SU886850A2 - Watering machine - Google Patents

Description

The invention relates to agriculture and can be used for irrigation of agricultural land with water intake from drainage channels.

A well-known watering machine by ed. St. 5 No. 387675, including a pumping unit, a section pressure head pipeline and a lifting-lowering mechanism for sections [1].

A disadvantage of the known irrigation machine is that water can be taken from the drainage channel 10 only if there is an optimum water depth in the channel. Such a depth can be provided by retaining structures located at the mouths of drains and creating backwater 15 throughout the drainage. Therefore, the drainage depth should be designed for the maximum amount of backwater, which, when watering is carried out, leads to a decrease in the drainage effect of the drainage and to ‘20 flushing of the channel slopes.

The aim of the invention is to reduce the construction depth of the drainage channels and improve their reclamation effect.

This goal is achieved by the fact that 25 in the irrigation machine, which includes the pump unit, section pressure head pipe and the lifting mechanism - lowering the sections, a jumper is fixed on the intake section of the pressure pipe by means of a hydraulic cylinder, which blocks the channel in the working position.

In FIG. 1 schematically shows an irrigation machine, general view; in FIG. 2 - the same side view; in FIG. 3 - the same, top view.

The irrigation machine is installed on the chassis 1, attached to the tractor.

Its pressure pipeline consists of three pivotally connected sections 2, 3 and 4. On section 2 there is a support 5, by which the pipeline relies on the slope of the channel. The pipeline is mounted on a rotary support 6.

Hydraulic cylinders 7, 8 and 9 provide the transfer of the pipeline from the transport position to the working one and vice versa.

On the support 5, a jumper 10 is pivotally fixed, made according to the dimensions of the underwater part of the channel. Jumper creates the necessary local head of water in the channel and ensures optimum immersion of the suction device ³ stump under water horizon. Its installation in place is carried out by the hydraulic cylinder 11. The hydraulic pump 12 is connected via a pressure and drain piping 13 to a hydraulic motor 14, which rotates the pump 15, located in section 2 and equipped with a safety net 16.

a

The machine operates as follows.

Chassis 1 is installed parallel to the channel. The hydraulic cylinder 7 is turned on, raising the section 4. Then, the hydraulic cylinder 8, the rotary support 6 together with the pressure pipe rotates 90 ° in the horizontal plane.

The hydraulic cylinders 7 initially lower the section 4 all the way into the chassis frame, and then move the sections 2 and 3 in the vertical plane in the direction perpendicular to the axis of the channel. At the same time, the hydraulic cylinders 8 are turned on for pushing, as a result of which the support 5, together with the jumper 10, is placed on the slope of the channel and slides down along its surface until the jumper is put in place by pressing it into the bottom and slopes of the channel. At the same time, the impeller of the pump 15 is lowered under the water horizon and is turned on to supply water, which in sections 2 and 3 enters section 4, then to the device for distribution over the field.

To move the irrigation machine to the next position, the pump 15 is turned off, the hydraulic cylinder 11 is turned on to raise the jumper, then the hydraulic cylinders 4 are turned on to lift the sections 2 and 3, then the hydraulic cylinders 7 are used to lift the sections 4, after which the tractor moves along the channel and is installed in the desired 5th place.

The use of an irrigation machine equipped with a jumper allows to reduce the construction depth of the drainage channels, which, in turn, allows to reduce the 10 volume of earthworks by 20-25% and improves the reclamation effect of the channels.

Claims (1)

The machine works as follows. Chassis 1 is mounted parallel to the channel. The hydraulic cylinder 7 is turned on, raising the section 4. Then the hydraulic cylinder 8 swivels the bearing 6 together with the pressure pipeline turns in the horizontal plane by 90 °. The hydraulic cylinders 7 first lower section 4 up to the stop in the chassis frame, and then move in the vertical plane of section 2 and 3 in the direction perpendicular to the channel axis. At the same time, the ejection cylinders 8 are turned on, as a result of which the support 5 together with the web 10 is placed on the slope of the channel and slides down on its surface before the jumper is installed in place by pressing it into the bottom and slopes of the channel. At the same time, the impeller of the pump 15 is lowered under the water horizon and turned on to the water supply, which in sections 2 and 3 enters section 4, then into the device for distribution over the field. For the displacement of the irrigation machine, the pump 15 is turned off to the next position, the hydraulic cylinder 11 is turned on to raise the jumper, then the hydraulic cylinders 8 are turned on to lift sections 2 and 3, then the hydraulic cylinders 7 to lift sections 4, after which the machine moves the tractor along the canal and is installed in place The use of an irrigation machine equipped with a jumper reduces the construction depth of the drainage canals, which in turn reduces the amount of earthwork by 20-25% and improves the reclamation effect of the canals. The formula of the invention Polivna car by author. St. 387675, characterized in that, in order to reduce the construction depth of the drainage channels and improve their meliorative effect, a jumper is fixed on the intake section of the discharge pipe by means of a hydro-cylinder, in the working position the channel is overlapping. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 387675, cl. A 01G 25/09, 1973. iO 15 I I FIG. 2 ) ± ri 1Z