by machines on the crop at different stages of its development.

[003] With the improvement of technologies, it came to the development of large machines, capable of covering large areas of farming and, therefore, being able to transport and apply large amounts of pesticides, foliar fertilizers and adjuvants, and this, employing an operator. Initially, these machines are designed to offer maximum yield and use of the sprayed material, ensuring that the same amount of material is sprayed through all the nozzles that are currently in operation, by the equipment, and that there is also constancy in the flow of material sprayed over a period of time, which optimizes the use of this material. However, practice reveals that some conditions interfere with the correct functioning of the spray nozzles, such as wear, manufacturing defects or those caused at the time of assembly, and even variations in the constitution of the sprayed material, which often causes results in the fact that one or more spray nozzles - from the same machine or from several machines - operate irregularly, which can be characterized by the release of a smaller amount of material over an area, or the opposite, which would be an excessive release of material over an area. Both situations are highly undesirable, since a lower release of material results in a deficiency in the intended result, while a higher release of material can have more serious consequences, especially when it comes to toxic products, in addition to that, in these cases , there is a considerable economic loss, which can take large proportions, since these operations cover large areas, and thus, thousands of liters of pesticides are sprayed, so that a small percentage of variation in the amount of sprayed material can represent a large amount of waste at the end of the operation. As well, the excessive application of agricultural products in a certain area can cause environmental damage.

[004] That said, it is important to highlight that, observing these adversities, it was adopted to carry out the measurement of the flow of the spray nozzles, thus ascertaining whether they are operating within a tolerance range. This measurement operation is carried out, in its most basic form, by placing a measuring cup under the spray nozzle - in operation - for a predetermined period of time, and then calculating the liter/minute ratio of material released in that nozzle, thus defining whether the said nozzle is operating normally or if it needs maintenance or replacement with suitable nozzles. In this mode of operation, it is necessary to employ two collaborators: one to handle the measuring cup, and the other to record the data; highlighting the fact that these data still need to be calculated later to determine the flow rate of each nozzle.

[005] In order to make this operation more practical and accurate, some dedicated equipment was developed, one of the known models comprising a measuring cup that is used in conjunction with a cellular telephone device - smartphone - and being that , the measuring cup has a support for the cell phone, whose camera is pointed at the cup; an application reads the measurement on the cup and generates a report; this equipment is impractical and lacking in precision, the cell phone can get wet easily, which can damage it. In addition, for the device to work reliably, the cell phone's camera must be of excellent quality, otherwise the result may not provide the necessary accuracy.

[006] Another solution in this area, comprises a container in which a digital unit is attached, which in turn is equipped with sensors, and the digital unit measures the time it takes for the container to reach its measurement level, displaying the result on a display, which can thus be noted manually. However, this model also has its drawbacks, one of them being the fact that the sensors can be hit by splashes, presenting inaccurate readings; and the data generated is accessed only through the visualization of its display. In addition, two people are also needed to perform the operation, one taking notes and the other measuring with the device.

[007] In turn, the patent document WO2019091715 discloses a METHOD FOR A SPRAYING DEVICE, for which a device is proposed that is equipped - among other characteristics already known in other flow meters - with a flow sensor, and with a computing unit, which is designed to receive and/or emit radio frequency signals, containing the reading information carried out by said sensor. However, the object of the aforementioned document lacks features that make its operation more practical, such as: the aforementioned device does not have the possibility of powering through batteries, which would provide the practicality of portability, or independence of a electrical source installed in a vehicle or agricultural implement that boards it; As well as not offering connectors to plug in external power supplies; At the same time, it does not have buttons on its control panel that enable it to be turned on or off; It does not have lamps or bells to inform and/or alert its operating conditions; Nor does it have specific buttons to start or repeat the readings taken, making its operation less intuitive and less practical.

Invention Objectives

[008] With the aim of solving these inconveniences, the present utility model was developed, which proposes an apparatus, which comprises a casing - designed for ergonomic handling - from which derives a hose fitted with an adapter for coupling to the spray nozzle . A flow sensor is mounted inside the casing, as well as an electronic board for processing and transmitting data via radio frequency - more particularly Bluetooth - through which the device communicates with an application installed on a cell phone device. , so that the readings performed are transmitted in real time to the cell phone, where the application instantly displays information, such as: percentage of error between the nozzles; nozzles with lower flow, nozzles with higher flow; average of readings; graphics for viewing; and also the possibility of exporting the information to communication applications, through which the information can be transmitted to others involved.

Description of drawings

[009] For a better understanding of this Utility Model, a detailed description is made below, referring to the attached drawings, where: FIGURE 1 illustrates the apparatus in perspective; FIGURE 2 illustrates the apparatus in front view; FIGURE 3 illustrates the apparatus schematically, showing in block diagram form its constituent elements.

Detailed description of the invention

[010] According to these illustrations and their details, the present utility model: IMPROVEMENT INTRODUCED IN FLOW METER FOR AGRICULTURAL SPRAYING NOZZLES initially comprises a casing (1) with thin and rigid walls; of dimensions and format suitable for ergonomic handling. Since, at its upper end, said casing (1) comprises, inside, a flow sensor device (F), from which derives a flexible hose (2), connected at its inlet - the sensor (F) - the which faces towards the rear of the casing (1), and therefore, said hose (2) passes through an opening in the rear wall of the casing (1). At the opposite end of said hose (2) a cylindrical nozzle (3) is mounted, inside which is mounted a pad (4) of flexible material - resin - which is provided with a central through hole (5), allowing passage flow from the hose (2).

[011] In turn, on the front wall of the casing (1) passes - through an opening - a second flexible hose (6), which derives from the output of the flow sensor (F). Inside the housing (1) is also mounted a micro-processed electronic board (P), which comprises means for reading the flow sensor (F), and also comprises a radio frequency transmitter (R). Inside the casing (1), batteries for power supply (B) are also mounted. On the outer side of the housing (1) are arranged an on/off key (L) and a connector (C) for an electricity charger plug. In turn, on its front panel, the casing (1) presents a first LED indicating the on condition (7); also a second LED indicating connection (8) - wireless - with a cell phone (with the related application); and a third Reading in Progress LED (9). On its front panel, the present casing (1) still has a first command button for "New Reading" (10); a second button for “Repeat Reading” (11) and a buzzer (12).

[012] The use of this IMPROVEMENT INTRODUCED IN FLOW METER FOR AGRICULTURAL SPRAY NOZZLES is simple and practical, and after turning it on, digital synchronization must be performed with the cell phone device, which must be close and with the app enabled. In the next step, the nozzle (3) must be positioned under the spray nozzle, pressing manually against the cushion (4), thus avoiding leaks. In this condition, the "new reading" button (10) must be pressed, so that, with the flow of material coming from the spray nozzle passing through the flow sensor (F), the micro-processed plate (P) performs the reading for a period of time - preferably five seconds - This reading is transmitted in real time to the cell phone - via bluetooth - where data is received and processed, generating various reports, which can be transmitted remotely, via communication applications of common use. The material that is captured by the nozzle (3) and conducted through the posterior hose (2) to the flow sensor (F), is eliminated through the anterior hose (6) and can be collected in a reservoir for later reuse.

[013] Logically, this IMPROVEMENT INTRODUCED IN FLOW METER FOR AGRICULTURAL SPRAY NOZZLES may vary in its dimensions, proportions and also in the material with which it is manufactured, provided that its particular characteristics are maintained, and that are essential to its realization .

Claims (1)

1) IMPROVEMENT INTRODUCED IN FLOW METER FOR AGRICULTURAL SPRAY NOZZLES, comprises a casing (1) with thin and rigid walls, and at its upper end, said casing (1) comprises, in its interior, a flow sensor device (F ), from which a flexible hose (2) derives, connected at its inlet - from the flow sensor (F) - which faces the rear of the casing (1), and therefore, said hose (2) passes through an opening in the rear wall of the casing (1), whereby at the opposite end of said hose (2) a cylindrical nozzle (3) is mounted, inside which a pad (4) of flexible material - resin - a is mounted. which is provided with a central through hole (5), and in the front wall of the casing (1) there is - through an opening - a second flexible hose (6), which derives from the output of the flow sensor (F) , inside the casing (1) a micro electronic board is also mounted. processed (P), which comprises means for reading the flow sensor (F), and also comprises a radio frequency transmitter (R), characterized in that inside the casing (1), supply batteries are mounted (B), while on the outer side of the casing (1) there are an on/off key (L) and a connector (C) for an electricity charger plug, while on its front panel, the casing ( 1) it has a first LED indicating the power-on condition (7), a second LED indicating connection (8) - wireless - with a cell phone (with the related application), and a third LED indicating Reading in Progress (9 ), and since, on its front panel, the present enclosure (1) still has a first command button for "New Reading" (10), a second button for "Repeat Reading" (11) and a bell (12) .

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