SU1787375A1 - Sprinkling apparatus - Google Patents

Description

The invention relates to the field of agriculture, in particular to machines and devices for artificial irrigation by sprinkling of crops.

Known sprinkler apparatus, including a stationary housing, a barrel with a nozzle and a rotation mechanism consisting of worm gears, a turbine and a shaft.

The disadvantage of this sprinkler is the low quality of rain distribution over the irrigated area.

A sprinkler apparatus is known, including a barrel with a nozzle fixed body mounted on the pressure pipe of the sprinkler machine and a rotation mechanism made in the form of a turbine mounted on the nozzle kinematically connected through an intermediate gear to the shaft of the worm gear, the wheel of which is mounted on the housing.

The disadvantage of such a sprinkler apparatus is also the low quality of rain distribution over the irrigated area when it is used on a multi-support sprinkler of circular action in the form of a mismatch in the technology of operation of the machine and the sprinkler.

The aim of the invention is to ensure uniform irrigation when using sprinklers on multi-support sprinkling machines of circular action.

The specified goal is achieved by that. that in the known design of a sprinkler apparatus containing a base, a barrel with a nozzle and a rotation mechanism including a turbine and two worm gears connected by a shaft, the drive worm gear wheel is eccentrically fixed to the apparatus body, and its shaft is spring-loaded relative to the barrel. Comparative analysis with the prototype allows us to conclude that the inventive sprinkler apparatus differs in that the worm gear wheel is eccentrically mounted on the apparatus body, and its shaft is spring-loaded relative to the barrel. * Thus, the claimed rain & 'and the apparatus meet the criterion but not.' · '

Figure 1 shows a General view of the sprinkler; figure 2 is a General view of the sprinkler; in Fig. 3 - plots of the distribution of rain along the irrigation radius of the sprinkler when working at the position (curve 13) and in motion (curve 14), and Fig. 4 shows a graph of the distribution of water flow along the length of the machine, where the straight line (15) and step (16) lines, respectively, the theoretical and actual distribution of water flow along the length of the machine.

The sprinkler apparatus contains a fixed housing (not shown), a barrel 1 with a nozzle 2 and a rotation mechanism consisting of a turbine 3 of the worm gear 4, a shaft 5, a worm 6 and a gear 7. The shaft 5 is connected to the barrel 1 by a spring 8. The gear 7 is fixed eccentric on the body of the device. Sprinkling apparatuses 9 are installed on a multi-support sprinkling machine of circular action, including a fixed support 10, pressure pipe 11, based on self-propelled carts 12.

Sprinkler apparatus works as follows.

Water under pressure through the barrel 1 and nozzle 2 is discharged into the irrigated field in the form of rain. The jet of water at the exit of the nozzle 2 rotates the turbine 3 and its rotation is transmitted through the intermediate gear 4 and the shaft 5 to the worm 6, which, running around the gear 7; provides rotation of the barrel 1. The engagement between the worm 6 and the gear 7 is provided by the spring 8. The eccentric arrangement of the gear 7 provides an uneven rotation of the barrel 1, which allows for the distribution of water flow along the length of the pressure pipe close to 5 theoretical. The law of change of rotation frequency of the sprinkler is determined from the ratio:

ω ^{1 / s} where p _s (d, y?) is the distribution of rain intensity on the soil surface by a single, fixed at a point sprinkler device Gtri rotation frequency ωι = 1 1 / s, m / s;

ρίμ.φ) - distribution of rain intensity by the sprinkler, necessary to obtain a uniform distribution on the soil when the sprinkler 20 is moving, m / s;

ω (φ) is the desired, depending on the rotation angle of the sprinkler, rotation frequency, 1 / s;

μ, φ - polar coordinates with a pole at the 25th point - installation of the sprinkler.

The minimum gear ratio should be when the sprinkler barrel 1 is positioned towards the fixed support 10 and the maximum - when the direction is 30 in the opposite direction.

Claims (1)

Claim A sprinkler apparatus, including a barrel with a nozzle, a fixed housing mounted on the pressure line of the sprinkler machine, and a rotation mechanism made in the form of a turbine mounted on the nozzle, kinematically connected through an intermediate gear to a shaft of a gear reducer, the wheel of which is mounted on the housing, characterized in that, in order to ensure uniform irrigation when using devices on multi-support sprinkling machines of round action, the worm gear wheel is mounted on the appar housing It is the eccentric, and its shaft is spring-loaded relative to the barrel. FIG. i Phig g Fig 5