RU218966U1 - Sprinkler - Google Patents

Abstract

Sprinkler refers to agriculture, in particular to sprinklers for irrigating crops through various pressure irrigation systems and irrigation machines by sprinkling. The purpose of the proposed utility model is to simplify the design and increase efficiency by increasing the range of the jet and the irrigation area of the irrigated area. The essence of the proposed utility model is that in a sprinkling apparatus, including a base, a body with a rod, a main and additional trunks, a main and additional nozzles and a rocker with a stop and a jet maker, the jet maker is installed at the end of the rocker according to the principle of operation of a pendulum swing and is made in the form of a cylinder with a lever, a guide rod and rolling angle limiters, the body rod is made hollow with the possibility of axial rotation and is fixedly connected to the rocker cavity with an outlet channel, while the cylinder of the jet former is connected to the outlet channel of the cavity by means of a flexible tube with a slight interference rocker and fixed with a latch below the guide rod of the cylinder, the additional barrel is equipped with a water flow cutter with a flexible petal valve and a retractable stop with a separating membrane and a spring-loaded stop installed with its upper end below the level of the rocker stop. By installing at the end of the rocker a jet stream former operating on the principle of a pendulum swing and made in the form of a cylinder with a lever, a guide rod and cylinder rolling angle limiters 10 and supplying an additional barrel 4 with a water flow cutter 20 with a flexible petal valve 21 and a retractable stop 22 with a dividing membrane 23, return spring 24 and spring-loaded stop 25, installed by the upper end 26 below the level of stop 8 of rocker arm 7, the exclusion of the return spring of rocker arm 7 from the design of the sprinkling apparatus has been achieved, the frequency of impacts of the rocker arm against stop 25 of body 2 has been reduced (the rolling angle of the rocker arm is more than 300° ) and thereby increased the range of the jet and the irrigation area of the serviced area, which leads to a simplification of the design, increase in efficiency and creation of ease of use. The application of the proposed utility model in agriculture will increase the reliability and efficiency of crop irrigation systems and increase agricultural production. 8 ill.

Description

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

Known medium-jet sprinkling apparatus DKSH-64.00.060 sprinkling machine "Volzhanka", containing a fitting (base) and a housing with a stop, a spring-loaded rocker arm, main and auxiliary shafts and nozzles, connected and unclenched by means of a rotary sleeve and a sealing spring with the possibility of axial rotation ["Handbook of irrigation mechanization" edited by B.G. Shtepy, UDC 631.347(031), p. 113, Fig. 34, Moscow "KOLOS", 1979].

The disadvantage of this sprinkler is the complexity of the design of the rotary mechanism, inconvenience in operation and low efficiency due to the use of a return spring of the rocker.

Known sprinkling apparatus Yuzuak ATOM42 FC, including a base, a body with a main and auxiliary shafts and nozzles, stop and spring-loaded rocker with pendulum wedge-shaped deflector mounted on the rocker against the auxiliary nozzle. [2019-2 Price List. Yuzuak Irrigation Systems, www.yuzuak.com (Yuzuak Makina ith, Turkey), prototype]

The disadvantages of this sprinkler are the complexity of the design and low efficiency due to the use of a rocker return spring. The use of a return spring reduces the angle of deflection of the rocker from the stop on the body (the rocker's rolling angle is not more than 45°), which leads to an increase in the frequency of hitting the rocker against the stop and a reduction in the jet flight range, as a result of which the irrigation area of the site is reduced and the efficiency of the sprinkler is reduced. The maximum range of the jet is achieved when the main trunk of the sprinkler is at rest. To achieve the maximum range of the jet, it is necessary to reduce the frequency of impacts of the rocker against the stop so that the time between impacts tends to the time of flight of the jet from the main nozzle to the maximum range, as when the main barrel is at rest.

The purpose of the proposed utility model is to simplify the design and increase efficiency by increasing the range of the jet and the irrigation area of the irrigated area.

This goal is achieved by the fact that in the sprinkling apparatus, which includes a base, a body with a rod, main and additional trunks, a main and additional nozzles and a rocker arm with an emphasis and a jet stream former, the jet stream former is installed at the end of the rocker according to the principle of operation of a pendulum swing and is made in in the form of a cylinder with a lever, a guide rod and rolling angle limiters, the housing rod is made hollow with the possibility of axial rotation and is fixedly connected to the rocker cavity with an outlet channel, while the jet stream generator cylinder is connected to the rocker cavity outlet channel with a slight tightness by means of a flexible tube and fixed with a latch below the guide rod of the cylinder, the additional barrel is equipped with a water flow cut-off valve with a flexible petal valve, and a retractable stop with a separating membrane, a return spring and a spring-loaded stop installed with its upper end below the level of the rocker arm stop.

The essence of the proposed utility model is shown in the figures, where Fig.1 - General view of the sprinkler; Fig.2 - General view of the sprinkling apparatus in section; Fig.3 - view A in Fig.1 with a slight deviation of the rocker from the spring-loaded stop; Fig.4 - node A in Fig.2; Fig.5 - General view of the sprinkler on the riser during the initial phase of work; Fig.6 - view B of the sprinkler in Fig.5 when moving the rocker counterclockwise; Fig. 7 is a view of the sprinkler during operation in the operating mode, when the rocker already interacts with the spring-loaded stop by means of the stop, and Fig. 8 shows view B of the sprinkler in Fig. 7 when the rocker is moved counterclockwise.

Sprinkler apparatus (Figures 1 and 2) consists of a base 1, a body 2 with the possibility of axial rotation, with a main 3 and an additional 4 trunks, a main 5 and an additional 6 nozzles and a rocker arm 7 with a stop 8 and a jet former 9. Jet jet former 9 (Figure 4) is installed at the end of the rocker arm 7 according to the principle of operation of a pendulum swing and is made in the form of a cylinder 10 with a lever 11, a guide rod 12 and rolling angle limiters 13 and 14 (Figure 3). The stem of the body 15 is made hollow with the possibility of axial rotation and is fixedly connected to the cavity 16 with the outlet channel 17. The cylinder 10 is connected to the outlet channel 17 with a slight interference fit by means of a flexible tube 18 and is fixed by a latch 19 below the guide rod 12 (Fig.3, 6 and 8 ), which provides the extreme left and extreme right stable position of the cylinder 10. The additional barrel 4 is equipped with a water flow cut-off 20 with a flexible petal valve 21 and a retractable stop 22 with a separating membrane 23, a return spring 24 and a spring-loaded stop 25, installed by the upper end 26 below the level stop 8 rocker 7 (Figure 2). The submembrane cavity of the separating membrane 23 is connected by a communication channel 27 to the inlet channel 28 of the water flow cutter 20 according to the principle of the ejector design (Figure 2).

.The jets of water flowing from the nozzles of the sprinkler apparatus (Fig.6 and 8), in the drawings, are conventionally shown with the sign

.

For the operation of the sprinkler, it is installed on the riser 29 by means of the base 1 (Figures 5 and 7).

Before starting the sprinkler into operation, the end of the flexible tube 18 together with the cylinder 10 can be both in the extreme right stable position and in the extreme left stable position. Consider the case when the end of the flexible tube with the cylinder 10, for example, accidentally ended up in the leftmost stable position, as shown in Fig.3 and 6.

Works sprinkler (Figure 1 and 2) as follows. Water under pressure through the riser 29 and the base 1 enters the cavity of the housing 2 and passing through the shafts 3 and 4, the main nozzle 5, the auxiliary nozzle 6, the hollow stem 15, the cavity 16, the outlet channel 17 and the end of the flexible tube 18 is thrown onto the irrigated field in the form of rain (Fig.5). In the initial phase of increasing pressure in the cavity of the housing 2, due to the location of the end 26 of the spring-loaded stop 25 below the stop 8, and the creation of a vacuum in the submembrane cavity through the communication channel 27 by the water flow passing through the inlet channel 28 and the water flow cutoff 20, the rocker arm 7 begins to rotate continuously clockwise under the action of a jet flowing from the end of the flexible tube 18 (Fig.6). Cylinder 10 begins to gain centrifugal force to switch to the extreme right stable position upon further impact with stop 8 on spring-loaded stop 25. A sufficient clockwise rotation speed of rocker arm 7 is achieved when the water pressure in the body cavity 2 is much lower than the lower pressure of the operating pressure range of the sprinkler . A further increase in pressure in the initial phase leads to an increase in the water velocity through the water flow cutoff 20, which attracts the elastic valve 21 into the water flow and instantly (relay) closes the flow area of the additional nozzle 6. The water pressure in the submembrane cavity of the separation membrane 23 sharply increases, the spring-loaded valve 25 rises up and the end 26 comes into contact with the stop 8 of the rocker arm 7 (Fig.7). There is an impact stop 8 of the rocker 7 on the spring-loaded stop 25, resulting in the cylinder 10 with the end of the flexible tube 18 moves to the rightmost stable position, resting on the limiter of the rolling angle 14 (Fig.8). The rocker 7 under the action of the reactive force of the jet now moves counterclockwise until it hits the stop 8 on the spring-loaded stop 25, which are now constantly in the upper position when the sprinkler is operating to transfer the end of the flexible tube 18 with the cylinder 10 to the leftmost stable position. Further, the rocker arm 7 performs reciprocating motion according to the principle of operation of a pendulum swing with a rolling angle of more than 300 ° and hitting the stop 8 on the spring-loaded stop 25 from the right side, then from the left, moving the cylinder 10 with the end of the flexible tube 18 from one extreme stable position to the other extreme stable position, changing the direction of movement of the rocker arm 7 with each impact, which reduces the frequency of impacts of the rocker arm 7 with stop 8 against stop 25 and increases the range of the jet and the irrigation area of the site, therefore increasing the efficiency of the sprinkler. With each impact stop 8 on the spring-loaded stop 25, the body 2 rotates at a certain angle. The angle of rotation of the body 2 depends on the strength of the jet stream flowing out of the end of the flexible tube 18, which is adjusted using the rolling angle limiters 13 and 14. 7 counterclockwise and increase the impact force of the rocker 7 on the stop 25 when it moves clockwise, respectively, reducing the angle of inclination of the cylinder 10 by means of the rolling angle limiter 14 and increasing the inclination angle of the cylinder 10 by means of the rolling angle limiter 13. After the end of the sprinkler operation, the water pressure in the cavity of the housing 2 drops to atmospheric, the petal valve 21 breaks away from the additional nozzle 6 and takes its original position, and the spring-loaded stop 25 under the action of the return spring 24 goes down and makes the sprinkler ready for the next start-up (Fig.2) .

In this design of the sprinkler in comparison with the analogue and the prototype, where with an increase in the operating pressure, it is necessary to manually increase the force of the return spring of the rocker to rotate the sprinkler, the change in the impact force of the rocker 7 on the stop 25 occurs automatically with an increase in the working pressure, which leads to convenience when it operation.

Thus, by installing at the end of the rocker a jet stream former operating on the principle of a pendulum swing and made in the form of a cylinder with a lever, a guide rod and cylinder rolling angle limiters 10 and supplying an additional barrel 4 with a water flow cutter 20 with a flexible petal valve 21, and a retractable stop 22 with a separating membrane 23, a return spring 24 and a spring-loaded stop 25, installed by the upper end 26 below the level of stop 8 of the rocker arm 7, the exclusion of the return spring of the rocker arm 7 from the design of the sprinkler was achieved, the frequency of hitting the rocker against the stop 25 was reduced (the rolling angle of the rocker arm is more 300°) and thereby increased the range of the jet and the irrigation area of the serviced area, which leads to a simplification of the design, increase in efficiency and creation of ease of use.

The water flow cut-off 20 and the retractable stop 22 are intended only for entering the rocker arm 7 into the rolling mode in the initial phase of increasing the water pressure in the body cavity 2.

In the conditions of the workshops of the FGBNU All-Russian Research Institute "Raduga" in 2023, an experimental sample of the sprinkler was made and tested on the stand in the laboratory. The test showed its performance, reliability and ease of use. The connecting size of the base 1 was chosen as G 1", the diameters of the flow section of the main and auxiliary nozzles, respectively, 6 mm and 2.5 mm. As a flexible tube 18, a silicone tube with an outer diameter of 6 mm and a wall thickness of 1.5 mm was used. The operating pressure of the sprinkler was set to 0.35 MPa, at which the frequency of rocker impacts on the stop was significantly lower than the frequency of impacts of the prototype.

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

Claims (1)

Sprinkler, including a base, a body with a rod, main and additional barrels, main and additional nozzles and a rocker with a stop and a jet maker, characterized in that the jet maker is installed at the end of the rocker according to the principle of operation of a pendulum swing and is made in the form of a cylinder with lever, guide rod and rolling angle limiters, the housing rod is made hollow with the possibility of axial rotation and is fixedly connected to the rocker cavity with the outlet channel, while the cylinder of the jet former is connected with a flexible tube with a slight interference to the outlet channel of the rocker cavity and is fixed by a latch below the guide of the cylinder rod, the additional barrel is equipped with a water flow cut-off valve with a flexible petal valve and a retractable stop with a separating membrane, a return spring and a spring-loaded stop installed with its upper end below the level of the rocker arm stop.

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