RU2818362C1 - Sprinkler - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: sprinkler comprises base (1), rotary bushing (13), sealing spring (14), housing (2) with hollow rod (3), stop (4) and shafts (5 and 6), main (7) and additional (8) nozzles and rocker (9) with axial guide (12), splitter (10) and reactive blade (11). Rocker (9) is made with hydraulic channel (15) and is equipped with auxiliary nozzle (16) with side outlet (17). Inlet (18) of hydraulic channel (15) is located opposite outlet hole (19) of hollow rod (3), and outlet (20) is connected by means of thread to auxiliary nozzle (16). Hollow rod (3) in upper part is equipped with rubber limiter (21) with skirt (22) at the bottom and collar (23) at the top. Axial guide (12) in the lower part is made in the form of skirt (24), and in the upper part – in the form of cylindrical protrusion (25) located inside skirt (22) of rubber limiter (21).

EFFECT: simplification of the design, increasing reliability and efficiency, simplification of the design of the mechanism for smoothly changing the rotation speed of the sprinkler.

1 cl, 8 dwg

Description

Sprinkler refers to agriculture, in particular to sprinkler systems for irrigating crops through various pressure irrigation systems and irrigation machines by sprinkling.

A known medium-jet sprinkler DKSh-64-00.060 of the Volzhanka sprinkler machine contains a fitting (base) and a body with a spring-loaded rocker arm, main and auxiliary barrels and nozzles, connected and decompressed together by means of a rotary sleeve and a sealing spring with the possibility of axial rotation [“ Handbook on irrigation mechanization" edited by B.G. Shtepa, UDC 631.347(031), Page. 113, Fig. 34, Moscow “KOLOS” 1979].

The disadvantage of this sprinkler is the complexity of the design of the rotating mechanism, the consumption of materials and steps when changing the rotation speed of the sprinkler due to the use of a return spring of the rocker arm. The return spring leads to an increase in the frequency of impacts of the rocker arm against the stop on the body, which reduces the flight range of the jet and the efficiency of the sprinkler. When the rocker arm deviates from the stop, there is a constant increase in the torque force of the return spring, which limits the deviation of the rocker arm from the stop and the high frequency of its impacts on the stop.

A sprinkler is known, including a base, a rotary sleeve, a sealing spring, a body with a hollow rod, a stop and barrels, a main and additional nozzles and a rocker arm with a divider and a jet blade, in which, in order to simplify the design, increase reliability, and ensure a smooth change in rotation speed sprinkler, the rocker is equipped with a flexible tube and a mechanism for changing the angle of inclination of the end of the flexible tube to the axis of the main nozzle, made on the back side of the jet blade, while one end of the flexible tube is connected to a hollow rod, forming a loop, and the other end is connected to a mechanism for changing the angle of inclination the end of a flexible tube, made in the form of a cylindrical part with a transition to a guide groove and a control screw installed perpendicular to the axis of the cylindrical part [Patent No. 2795 298, cl. A 01 G 25/00, B 05 B 3/04, publ. in Bulletin No. 13 dated 05/02/2023, prototype].

The disadvantages of this sprinkler are the complexity of the design and low reliability due to the supply of the rocker with a flexible tube and the connection of one end with a hollow rod forming a loop, and the other end with a mechanism for changing the angle of inclination of the end of the flexible tube to the axis of the main nozzle, made on the back side of the jet blade . The presence of a loop of a flexible tube when connected to a hollow rod prevents the maximum possible deviation of the rocker arm from the stop on the body of the sprinkler, increases the frequency of impacts of the rocker against the stop, reduces the flight range of the jet and reduces the efficiency of the sprinkler. The connection unit of the flexible tube loop with the hollow rod does not protect the rubbing part of the hollow rod with the axial guide of the rocker arm from atmospheric influences and the aggressive environment of the composition of irrigation water, which leads to a decrease in the reliability of the sprinkler. The design of the unit for smoothly changing the rotation speed of the sprinkler is complex.

The purpose of the proposed invention is to simplify the design, increase reliability and efficiency, and simplify the design of the mechanism for smoothly changing the rotation speed of the sprinkler.

This goal is achieved by the fact that in a sprinkler including a base, a rotary sleeve, a sealing spring, a body with a hollow rod, a stop and barrels, a main and additional nozzles and a rocker arm with an axial guide, a divider and a jet blade, the rocker arm is made with a hydraulic channel and is equipped with an auxiliary nozzle with a side outlet, while the inlet of the hydraulic channel is located opposite the outlet of the hollow rod, and the outlet is connected to the auxiliary nozzle by means of a thread, the hollow rod in the upper part is equipped with a rubber limiter with a skirt at the bottom and a shoulder at the top, the axial guide at the bottom is made in the form skirt, and in the upper part - in the form of a cylindrical protrusion located in the skirt of the rubber stop.

The essence of the proposed invention is shown in the figures, where Fig. 1 is a general view of the sprinkler; Figure 2 is a general cross-sectional view of the sprinkler; Figure 3 - node A in Figure 2; Fig.4 - view A in Fig.1; Figure 5 is a view A with a section B - B in Figure 1; Fig.6 - view of the sprinkler on the stand in operation; Fig.7 - view B of the sprinkler in Fig.6 during operation and the rocker hitting the support and Fig.8 - view B of the sprinkler in Fig.6 during operation after throwing the rocker counterclockwise.

The sprinkler consists of a base 1 and a body 2 with a hollow rod 3, a stop 4, barrels 5 and 6, main 7 and additional 8 nozzles and a rocker arm 9 with a divider 10, a jet blade 11 and an axial guide 12 (Fig. 1). The base 1 and the body 2 are connected and pressed away from each other by means of a rotary sleeve 13 and a sealing spring 14 with the possibility of axial rotation (Fig. 2). The rocker arm 9 is made with a hydraulic channel 15 and is equipped with an auxiliary nozzle 16 (Figs. 3 and 4) with a side outlet 17, while the inlet 18 of the hydraulic channel 15 is located opposite the outlet 19 of the hollow rod 3, and the outlet 20 is threaded to the auxiliary nozzle 16 , the hollow rod 3 in the upper part is equipped with a rubber limiter 21 with a skirt 22 at the bottom and a shoulder 23 at the top, the axial guide 12 in the lower part is made in the form of a skirt 24, and in the upper part in the form of a cylindrical protrusion 25 located in the skirt 22 of the rubber limiter 21( Figures 2,3 and 5).

To operate the sprinkler, it is installed on the stand 26 by means of the base 1 (Fig. 6), the angle of inclination of the axis of the side exit 17 of the auxiliary nozzle 16 is set in the range of 0-90° to the horizontal plane and directed against the action of the jet blade 11.

The sprinkler works (Figure 1) as follows. Water under pressure through the rack 26 and the rotary sleeve 13 enters the cavity of the body 2 and passing through the trunks 5 and 6, the main nozzle 7, auxiliary nozzle 8, hollow rod 3, hydraulic channel 15 and auxiliary nozzle 16 with a side outlet 17 is thrown onto the irrigated field in the form of rain (Fig. 3 and 6). In this case, the jet stream flowing from the side exit 17 of the auxiliary nozzle 16 brings from any initial position the rocker arm 9 with the divider 10 and the jet blade 11 to the jet flowing from the main nozzle 7 (Fig. 6). The divider 10 is drawn into the stream and produces a blow with the rocker arm 9 against the stop 4, as a result of which the body 2 rotates at a certain angle clockwise. Next, the jet, bypassing the divider 10, hits the jet blade 11 and throws the rocker 9 counterclockwise at an angle of more than 300° relative to the axis of the main barrel 5, overcoming only the constantly acting force of the jet stream flowing from the side exit 17 of the auxiliary nozzle 16 (Fig. 8), since the jet passing from the hole 19 of the hollow rod 3 into the hydraulic channel 5 does not create any resistance for maximum movement of the rocker arm counterclockwise. Next, the rocker 9 performs a reciprocating movement and periodically hits the stop 4 with a small frequency , which causes the body 2, pressed from the base 1 by means of a sealing spring 14 and a rotary sleeve 13, into axial rotation, as a result of which the sprinkler irrigates the area in a circle with maximum jet flight range and high efficiency.

The skirt 24 covering the base of the hollow rod 3 and the cylindrical protrusion 25 located in the skirt 22 of the rubber limiter 21 eliminate the effects of precipitation and the aggressive environment of irrigation water on the operation of the pair of hollow rod 3 and the axial guide 12, which increases the reliability of the sprinkler (Fig. 3 ).

The collar 23, located in front of the entrance 18 of the hydraulic channel 15, together with the hollow rod 3, forms a glass with an axial hole 19 at the bottom (Fig. 3). The flow sections of the hole 19 and the hydraulic channel 15 are selected in such a way that the water flowing from the hole 19 enters the hydraulic channel 15 and, under the influence of high-speed pressure, is freely thrown onto the irrigated field in the form of rain through the side exit 17 of the auxiliary nozzle 16, creating an ejection at the inlet 18 . Next, possibly formed drops of water around the perimeter of the inlet 18 flow into the glass created by the collar 23, and a stream of water flowing under pressure from the hole 19 attracts water from the glass and feeds it back into the hydraulic channel 15, as a result of which the flow of water through the top is prevented. the edge of the collar 23, which ultimately ensures a sealed, non-contact connection of the hollow rod 3 with the hydraulic channel 15 and the elimination of any resistance when the rocker arm 9 rolls on the hollow rod 3.

Changing the rotation speed of the sprinkler (changing the frequency of impacts of the rocker arm 9 on the stop 4) is achieved by changing the angle of inclination of the axis of the side outlet 17 in relation to the horizontal plane through the auxiliary nozzle 16, rotating it clockwise or counterclockwise within 0 - 90°. The maximum rotation speed of the sprinkler corresponds to the angle of inclination of the axis of the side outlet 17 to the horizontal plane of 0°, when the stream flowing from the side outlet 17 has the maximum effect on the rocker arm 9 and increases the frequency of its impacts on the stop 4. With an increase in the angle of inclination of the axis of the side outlet 17 to the horizontal plane the rotation speed of the sprinkler gradually decreases and reaches zero at an angle of 90°, since the stream flowing from the side outlet 17 no longer has a return effect on the rocker arm 9 and leads to the cessation of its impacts on the stop 4.

Thus, by excluding from the design of the return spring a rocker arm with stepwise adjustment and a flexible tube with a mechanism for changing the angle of inclination of its end to the axis of the main nozzle, made on the reverse side of the jet blade (compared to the analogue and prototype) and making a rocker arm 9 with a hydraulic channel 15 and supplying an auxiliary nozzle 16 with a side outlet 17, placing the inlet 18 of the hydraulic channel 15 opposite the outlet 19 of the hollow rod 3, and connecting the outlet 20 with the auxiliary nozzle 16 by means of a thread, providing the hollow rod 3 in the upper part with a rubber limiter 21 with a skirt 22 at the bottom and collar 23 at the top, and by making the axial guide 12 in the lower part in the form of a skirt 24, and in the upper part in the form of a cylindrical protrusion 25 located inside the skirt 22 of the rubber stop 21, a simplified design was achieved, the reliability and efficiency of the sprinkler was increased and the design of the smooth change mechanism was simplified the speed of its rotation. A smooth change in the rotation speed of the sprinkler is achieved by easily smoothly changing the angle of inclination of the axis of the side outlet 17 relative to the horizontal plane through the auxiliary nozzle 16, screwing or unscrewing it along the thread at the outlet of the hydraulic channel 15.

In 2022, in the workshops of the Federal State Budgetary Institution All-Russian Research Institute "Raduga", an experimental model of a sprinkler was manufactured and tested in field conditions for watering an area with perennial grasses. The test showed its performance, high reliability and efficiency, as well as convenience when changing the rotation speed. The connecting size of base 1 was chosen G 1", the diameters of the flow area of the main and auxiliary nozzles are 6 mm and 3.2 mm, respectively, and their inclination to the horizon is 27° and 22°. The diameters of the flow area of the hole 19 and the hydraulic channel were 2.5 mm and 4 mm, respectively. The operating pressure of the sprinkler was set to 0.35 MPa, while the rotation period of the sprinkler was about 3 minutes, and the radius of action of the jet along the outer drops was more than 17 m. During operation of the sprinkler, not a single drop of water leakage was observed from the connection of the hollow rod 3 with the hydraulic channel 15.

The application of the proposed invention in agriculture will increase the reliability and efficiency of crop irrigation systems and the productivity of agricultural production.

Claims (1)

A sprinkler including a base, a rotary sleeve, a sealing spring, a body with a hollow rod, a stop and barrels, a main and additional nozzle and a rocker arm with an axial guide, a divider and a jet blade, characterized in that the rocker arm is made with a hydraulic channel and is equipped with an auxiliary nozzle with side exit, while the inlet of the hydraulic channel is located opposite the outlet of the hollow rod, and the outlet is connected to the auxiliary nozzle by means of a thread, the hollow rod in the upper part is equipped with a rubber stop with a skirt at the bottom and a shoulder at the top, the axial guide at the bottom is made in the form of a skirt, and in the upper part - in the form of a cylindrical protrusion located inside the skirt of the rubber stop.