SU1658914A1 - Sprinkling apparatus - Google Patents

Abstract

The invention relates to agriculture and can be used for irrigating agricultural crops. The purpose of the invention is to improve the uniformity of irrigation in the wind and to improve the quality of the floor and willow areas of a complex configuration. The nozzle 6 of the sprinkler is equipped with a sleeve 10 of elastic material and a diaphragm 9. covering the sleeve. The diaphragm 9 is kinematically associated with the sail sensor 8. The sprinkler is equipped with a copier 3. mounted on the base by means of an elastic suspension. The rotation driving mechanism is made in the form of an impeller 14 with blades 15 of variable cross section. The deviation of the sail sensor 8 or a change in the position of the diaphragm 9 from the copier 3 changes the outlet of the nozzle 6. This allows the flow of water from the apparatus to be changed. The variable cross section of the blades 15 allows the rotational speed of the apparatus to be varied. 1 hp f-ly, 3 ill., A g ё aO ate 00 O Ј Figure 1

Description

The invention relates to agriculture and can be used for irrigation of agricultural crops, including runoff from livestock farms.

The purpose of the invention is to improve the uniformity of irrigation in the wind and improve the quality of irrigation of areas of complex configuration.

Figure 1 shows the structure of the apparatus and the scheme of its operation; Fig. 2 is a section of the impeller along the axis of rotation, section A-A in Fig. 1; on fig.Z - nozzle, the cross section of the diaphragm.

The sprinkler consists of a base 1 on which a copier 3 is fixed by means of an elastic suspension 2. The apparatus also includes a housing 4, a barrel 5 and a swiveling nozzle 6. A sail sensor 8 is fixed to the nozzle 6 on the axle x 7 diaphragm 9 with variable cross-section along the circumference of the sleeve 10 of the elastic material. The drive lever 11 of the diaphragm 9 is connected by means of a cable 12 to a copier 3 or, as shown by a dotted line in FIG. 1, with the body 4 of the apparatus by means of a bracket 13 fixed on it. case 4. Above the nozzle 6 of the apparatus installed the impeller 14 of the drive mechanism of rotation of the barrel of the apparatus with blades 15.

The device works as follows.

The apparatus is used without the need to change the area it irrigates depending on the configuration of the site. In this case, the draft 12 is connected to the body of the apparatus 4 by means of a bracket 13 or with a copier 3, which in this case should be in the form of a circle.

When the apparatus is working against the wind, the sail sensor 8 deflects the nozzle 6 down. At the same time, the thrust bar 12 acts on the drive lever 11 and opens the diaphragm 9. At the same time, the sleeve 10 of elastic material is pressed against the body of the nozzle 6, increasing its working diameter (installation of the sleeve 10 is necessary to reduce the hydraulic resistance). Thus, the consumption of the sprinkler and the range of its jet are increased,

When the nozzle 6 is deflected downward, the blades 15 of the impeller 14 are immersed in it to a lesser depth. At the same time, the rotational speed of the impeller decreases, since at approximately equal linear velocity of the jet the torque of the impeller relative to the axis of the impeller increases. This leads to

slowing down the speed of rotation of the body 4 of the apparatus around its base 1.

Thus, when the apparatus is working against the wind, the demolition of the artificial Rain

it is compensated by a downward inclination of the jet, an increase in the flow rate of the apparatus and a deceleration, the speed of its rotation. In addition, due to the smaller immersion of the blades 15 of the impeller 14 in the jet, they cut off a smaller

0 flow rate for moistening the area nearby to the apparatus (due to the demolition of the artificial rain, additional moistening is required less than in calm weather).

5All this allows for smaller limits.

deflect the jet, which reduces hydraulic resistance due to transverse circulation in the flow at its turn.

When the apparatus is operating in the wind of sail0, sensor 8 deflects nozzle 6 upwards. At the same time, the thrust ha 12 acts on the actuator lever 11 and reduces the cross-sectional area of the diaphragm 9. At the same time, a shaft 10 of elastic material is pressed from the nozzle body.

5 6, reducing its working diameter. Thus, the flow rate of the apparatus and the range of its jet are reduced.

When the jet is deflected upwards, the impeller blades 14 are immersed in it by a large

0 depth, and compensation for a reduction in torque due to a decrease in its shoulder occurs due to an increase in the blade cross-sectional area (by changing the shape of the blades, it is possible to change the rotation speed

5 apparatus within the required limits, ensuring uniform irrigation with a change in the angle of inclination of the jet with a simultaneous change in its flow rate). The length of the working part of the blades 15 of the impeller 14, is equal to the arc.

0 formed by a radius equal to the distance from the axis of rotation of the nozzle of the apparatus to the axis of rotation of the impeller 14, and the angle between the extreme lower and extreme upper positions of the nozzle b of the apparatus provides

5, the constant occurrence of the blades 15 in the jet with any deviation thereof, i.e. provides rotation of the device with any deviations of its nozzle 6.

Thus, when the apparatus operates according to

When the wind is blown, the drift of artificial rain is also compensated by tilting the jet upward, reducing the flow rate of the apparatus and changing the speed of its rotation.

The device is used for watering areas of complex configuration. In this case, the draft 12 is connected to a copier 3, the shape of which corresponds to the shape of the watered area. As the device rotates around its base 1, the copier 3 acts

through 12 on the lever arm 11 of the diaphragm 9 with a variable cross-section, changing the flow rate and range of the jet apparatus, depending on the configuration of the site.

When working against the wind, the sail sensor 8 deflects the nozzle 6 down, increasing the flow rate, the range of the jet and the speed of rotation of the vehicle. In this case, even with a fully open diaphragm, the ha 12 acts on the copier 3 and, thanks to the elastic suspension 2, moves it on the base 1. Thus, even in this case, the downward inclination of the nozzle 6 is ensured.

When working in the wind, the sail sensor deflects the nozzle 6 upwards, which is possible even with the fully closed diaphragm 9 due to the elastic suspension 2 of the copier 3.

Claims (2)

1. A sprinkler, including a base, a barrel with a swiveling nozzle, a sail-sensor mounted under the nozzle and kinematically connected to the nozzle, and a jet drive of the barrel rotation mechanism, characterized in that. in order to improve the uniformity of irrigation in the wind, the nozzle is equipped with a sleeve made of an elastic material and a diaphragm covering the sleeve, the diaphragm being made with the possibility of changing the cross section along 0 to the perimeter of the span of the sleeve and kinematically associated with the sail sensor. 2. A pop machine 1. distinguished by the fact that, in order to improve the quality of watering areas of complex configuration, it is equipped with a copying device installed by means of an elastic suspension on the base and kinematically connected with a diaphragm, the drive of the rotation mechanism being in the form of an impeller. blades 0 which have a variable cross section with a decrease in the area of their working part from the axis of rotation of the impeller to its edges. Yu Aa /four Phage.2