SU1042682A1 - Pulse type sprinkling unit - Google Patents

Description

The invention relates to the irrigation of agricultural crops by the method of sprinkling and can be used on stationary systems of pulsed sprinkling. A pulsed sprinkler is known, including a water-air tank, a barrel with a nozzle, a shut-off element, an air supply source, a device for feeding a combustible mixture, and the Ignition system 1. The disadvantage of this installation owner -. complexity of the design. Another friend is also known as a pulse sprinkler, an installation comprising a barrel with a nozzle, air and water-air tanks communicated between. a pipeline with a shut-off device, a source of compressed air and a liquid supply line to a water-air tank having a shut-off valve 23. The disadvantages of this installation are high energy costs and low efficiency of using compressed air. The purpose of the invention is to reduce energy costs by self-flowing liquid and efficient use of compressed air. The goal is achieved by the fact that the installation is equipped with an automatic control system of a locking device consisting of a control unit and sensors of an upper and a lower level of a water-air tank and an air pressure sensor in an air tank connected to it. The shut-off valve, located on the fluid supply line, is designed as a vortex-type check valve. The drawing shows a schematic diagram of the proposed pulsed sprinkler. The impulse sprinkler installation consists of a water-air tank 1, behind a deep 2, and a barrel 3 with a nozzle 4. The air tank 1 communicates with a gravity source to supply fluid through line 5 to supply fluid with a shut-off device-valve 6 made in the form of a check valve of the vortex type. The upper suit of the air tank through the locking device 7 with the help of the air duct is connected to the air tank 8, to which the source 9 of compressed air is connected. Sleep installation by the automatic control system of the locking device 6, the air pressure connected to the air tank 8, the 822 pressure sensor connected to the air tank 8, the upper level sensors 11 and the lower level 12 connected to the water tank 1. The sensors outputs 10-12 are connected to the block inputs 13 controls, the outlets of which are connected to the control circuit 14 of the shut-off device bis circuit 15 of the control source -9 of compressed air. A drain valve 16 is installed on the retaining device line. The pulse sprinkler works as follows. The compressed air from the source 9 enters the air tank 8. When the locking device 7 is closed, the pressure in the air tank 8 rises to the value of the response of the air pressure sensor 10. At the same time, the water-air tank 1 is filled with water with livestock drains or other liquid with solid inclusions for fertilizer irrigation, flowing by gravity from a source of liquid through a non-return valve 6 with a vortex chamber. At this time, the air from the cavity of the water-air tank 1 enters the atmosphere through the drain valve 16. When the liquid reaches the sensor 11 of the upper level located at the highest point of the water-air tank 1, the signal from the sensor 11 enters the input of the control unit 13, which, if present The signal from the air pressure sensor 10 issues a command to the controlled shut-off device 7 to open. When the controlled locking device 7 is opened (for example, a valve with an electromagnetic drive), the compressed air from the air tank 8 rushes along the air duct to the limit. The upper cavity of the water-air tank 1. The drain valve 16 is then closed, and the liquid from the impact — a sharp increase in the pressure of compressed air in the upper cavity of the water-air tank 1 — is jetted into the atmosphere through the nozzle. During the ejection of fluid, its level decreases and, after descending to the low level sensor 12, the latter triggers, and its signal goes to control unit 13, as a result of which the locking device 7 closes and the compressed air supply stops. Residual liquid from water tank 1 discharge I 0 26Q24

It comes through the nozzle at the expense of already passing through the nozzle in the atpped portion of the compressed air, the atmosphere. The cycle then repeats the incoming compressed air.

Claims (2)

1. PULSE RAINBOARD INSTALLATION, including a barrel with a nozzle, air and water tanks / connected by a pipeline with a shut-off device, a source of compressed air and a liquid supply line to a water tank with a shut-off valve, with a shut-off valve This is because, in order to reduce energy costs by gravity supplying liquid and efficiently using compressed air, the unit is equipped with an automatic control system for a locking device consisting of a control unit and yes connected to it tors high and low water-air tank and the air pressure sensor in the air tank. 2. The installation according to claim 1, from l available in that the shutoff valve located on the liquid supply line is made in the form of a vortex type check valve. 1042682 2