RU2060661C1 - Small capacity boom sprayer for treatment of field crop - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: sprayer has additional reservoir with float and bypass channel communicating through boom with motor and spray heads placed in pesticide resistant material housing 4 which has inlet L-shaped channel 6 connected with supply main line. Horizontal portion of channel 6 has shutoff electromagnetic valve. Through this valve main line communicates with outlet channel 8 of adjustable cross-section in housing 4. It has also pickup 10 to check liquid flow at outlet. EFFECT: reduced materials usage, increased versatility, enhanced quality of crop treatment and reliability. 2 dwg

Description

 The invention relates to agricultural machinery, mainly to sprayers for processing field crops with small doses of the drug.

 Various designs of low-volume sprayers are known: copyright certificate N 222055, class. A 01 M 7/00, B.I. N 22/68, N 295410, cl. A 01 M 7/00, B.I. 33/70 g. (Analogues). The first of these is a laboratory sprayer for testing new pesticides in various crops. It includes two tanks connected in series with itself, a device for supplying working fluid to the disk; disc sprayer, table for placing plants and drive mechanism. The disadvantage is the complexity of the design and the inability to work in the field.

 The second sprayer is designed to process field crops with low consumption rates of pesticides and includes a tank, a dispenser, a boom on which engines with sprayers and supply communication are mounted. The disadvantage is that the sprayer has a large material consumption, complex design and the complexity of the working body.

 Known sprayer described in the copyright certificate N 1644864, class. A 01 M 7/00, 91 g (prototype). So, it contains: a reservoir for the working fluid, a rotary valve, a rod, a disk sprayer and a mechanism for turning the working bodies to shut off the supply of working fluid, as well as a system for collecting working fluid at the time of shutdown. The disadvantage of this design is that the sprayer has a complex structure, high material consumption, and the collection system of the working fluid leads to clogging of the pipeline.

 The technical solution is to simplify the design, reduce material consumption, increase versatility, processing quality and reliability.

 The technical problem is solved in that a small-sized sprayer, including a reservoir for a working fluid mounted on an energy tool, a boom, to which motors with spray nozzles mounted on their shafts are connected, additionally has a reservoir with a float and a bypass channel communicated through the boom with each electric motor placed in a housing made of a material that is wear-resistant against pesticides, while the housing is equipped with an inlet L-shaped channel connected to the supply line, and its horizontal the onal part has a shut-off solenoid valve and through it is in communication with an output channel in the housing having an adjustable cross section and a fluid flow control sensor located at its outlet.

 The novelty of the claimed technical solution is due to the fact that the sprayer is equipped with an additional tank with a float and a bypass channel, which ensures constant pressure of the working fluid in the line and its uniform flow rate over the width of the sprayer. An additional tank through the rod is in communication with each electric motor placed in a housing in which there is an output channel with an adjustable cross-section using a screw to control fluid flow over a wide range (0-50 l / ha) and an inlet L-shaped channel for connection to the supply line the horizontal part of this channel is equipped with a shut-off solenoid valve, and through it is in communication with the output channel in the housing and having an adjustable cross section and a fluid flow control sensor located at the outlet of this channel Ala. According to scientific, technical and patent information, the claimed combination of features has not been identified, which obviously follows from the existing level of technology, which allows us to conclude about the inventive step of the invention.

 The invention is illustrated in the drawing, where in FIG. 1 shows a small sprayer (rear view); in FIG. 2 working body of a sprayer.

 The small-sized sprayer contains a reservoir 1 for working fluid (Fig. 1) mounted on an energy tool using brackets and a frame (not shown), connected to an additional reservoir 2 with a float and a bypass channel and communicated through a rod 3 with each motor housing 4 5 (Fig. 2) using the L-shaped channel 6 for supplying the working fluid to each working body. Each engine 5 is equipped with a spray disk 7 (Fig. 2). The housing 4 is also equipped with an output channel 8 with an adjusting screw 9 and a sensor 10 for monitoring the flow of fluid.

 With the supply line in the form of a rod 3, the housing 4 is connected using the L-shaped channel 6 through a vertical input channel. The horizontal part of the channel has a shut-off solenoid valve, consisting of a housing 11, in which a solenoid coil, a movable armature 12, springs 13, and a gasket 1 that are resistant to chemical solution are located. The exit from the channel 6 through the valve communicates with the output channel 8 in the housing 4. The reliability of the sprayer is guaranteed by the diameter of the output channel 8, which can be more than 3 mm, which eliminates the possibility of clogging.

 The sprayer works as follows. When refueling the sprayer tank with working fluid, the engines 5 are disconnected from the power tool electrical system and the shut-off valves shut off the fluid supply to the discs 7. Under the pressure of the air coming from the power tool receiver, the liquid flows through the filter into an additional tank 2, equipped with an overflow channel and a float (in Fig. (not shown) and then to the supply line and further to channel 6, the outlet of which is blocked by a shut-off valve.

 When the unit enters the field, the electric motors 5 are turned on and the disks 7 begin to rotate. An additional switch turns on the shut-off valve, in which the armature 12 is drawn into the coil due to the magnetic field generated by the coil-solenoid, overcoming the resistance of the spring 13 and using the gasket 14 allows fluid to enter the channel 8 from the channel 6.

 The adjusting screw 9 controls the cross section of the channel 8 and, consequently, the norm of the working fluid. Monitoring the flow of fluid to the working disk is carried out by a sensor 10 connected to diodes placed on a light panel in the cab of an energy facility. Upon receipt of fluid from the channel 8 to the rotating disks 7, it rushes to their edges under the action of centrifugal force and is sprayed.

 In the tank 2, a constant liquid level is maintained by means of a float and a bypass channel, as a result of which the fluid pressure in the line 3 is constant, and the fluid flow rate is uniform on all sprayers.

 At the end of the stroke, the engines 5 and shut-off valves are turned off. At the same time, the disks stop and the fluid supply to them stops due to the spring 13 of the armature 12 and gasket 14. After turning the unit for a new passage, its operation is carried out in the same way as described above.

Claims (1)

 A small-volume boom sprayer for processing field crops, which includes a reservoir for the working fluid mounted on an energy tool and a boom with engines mounted on it, on the shafts of which there are mounted atomizers in the form of disks, characterized in that it is additionally equipped with a reservoir having a float and a bypass channel and communicated through a rod with engines, wherein each engine is placed in a housing made of a material that is wear-resistant against pesticides, which has an input L-shaped channel connected to the rod, and an output channel, and the horizontal part of the L-shaped channel has a shut-off solenoid valve and through it is in communication with the output channel of the housing having an adjustable cross-section and a sensor for controlling fluid outflow to the atomizer disk located at its output.

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