SU1026717A1 - Pulse-type sprinkling apparatus - Google Patents

Description

The invention relates to the irrigation technique of agricultural crops by the method of pulsed sprinkling.

A pulsed sprinkler is known, including a sprinkler head with a turning mechanism, a locking member and a water-air tank, divided into two Cavities by an elastic membrane, this pulsed apparatus operates on; the principle of using compressed air energy l.

. Its disadvantage is the leakage of air from the lower cavity of the water-air tank and, therefore, the deterioration of irrigation quality.

HajaecT.eH also has a pulse sprinkler, which includes a water-divided tank divided into two elastic cavities, an inclined

A barrel with a racking nozzle and an air pumping device made in the form of a membrane hydraulic motor whose supermembrane cavity is connected to the throat of the locking member and the submembrane cavity communicates with the atmosphere and is connected via two successively installed non-return valves with the lower cavity of the AIR TANK.

A disadvantage of the known impulse sprinkler is that its booster, the device does not provide the necessary air donation in the water-air tank, as a result, it is required to perform additional pumping by the compressor in order to increase the pressure in the tank and increase the productivity of the device.

The purpose of the invention is to improve the operational characteristics of the apparatus by improving the performance of the booster device .;

The goal is achieved by the fact that in a pulsed apparatus, which includes a tank divided into two cavities by an elastic membrane, it is inclined. barrel with nozzle, shut-off element and booster device, the latter is made in the form of a differential piston, the cavity of which is connected to the throat valve on the side of the large seat, and the cavity on the side of the small seat is in communication with the atmosphere and through a check valve to the submembrane cavity of the air-air tank.

The submembrane cavity in the air tank is equipped with a safety valve. ; .

This booster due to the differential piston

pumps air into the tank under pressure. much higher than the upper limit of the air pressure in it. Due to this device, any leakage of air from the tank is compensated for and the air pressure in it is maintained at the calculated level, which allows the apparatus to operate at any pressure values of the air in the tank.

Figure 1 shows a pulse sprinkler, figure 2 his booster device.

The device consists of an inclined shaft with a nozzle 1 (Fig. 1), a shut-off member 2, a water-air tank 3 of the chassis 4 and a booster device. The water-air tank 3 is made detachable to us and consists of a membrane 6, a perforated support 7, a 5-fold valve 8, a safety valve 9 - and submembrane cavity A. A locking member 2 fixed on the upper part of the tank includes a nozzle 10 for supplying water, a throat 11, a body 12 in which the piston 13 moves with a cuff 14 and a gasket 15. The booster device of FIG. 2) consists from the housing 16 in which the pen A differential piston 17 is placed, from the side of the big seat of which is cavity B, connected to the shut-off organ by a conduit 18, and from the side of the small seat is cavity D, connected with the tank cavity A by the duct 19. The differential piston has a spring 20 pressed to the end the cover 21 and is sealed to the body with a gasket 22 and a ring 23. In the lower part of the cavity T there is a check valve 24 with a gasket 25 and a spring 26, as well as an opening 27, jointly with the atmosphere.

The working cycle of the sprinkler pulse apparatus proceeds as follows.

Before operation, the submembrane cavity of tank A is filled with compressed air to the calculated lower pressure through the check valve 8 (Fig. 1). Then the valve is opened on the pressure network and the water flows under pressure. Through the fitting 10, the valve body 2 rises Up to the stop gasket 15 with the neck 11, blocking the water outflow into the barrel with the nozzle 1. Next, pressing the edge of the Bags 14, enters the submembrane cavity of tank B and begin to move the membrane 6 down., squeezing it in the submembrane cavity A before settlement th top pressure. The device is ready to splash. After a signal of reduced pressure in the network, the porous 13 will move downwards, opening the neck 11. Under the action of compressed air, the water with the nozzle 1 splashes out into the atmosphere. The water, the entrance to the neck 11, through the water guide 18 enters the cavity in (Fig. 2) and presses on the differential piston 17, which is sharply mixed down to the stop

With the housing 16, compressing the air in the cavity G. At the same time, the air pressure in the cavity G from the side of the small saddle is much greater than the pressure from the water. The check valve 24 under the action of pressure will open, bypassing the air through the duct 15 into the submembrane cavity of tank A and carried out pumping. A small portion of the compressed air exits through an opening 27, the diameter of which is small. And this does not affect the degree of air compression. After the end of the splash, the differential piston 17 is returned to its original position by the action of the spring 20, sucking

at the same time, through hole 27, air into the cavity of G. The sub-diagonal cavity, tank A is equipped with a safety valve 9, which is regulated to a certain upper air pressure depending on the operating mode of the apparatus. In the event of an excess air pressure, valve 9 releases excess air into the atmosphere.

An apparatus equipped with an air pumping device, made in the form of a differential piston, and a safety valve, eliminates these drawbacks, iF improves

its performance.

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Claims (2)

(5 7) Ϊ. PULSE RAINING MACHINE, including an inclined shaft with a nozzle, a water-air tank, divided into two cavities by an elastic membrane, a shut-off element and an air pumping device, was cast in order to improve the operational characteristics by increasing the productivity of the pumping device, the last made in the form of a differential piston,. the cavity of which, from the side of the large saddle is connected to the neck of the shut-off body, and the cavity from the side of the small saddle is connected to the atmosphere and through the Check valve with a submembrane cavity of the air-water tank. 2. The apparatus according to claim 1, characterized in that the submembrane cavity of the air-water tank is provided with a safety valve.