SU1273033A1 - Pulsed sprinkler - Google Patents

Abstract

PULSED RAIN EQUIPMENT, including a barrel with a nozzle, an air-water tank equipped with an internal vault rigidly connected to it, forming an intermediate cavity with its walls in the lower part, and supplying pipes with valves for supplying water and combustible mixture, an exhaust valve and an ignition device, characterized in that, in order to increase the reliability of operation, the water inlet connection is placed in the upper part of the tank and communicated with it through an intermediate cavity having narrowing in the lower part dc annular channel, wherein stvvl located on the inner arch axis and its input fluidly connected to the upper part of the intermediate chamber through the nozzle having a nozzle at the outlet. Eat HS oo oo oo

Description

The invention relates to agriculture and can be used to supply compact and sprayed jets of water for irrigation of crops.

The purpose of the invention is to increase the reliability of the pulse sprinkler.

The drawing schematically shows a pulsed sprinkler.

(The pulse sprinkler apparatus contains a tank 1 connected in the upper part by a valve 2 to a feed water supply pipe and a casing 3, forming an intermediate cavity P, including an upper B and an annular K cavity, communicating in the lower part with an annular tapering channel 4 with a water cavity H of the tank 1 and in the upper part with a bypass pipe 5, the outlet 6 of which is located coaxially at the inlet 7 of the siphon pipe 8 of the barrel 9, equipped with a jet nozzle 10 and a valve I. I. The upper working water level, the cylindrical side 12 and the upper 13 walls 3, a gas cavity G of the combustion chamber (KS) is formed, equipped with a combustible mixture supply device including an air-fuel mixer 14, a valve 15 and a manifold 16, inside which an igniter (electric spark plug) 17 is located. An exhaust gas valve 18 is installed in the combustion chamber. the upper and lower water levels and the walls 19 is a gas-water cavity P of the casing 3, equipped with a sensor 20 of the upper level, which is connected electrically with valves 2, 18 and. 15. The pulse sprinkler apparatus is equipped with pressure regulators 21 and 22, including pressure sensors 23, 24 and 25 of the cavity H and nozzles for supplying the combustible mixture and feed water associated with valves 2, 18, 11 and 15. The regulator 22 is connected to the valve 11 of the barrel 9 through the relay 26 time, and valve II - with the regulator 21 through the relay 27 time.

Pulse sprinkler apparatus operates as follows.

In the initial state, the cavities P and P and the internal cavity of the siphon tube 8 are filled with water, while the valves 2, 11 and 15 are closed, and the valve 18 is open. Under the influence of the level sensor 20, valve 18 closes, valve 15 opens, and the combustible mixture enters the manifold 16 and then into the cavity G. When the pressure in the cavity G (and the water pressure in the cavities P and H) becomes equal to the pressure of the combustible mixture (5-8 kg / cm ² ), taking into account the hydrodynamic resistance under the influence of the pressure regulator 22 from the received signals from the pressure sensors 23 and 24, the valve 15 closes and the electric candle 17 is turned on. In the combustion chamber (cavity G), the mixture ignites, the temperature and pressure increase (up to

3D — 50 kg / cm ² ) of the resulting gases. At this moment, under the influence of the regulator 22, the valve 11 opens and water under the pressure of gases from the cavity P enters the pipe 8 and then through the nozzles in the form of a high-pressure jet is supplied to the atmosphere in the desired direction. The opening of the valve 11 is carried out at a design pressure in the cavity P (H), for example, 30-50 kg / cm ² or under the influence of a regulator 22 according to the actual pressure determined by the sensor 23, or by opening the valve 11 after a design time period determined by the relay 26 , after turning on the candle 17, i.e. from the start of ignition of the combustible mixture. At the inlet 7 of the pipe 8 and at the outlet 6 of ^{15 of the} pipeline 5, a vacuum is formed when water is supplied (low pressure region), therefore, water enters the barrel 9 both from the cavity P and from the pipeline 5 (cavity P), since the coax ₂₀ located nozzles 5 and 8 (6 and 7) are made in the form of an ejector. In the latter case, water flows along the N – 4 – K – B – 5–6–7–8 circuit. Thus, in the process of expanding and supplying water to the trunk 9, the hens 12 and 13 of the compressor station are constantly washed by a 25 'high-speed stream of cold water, that is, they are intensively cooled, which eliminates overheating of the walls of the compressor station. Distribution of water entering the barrel from the cavities P and P, determined by the characteristics formed nozzles 6 and 7 ezhek torus ³⁰ and the hydraulic channel resistance of the pipeline 4 and 5, including the cavity K and B. In the expansion process gas water level in the cavity P decreases. In this case, the upper layers heated by contact with hot gases are discharged ³⁵ through the barrel, after which partially exhaust gases are also discharged through the barrel. When the pressure in the cavity P (H) becomes equal to or lower than the pressure of the feed water, under the influence of the regulator 21, 40 valves 18 and 2 will open, after which, after the estimated time period determined by the relay 27, the valve 11 is closed, due to which the pipe 8 is filled to level 'higher than COP. As a result, the exhaust gases are vented, through the valve 18 and '45, into the cavity P, cold, nutritious water enters, which is vented into the cavities P and H both through the cavity K and channel 4, and through the cavity B and pipe 5 (6), due to which further cooling of the walls 12 and 13 of the combustion chamber is provided. Due to the water pos ⁵⁰ tupleniya its level rises, and the upper layers are cold have been filled with feed water. When water reaches the upper level under the influence of the sensor 20, valves 2, 18 are closed and valve 15 opens. The pulse ^5th sprinkler is returned to its initial state, and the duty cycle of water supply through nozzles 10 is repeated.

Claims (1)

PULSE RAINING UNIT, including a barrel with a nozzle, an air tank equipped with an internal vault rigidly connected to it, forming an intermediate cavity with the walls of the tank communicating with its cavity in the lower part, and inlet pipes with valves for supplying water and a combustible mixture, an outlet valve and ignition device, characterized in that, in order to increase reliability, the water supply pipe is placed in the upper part of the tank and communicates with it through an intermediate cavity having a tapering in the lower part to tsevoy channel, while the barrel is axially inner arch and its input fluidly connected to the upper part of the intermediate chamber through the nozzle having a nozzle outlet.