RU2282991C2 - Method for spraying and self-propelled sprayer for effectuating the same - Google Patents

Abstract

FIELD: spraying of agricultural lands with fertilizers and plant defense means, may be used in agriculture and branches of industry where treatment of territories with liquid solutions is practiced.

SUBSTANCE: method involves creating at least two air flows; directing said air flows symmetrically at an angle of 120-160 deg, preferably 135 deg, about direction of advancement of sprayer in order to spray surface to be treated in rearward direction and laterally of sprayer, and simultaneously creating aerodynamic forces, with resultant of said forces moving said sprayer. Self-propelled sprayer has wheeled frame, carrying at least one reservoir for liquid, at least two air screws whose axes of symmetry are arranged symmetrically at indicated angle about direction of advancement of sprayer, and working liquid feeding system connected to reservoir for liquid.

EFFECT: increased spraying width and provision for self-propulsion of sprayer resulting in increased efficiency, improved spraying quality and reduced operating costs.

7 cl, 6 dwg

Description

The invention relates to the application of liquid solutions to the cultivated area, in particular to spraying agricultural land with fertilizers and plant protection products, and can be used in agriculture and industry, if necessary, processing the territory with liquid solutions.

A known method of spraying the treated surface with a tractor-mounted trailed sprayer with a fan spray device in which the generated air-liquid flow is directed backward or with the nozzle to one side of the sprayer (Shamaev G.P., Sheruda S.D. Mechanization of crop protection from pests and diseases. M., Kolos, 1978, p.29-42).

However, this method does not provide high efficiency and quality of spraying, due to the small width of the grip and the implementation of the method on trailed sprayers.

The closest analogue of the proposed method, selected as a prototype, is a method of creating an air-liquid flow for spraying the treated surface, including the fan accelerating the intake air stream, introducing liquid into the dispersed air stream, dividing the stream in the nozzle into multidirectional jets by partitions located at different angles relative to the surface to be treated (Pat. RF No. 2201294, IPC ⁷ V 05 V 7/32, publ. 2003). Common essential features of the known and claimed methods are the creation of an air flow, the introduction of a working fluid into it and spraying with an air-liquid flow of the treated surface.

In the known method, the working fluid is transported by air flow in one direction, while the spray width is small. In addition, the air flow generated by the fan is used only for spraying, and the method, as a result, is carried out on trailed sprayers. All this leads to a decrease in the efficiency and quality of spraying.

Known fan trailed sprayer OVT-1V, including a frame on wheels, a container for the working fluid installed on it, a system for supplying it to the fan working body with a nozzle, which directs the flow of atomized fluid untwisted by the fan in one direction (Shamaev G.P., Sheruda S .D. Mechanization of crop protection from pests and diseases. M., Kolos, 1978, pp. 41-42).

The disadvantages of such a sprayer are its dependence on the vehicle to which it is attached, the one-sided spraying and, as a result, low productivity and economy.

The closest analogue of the claimed device, selected as a prototype, is a universal fan sprayer, which is attached to the tractor to move around the field. The sprayer includes a frame on wheels, a container for working fluid installed on it, working from a tractor power take-off shaft, a fluid supply system with a pump connected to the tank, and a working body with two fans located parallel to the direction of movement of the sprayer (AS USSR No. 1053802, IPC ³ A 01 M 7/00, publ. 1983). Common essential features of the known and claimed devices are a frame on wheels and at least one working fluid container mounted thereon, at least two working elements forming air flows by rotation of the blades, and a working fluid supply system with a pump connected to the tank.

When a well-known sprayer operates, its movement across the field is carried out by a tractor, which leads to a heavier and cumbersome device, squeezing the soil and agricultural crops, slipping on moist soil, and due to the fact that the sprayed liquid enters the air stream perpendicular to the direction of movement of the sprayer, it is processed the zone on the left and right side of the sprayer, and behind it remains the "dead zone", which reduces the productivity and efficiency of the device.

The basis of the first of the group of inventions is the task of improving the spraying method, in which by increasing the number and power of air flows, as well as changing their direction, the spraying grip width and simultaneously the self-movement of the sprayer are increased, which leads to an increase in the efficiency and quality of spraying.

The second of the group of inventions is based on the task of improving the sprayer, in which by changing the design and location of the working elements it is provided with self-movement and an increase in the spraying width, the possibility of edge treatment without leaving the field, reducing soil compression and slipping on moist soil. Due to this, the productivity and efficiency of the sprayer are increased.

The first task is solved by the fact that in the spraying method, including creating an air flow, introducing into it a working fluid and spraying the air-liquid flow of the treated surface, in accordance with the invention create at least two such air flows, which, directing them symmetrically at an angle 120 ° -160 °, preferably 135 °, to the direction of movement of the sprayer, spray the surface to be treated back and to the sides of the sprayer and at the same time generate aerodynamic forces, resulting which moves the sprayer.

In another specific embodiment, a portion of the air-liquid flows is directed down and / or into the area behind the sprayer.

Between the set of essential features of the first of the group of claimed inventions and the achieved technical result, there is the following causal relationship.

The creation of two air flows directed at an angle of 120 ° -160 °, preferably 135 °, to the direction of movement of the sprayer, provides spraying of the treated surface back and to the side of the sprayer, which leads to an increase in the width of the spray. At the same time, the power of the air flows directed at an angle to each other allows creating aerodynamic forces, the resulting of which moves the sprayer, which leads to the implementation of the method on a self-propelled sprayer. As a result, the efficiency and quality of spraying are increased.

The direction of the part of the air-liquid flows down and / or into the area behind the sprayer eliminates the formation of a "dead zone", which also contributes to an increase in the efficiency and quality of spraying.

The second task is solved in that in the sprayer, including the frame on wheels and installed on it at least one container for the working fluid, at least two working elements forming the air flow by rotation of the blades, and a system for supplying working fluid with a pump connected to the tank , in accordance with the invention, propellers are used as working elements, the axis of rotation of which are symmetrically at an angle of 120 ° -160 °, preferably 135 °, to the direction of movement of the sprayer.

In other specific forms of execution behind the propellers, between them, an additional propeller is installed, which is driven into rotation by the air flows of the main propellers.

An additional propeller is connected to the pump.

Behind the main propellers, at least two vertical and / or horizontal and / or inclined rear wings are additionally mounted with the possibility of rotation around its longitudinal axis.

These wing wings are installed in such a way as to deflect part of the air-liquid flows down and / or into the area behind the sprayer.

Between the set of essential features of the second of the group of claimed inventions and the achieved technical result, there is the following causal relationship.

The use of propellers, the rotational axes of which are located at an angle of 120 ° -160 °, preferably 135 °, as the working elements creating the air flows, to the direction of movement of the sprayer, leads to the fact that the air flows created by them spray the workpiece with a wider working width and at the same time form aerodynamic forces, the result of which moves the sprayer. As a result, the sprayer moves on its own, soil compression and slippage on moist soil are reduced, and the spray width is increased. In addition, it provides the possibility of regional processing without leaving the field. Thus, the proposed design provides increased productivity and economy of the sprayer.

Installation on the frame behind the propellers, between them, an additional propeller, which is rotated by the air flows of the main screws and can be connected to the pump, or at least two vertical, and / or horizontal, and / or inclined rear wings with the possibility of rotation around their longitudinal axis, which deflect parts of the air-liquid flows down and / or into the area behind the sprayer, while excluding the formation of a "dead zone", additionally improves productivity and economy seeker.

The connection of the additional propeller with the pump allows you to use the energy of its rotation to drive the pump, which also increases the efficiency of the sprayer.

The essence of the invention is illustrated by illustrations, which depict: figure 1 - General view of a self-propelled sprayer, figure 2 - distribution diagram of air-liquid flows and aerodynamic forces, figure 3 - installation diagram of an additional propeller, figure 4 - installation diagram of vertical wing, figure 5 is a diagram of the installation of horizontal wing, figure 6 is a diagram of the installation of inclined wing.

The claimed method is implemented in this way.

Using the propellers mounted on the sprayer (FIG. 1), two powerful air flows are formed, which are directed at an angle of 120 ° -160 °, preferably 135 °, to the direction of movement of the sprayer. The sprayed working fluid is introduced into the indicated air streams and the surface being treated is sprayed with the formed air-liquid flows back and to the sides of the sprayer (the working width is 30-60 m). At the same time, powerful air currents create aerodynamic forces directed in the opposite direction, the resulting of which pushes the sprayer, providing its forward movement (figure 2).

For a more uniform spraying of the treated surface, part of the air-liquid flows are deflected using the wing (figure 4, 5, 6) or an additional propeller (figure 3). This eliminates the formation of a "dead zone" behind the sprayer. Creating only one air-liquid flow, spray the edge of the field without leaving it, for which it is possible to separately control the liquid flows.

As shown in FIG. 1, a self-propelled sprayer comprises a frame 1 with wheels 2, on which containers 3 with a working fluid are mounted, connected to a system for supplying a working fluid, which includes a pump 4, hydrocommunications 5, nozzles or other spraying devices 6, the latter being located in the zone of creating air flows. The propellers 7 are also mounted on the frame 1, for example, standard propellers for trike or light aircraft, with internal combustion engines 8, one of which or both are connected to the pump 4. The axis of rotation of the propellers 7 are symmetrically at an angle of 120 ° -160 °, preferably 135 ° to the direction of travel of the sprayer (FIG. 2). Behind the propellers 7, between them, an additional propeller 9 (Fig. 3) can be installed, which can be connected to the pump 4.

In one embodiment, behind the main propellers, two vertical (Fig. 4) and / or horizontal (Fig. 5) and / or inclined (Fig. 6) wing 10s can be mounted rotatably around their longitudinal axis, and vertical wing is installed closer to the longitudinal axis of the sprayer, horizontal - below the horizontal axis of the screws, so as to deflect part of the air-liquid flows down and into the area behind the sprayer.

On the frame 1 in front of the direction of travel of the sprayer there is a cab 11 with a steering wheel (not shown) of the wheels 2.

The sprayer works this way;

When starting the internal combustion engines 8, the propellers 7 begin to rotate, creating air currents, both screws can operate from one engine (if there is an appropriate transmission). The pump 4, driven by one of the engines 8 or an additional screw 9, draws the working fluid from the tank 3 and through hydraulic communications 5 delivers pressure to spray nozzles 6. The sprayed liquid enters the air flows generated by the propellers 7 and is carried along the treated area back and to the side of the sprayer, while the spray width is 30-60 m, due to the direction of air flow at an angle of 120 ° -160 °, preferably 135 °, to the direction of movement of the sprayer. At the same time, these air flows create aerodynamic forces directed in the opposite direction, the result of which pushes the sprayer, providing its forward movement (figure 2). Thus, the sprayer moves independently, without assistance, which reduces the weight and size of the device as a whole. At the same time, soil and agricultural crops are less compressed, wheel slippage on moist soil is practically absent, which contributes to uniform movement and, accordingly, spraying, reduces irrational losses of working fluid.

An additional propeller 9 is driven by the air currents of the main screws 7 and sprayed with a sprayed working fluid a small “dead zone” formed behind the sprayer. An additional propeller 9, by its rotation, can drive the pump 4. When installing the wing 10, part of the air-liquid flows deviates down and into the area behind the sprayer, ensuring uniformity of spraying.

When supplying fluid to only one of the propellers 7, spraying the edges of the field is carried out without leaving the sprayer on the field, for which purpose the system for supplying working fluid provides for the possibility of separate control of fluid flows.

When moving around the field, the sprayer is controlled by the operator located in the cab 11.

Claims (7)

1. A method of spraying, including creating an air stream, introducing into it a working fluid and spraying with an air-liquid stream of the treated surface, characterized in that at least two such air flows are created, by which, directing them symmetrically at an angle of 120-160 °, preferably 135 °, to the direction of movement of the sprayer, spray the treated surface back and to the side of the sprayer and at the same time form aerodynamic forces, the resulting of which moves the sprayer. 2. The method according to claim 1, characterized in that part of the air-liquid flows are directed down and / or into the area behind the sprayer. 3. A self-propelled sprayer comprising a frame on wheels and at least one fluid container installed on it, at least two working elements forming air flows by rotation of the blades, and a working fluid supply system with a pump connected to the tank, characterized in that as working elements used propellers, the axis of rotation of which are symmetrically at an angle of 120-160 °, preferably 135 °, to the direction of movement of the sprayer. 4. The sprayer according to claim 3, characterized in that behind the specified propellers, between them, an additional propeller is installed, driven into rotation by the air flows of the main screws. 5. The sprayer according to claim 4, characterized in that the additional propeller is connected to the pump. 6. The sprayer according to claim 3, characterized in that at least two vertical and / or horizontal and / or inclined rear wings are additionally mounted behind the propellers with the possibility of rotation around its longitudinal axis. 7. The sprayer according to claim 6, characterized in that the said wing is installed so as to deflect part of the air-liquid flows down and / or into the area behind the sprayer.

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