SU1063341A1 - Pulse sprinkler - Google Patents

Abstract

PULSE RAIN MACHINE, including a water-air tank, a stationary body, a barrel with a locking member and a barrel rotation mechanism with a movable sleeve and spring, characterized in that, in order to simplify the design and improve reliability of operation, the spring is flat and installed on the end of the movable sleeve. its lateral surface and at an angle to the vertical axis with the possibility of its interaction with the locking organ at the time of its closing. (L from 00 4

Description

The invention relates to the irrigation of agricultural crops and may be used on systems: pulsed sprinkling. Known to a pulsed sprinkler, including a water-air tank, one hundred and one fixed case, a barrel, a ratchet-type turning mechanism and a needle valve l. The disadvantage of this device is the complexity of the design. 4 Also known is a pulsed dozhdevalny device, including a water tank, a stuffy tank, a stationary body, a valve with a locking body and a mechanism for turning the barrel, having a movable sleeve and a spring 2. A disadvantage of the known apparatus is the design complexity and low reliability work. The purpose of the invention is to simplify the design and improve the quality of work. . . This goal is achieved by the fact that in a pulse sprinkler the spring is flat and installed; at the end of the movable sleeve tangentially to its side surface and at an angle to the vertical axis with the possibility of its interaction with the locking organ at the moment of its closure. The drawing shows a diagram of a pulse sprinkler. Pulse sprinkler includes a water-air tank, a fixed body (not shown), a lock organ consisting of an upper 1 lower 2 body, a needle gate valve 3 with wound 4 in the lower part, mounted on the rod 5. The rod 5 is installed in the body b needle valve 3 by means of a spline joint. The needle gate 3 is made of elastic rubber and the piston 4 along the outer contour is elastic, with the formation of a one-way sealing cuff. Tangentially at the end of the movable sleeve 7 of the sprinkling barrel 8 at an angle to the vertical axis, the flat springs 9 of the barrel turning mechanism are installed. Pulse sprinkler works as follows. Water from the system’s pipeline network flows under pressure under the piston 4 and the needle valve 3 begins to move upwards. With a short stroke, the bolt 3 rests on the ends of the flat springs 9. The force transmitted by the needle bolt through the springs 9 is decomposed due to the above arrangement of the springs 9 on the vertical and horizontal components. Under the action of the horizontal component sleeve 7, the barrel is rotated through a certain angle, the value of which can be set by the angle of inclination of the springs 9 to the longitudinal axis of the sleeve 7. After shutting off 3 ends of the movable sleeve 7 and thereby closing the spout water through the sprinkler barrel, pressurized water begins to flow into the air tank. When the calculated pressure in it is reached, a decrease in pressure signal is given to the piping network and a sharp movement of the needle gate 3 takes place. This opens the barrel 8 and the pressurized water from the water-air tank is thrown into the irrigated area. When the lower design pressure in the water-air tank cavity reaches the pipeline network, an increase pressure signal is given. The Ygolcha- (shutter 3 begins to move upwards, interacting with the springs 9. At the same time, the barrel begins to rotate at the moment of the end of the outburst. Then the cycle repeats. The pulsed sprinkler has a simpler design than the known ones, which increases its reliability.

Claims (1)

. PULSE RAINING UNIT * including a water tank, a fixed housing, a barrel with a locking body and a barrel turning mechanism with a movable sleeve and a spring, characterized in that, in order to simplify the design and increase the reliability of operation, the spring is made flat and is installed tangentially to the end of the movable sleeve to its lateral surface and at an angle to the vertical axis with the possibility of its interaction with the locking body at the time of its closure.