RU2731285C1 - Method for flushing of drip water outlets using ultrasound and device for its implementation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: group of inventions relates to agriculture. Method consists in flushing of drip water outlets with the help of ultrasound. Ultrasound exposure to each water discharge is performed at discrete change of working pressure in it directly on irrigated area during irrigation. Device for implementing the method comprises a support body accommodating an ultrasound generator with a power supply and a clamping mechanism mounted on its surface.

EFFECT: reduced labor intensiveness of washing and increased efficiency.

3 cl, 4 dwg

Description

The proposed invention relates to the field of agriculture and can be used in the operation of drip irrigation systems, predominantly with integral pipelines (providing a constant flow of water throughout its length).

There is a known method of flushing the channels of the droppers of integral pipelines, including filling the pipelines for 2-3 hours with orthophosphoric acid and the subsequent supply of clean water (Internet resource // remotvet.ru> guoestions promyt ... koplnogo-poliva html / Treatment time 20.06.2019.).

The disadvantage of this method is the duration of the process, the consumption of expensive phosphoric acid, acidification of the soil, and when the water contains iron, the formation of insoluble salts.

A known method of accelerated washing of droppers with a solution of freon-4 on a special stand using ultrasound. The disadvantage of this method is the laboriousness of dismantling and transferring the pipeline with droppers from the field to the stand and subsequent laying on the field after washing (Av. St. USSR No. 513740, MKI V08V 3/10, publ. April 15, 1976, Bul. No. 18).

These disadvantages can be eliminated by the method of flushing drip outlets using ultrasound, in which, according to the invention, the action of ultrasound on each outlet is carried out with a discrete change in the working pressure in it directly on the irrigated area during irrigation.

A device for implementing the proposed method for flushing drip outlets using ultrasound includes a support body, inside which an ultrasound generator with a power source is located, and a clamping mechanism is mounted on its surface. In addition, the clamping mechanism can be made in the form of a two-armed lever mounted on a rack with the possibility of rotation in the vertical plane and alternating interaction of each arm with one of two spring-loaded valves fixed on both sides of the rack.

A new positive effect of the proposed method and device is that flushing directly on the irrigated area without interrupting irrigation by acting on the clogged dropper with ultrasound at various operating pressure conditions reduces the complexity of flushing and increases its efficiency.

The essence of the proposal is illustrated by the drawing, where FIG. 1 shows a general view of the device for flushing droppers, FIG. 2 - the position of the two-armed lever when flushing with increased pressure in the dropper; in fig. 3 - the position of the two-armed lever at reduced pressure in the dropper; in fig. 4 is an enlarged general view of the dropper.

The device for flushing the dropper consists of a support body 1, inside which an ultrasound generator 2 is located, connected to a power source 3. A stand 4 is fixed on the body 1, in the upper part of which a two-armed lever 6 is installed on the axis 5 with the ability to rotate in a vertical plane. In its lower position, each arm has the ability to interact with spring-loaded valves 7 and 8, fixed on the sides of the rack 4. Each valve consists of a sleeve 9, inside of which is placed a spring 10 with a rod 11 passed through it with a support platform 12 holding the spring 10. On The upper end of the rod 11 is fixed with a pressure head 13, and a clamping plate 14 is mounted at its lower end. During flushing, an irrigation pipeline 15 is placed on the surface of the device body 1 during flushing, placing the dropper 16 above the ultrasound generator 2. The dropper 16 consists of the body 17 , in which a tortuous channel 18 is made, covered with a flexible membrane 19.

The method of flushing drip outlets using the proposed device is as follows:

The implementation of the proposed method for flushing droppers on an integral pipeline begins with identifying clogged droppers during irrigation and fixing their location by installing poles. Then, the marked clogged droppers are washed, for which the pipeline 15 is laid on the surface of the support body 1 of the device, placing the dropper 16 above the ultrasound generator 2. After that, the lever 6 is moved to the left, lowering the right shoulder and pressing it on the head 13. Rod 11, overcoming the resistance of the spring 10, lowers the plate 14 onto the pipeline 15, abruptly interrupting the movement of the water flow through the pipeline. In this case, with an increased pressure of the water flow, the dropper membrane 19 is sharply pressed against the channel 18 and, under the action of ultrasonic vibrations, destroys the blockage. Then the lever 6 is moved to the right, acting on the head 13 of the left rod, and blocking the flow in front of the dropper 16. When the pressure drops, the membrane 19 moves away from the channel 18, and the fragments of particles formed during the destruction of the blockage are washed out from the expanded channel 18 under the action of the flow vibration generated generator of ultrasonic vibrations 2. The washing operation is repeated 2-3 times until the channel 18 of the dropper 16 is completely cleaned. Then the device is transferred to the next dropper, where the washing operation is repeated.

Thus, the proposed method and device make it possible to flush the dropper using ultrasound for several minutes directly on the irrigated area, without stopping watering and using irrigation water as a flushing agent.

Claims (3)

1. A method of washing drip outlets using ultrasound, characterized in that the action of ultrasound on each outlet is carried out with a discrete change in the working pressure in it directly on the irrigated area during irrigation. 2. A device for implementing the method according to claim 1, comprising a support body, inside which an ultrasound generator with a power source is located, and a clamping mechanism is mounted on its surface. 3. The device according to claim. 2, characterized in that the clamping mechanism is made in the form of a two-armed lever mounted on a rack with the possibility of rotation in the vertical plane and alternating interaction of each arm with one of two spring-loaded valves fixed on both sides of the rack.

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