GR1009301B - New-type spraying machine for cultivations - Google Patents

Abstract

Novelty: a spraying machine practicable for cultivations is disclosed. Constitution: the chamber 1, the ionizer 20 where the medicine is mixed with electrically- ionized water before ending through the tubing (7,8) to the mixing chamber 9 of the spraying nozzles 6; two lifting arms 4 which are adjustable in length and angle and operating with gasoline-fuelled engines 5 for spraying large-surface cultivations; a pump 11 set into operation by the power take-off of the tractor and transmitting the motion via the multiplier 27 and pulleys to the air compressors 26. Each air compressor 26 is provided with a double water-cooled head 12 and a dividable sump 13.

Description

DESCRIPTION

"NEW TYPE SPRAYING MACHINE"

THE FIELD OF TECHNOLOGY

The invention refers to the technical field of spraying machines and specifically to a new type of spraying machine, which can spray a wide range of crops, regardless of their type, achieving better mixing of the medicine, ionizing the water before spraying.

THE HISTORY OF THE INVENTION

The new type of spraying machine disclosed in the present invention, with its features, has not been disclosed in the prior art.

To date, there are many spraying and fogging machines on the market. But all of them present significant disadvantages that make their use unprofitable and not at all practical. Conventional spraying machines of the state of the art known to date do not use air compressors, with the result that they direct the used medicine either straight, or in the form of artificial rain, wasting large amounts of it. As it becomes obvious, efficient spraying requires more workers and corresponding machinery, significantly increasing the cost of the process. A further disadvantage arises from the increased fuel consumption for the operation of the spraying machines, while the costs arising from wear and tear and maintenance should not be ignored.

A further disadvantage presented by the spray machines of the current technology has to do with their spray nozzles, as they are not sufficiently sealed, resulting in losses and not spraying properly. In addition, it should be noted that the nozzles of conventional spraying machines often do not have the appropriate size, resulting in them being easily clogged, making it difficult for the operator to do his work, while finally it should be noted that the mixing chamber of the nozzles is often small, for construction and economic reasons, with the result that the mixing of the drug solution with the air is not done properly.

A further shortcoming of conventional spraying machines of today's technology lies in the non-ionization of the drug before it reaches the nozzles and thence to the crops. The result of this is that the drug does not successfully adhere to the crops, resulting in the plants not being sprayed properly, but instead ending up directly on the soil. The consequence is to reduce both the effect of spraying on the plants, but at the same time to increase the concentration of medicine in the soil, contributing decisively to its absorption by it, contaminating both the subsoil and possibly the water table.

It is thus an object of the present invention to advantageously address the above-mentioned disadvantages and shortcomings of the prior art by proposing a new type of spraying machine, which can easily and quickly sprinkle small and large crops, without requiring increased manpower.

A further object of the present invention is to provide a new type of crop sprayer, which has rotating, height and angle adjustable arms, with multiple spray nozzles, for proper crop spraying.

A further object of the present invention is to offer a new type of crop spraying machine, which has a drug mixing chamber with an ionization mechanism, so that the water before mixing with the drug acquires the appropriate electrical charge that will allow it to adhere more effectively to the of sprinkled crops.

An additional advantage of using positively ionized spray liquid is the effective protection of the back and underside of leaves, fruits, i.e. in areas that conventional spraying would be impossible to reach.

A further object of the invention in order to make the said crop sprayer of a new type easy to use, is the use of a double water-cooled air compressor, which has a divided crankcase and which is cooled by the spray mixture that penetrates the air compressor head.

A further object of the invention is the presentation of a new type of spraying machine, which has spray nozzles in which the air is more effectively mixed with the sprinkling liquid, ensuring successful spraying, with droplets of an appropriate size, while at the same time the nozzle ducts do not clog. At the same time, a better sealing of these is achieved, reducing losses, increasing the effectiveness of spraying and at the same time extending the period of their good operation.

Another advantage of the invention is the presentation of a spraying machine of a new type, which reduces the use of sprayed agricultural drugs, without reducing their effectiveness. This is due to the fact that the droplets, in addition to the appropriate size, also have an electrical charge, as a result of which they adhere to the plants, so that a smaller amount of pesticides falls on the soil, while at the same time they also eliminate most of the fungi and bacteria.

The object of the present invention is also the presentation of a new type spraying machine, which contributes to the reduction of sulphation and the elimination of the smell of hydrogen sulphide in wine. This is achieved since electrostatic spraying significantly reduces the amount of sulfur required, as a result of which no hydrogen sulphide is produced and the wine does not smell bad.

These and other objects, features and advantages of the invention will become apparent in the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be understood by those skilled in the art, with reference to the accompanying drawings, in which it is illustrated in an indicative, illustrative but non-limiting manner.

Figure 1 shows a perspective view of the new type spraying machine of our invention.

Figure 2 shows a perspective view of the sprayer of the invention, with the arms on which the spray nozzles are located expanded.

Figure 3 shows the air compressor of the new type sprayer, where one can observe the head as well as the sump.

Figure 4 shows the split sump with its cover and Figure 5 shows the head with its respective intake and exhaust.

Figure 6 shows a cross-section of the spray nozzles, with the air mixing chamber with the drug solution, which ensure better spraying with the appropriate droplet size.

Figure 7 shows the ionization mechanism, which is used to charge the water before mixing it with the drug, ensuring that during the sprinkling process there will be a better application of the drug to the plants.

Figure 8 shows a perspective view of the two air compressors, with the pump and multiplier used to operate the sprayer.

DETAILED DESCRIPTION OF PREFERRED APPLICATION

Referring now to the accompanying drawings we will describe with reference to illustrative examples of application the new type of spraying machine of our invention.

The machine consists of a chamber for the drug (1), Fig. 1, which is located on a wheeled axle (2). The shaft (2) has the ability to rotate by 90° to the right and correspondingly to the left, allowing the driver of the vehicle, to which it is connected via a hitch (3), to carry out the appropriate and necessary maneuvers. The sprayer of the present invention has rotating, longitudinally extending and elevating arms (4), Fig. 2, on each of which is a gasoline engine (5) with spray nozzles (6). On the front side of the spraying machine, on the wheel axle (2), there is, as shown in Fig. 8, a pump (11) which is driven by the tractor particov. The existence of two petrol engines (5), the operation of which is activated and deactivated according to the user's desire, but also the arms (4) which are completely adjustable, both in height, length and angle that they spray, so as to allow the full parameterization of the spraying machine, ensures the effective spraying of crops and vines. It is indicated that the horsepower of the gasoline engines (5) is 13.5 hp, but this is not a limiting factor for the use of larger or smaller engines.

The spray nozzles (6), Fig. 6, have a brass ring with polyamide, preventing leaks, while at the same time they withstand a pressure of up to 150 atmospheres. Each spray nozzle (6) ends with two pipes (7), (8), through which air and medicine are supplied respectively. The air and the drug are mixed in a mixing chamber (9), the characteristic of which is the size, allowing their better mixing, so that a homogeneous spray droplet is obtained. The exit of the droplets takes place through an orifice (10), the size of which is indicatively stated to be 35 microns, being ideal for attachment to crops.

The new type sprayer of the present invention is actuated by means of the tractor starter and driven by the particov, as previously mentioned. The movement is transmitted to the pump (11) and from there to the multiplier (27) and through pulleys to two air compressors (26), Fig.8. In this way the multiplier (27) increases the turns of the partikov from one to four to five. The construction materials of the multiplier (27) are such that allow the use of larger bearings, while the horsepower of the multiplier (27) can be increased to 140 hp, instead of the 38 hp used by the corresponding multipliers to date.

Each air compressor (26), Fig. 3, has a double, water-cooled head (12) and a divided sump (13). The crankcase (13), has a cap (14), Fig. 4, and a shaft (15) on which it receives the movement from the multiplier of the spraying machine. The spray mixture enters the head (12) through an inlet (16) while running through it, before ending up in a cylinder (17), which has a molded tube inside. In this way, the second cooling of the mixture takes place, before it reaches the spray nozzles (6). The head (12) also has an inlet (18) and an outlet (19).

The spraying machine has an ionizer (20) on the chamber (1). The ionizer (20) is used to charge the water mixed with the drug with an electrostatic charge to achieve better adhesion to the sprayed crops. The ionizer (20) consists of a small chamber (21) containing copper electrodes (24) and a waterproof, compact, durable electrical panel (25). On the copper electrodes (24) a low electric voltage of direct current 12V is applied so that they release positively charged copper ions into the water, which enters through a pipe (22) and leaves a pipe (23), which adheres to the plant and protects it from diseases for a long time. The electrical panel (25) has a dimmer from which the intensity of the current is regulated, depending on the conditions of each application.

It should be noted at this point that the invention was described with reference to an illustrative example of application, to which it is not limited. Consequently, any change or modification in terms of the shape, dimensions, materials used and construction and assembly components, as long as they do not constitute a new inventive step and do not contribute to the technical development of what is already known, are considered included in the aims and objectives of the present invention.

Claims (1)

1. A new type of spraying machine, consisting of a drug chamber (1) on a wheel axle (2), with an ionizer (20), with two lifting arms (4), adjustable in length and angle, each of which has a gasoline engine ( 5) for the operation of spray nozzles (6), and it has a pump (11) that transmits the movement to air compressors (26), which have a double, water-cooled head (12) and a divided sump (13) for cooling the drug mixture, characterized in that the drug is ionized by electric charges from copper electrodes (24) in the ionizer (20), then passes through the double, water-cooled head (12), the divided sump (13) and ends through pipes (7), (8 ) in a mixing chamber (9) before exiting through an orifice (10) of the nozzles (6).