RU2562214C2 - Method of movement of multitower sprinkling machine of circular action in irrigation of fields of square or rectangular configuration (versions) - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method comprises movement of multitower sprinkling machine with a constant bandwidth of irrigation in a circle around the vertical axis of symmetry of the hydrants located at a distance from each other, equal to the length of the machine, when moving from an initial position the direction of rotation around the vertical axes of symmetry of the hydrants is maintained, and return of the sprinkling machine to the initial position is carried out on the adjacent, previously not irrigated band. According to another embodiment, the sprinkling machine rotation is performed around the vertical axes of symmetry of the hydrants clockwise, then the movement of the machine is repeated counter-clockwise around the vertical axes of symmetry of the hydrants of the additional row, which are located on the ends of the branches of the water-supply network opposite the main hydrants at a distance equal to the length of the sprinkling machine, at that the general direction of movement along the irrigation band is maintained.

EFFECT: improvement of quality of irrigation.

2 cl, 5 dwg

Description

The invention relates to agriculture, in particular to irrigated agriculture, and can be used for irrigation of fields of various configurations mainly circular irrigation machines.

A known method of moving multi-support sprinkling machines of circular action models "Frigate", "Kuban-LK", "Valley" and others (Huseyn-Zade, S.X. Multi-sprinkler sprinklers / S.X. Huseyn-Zade, L.A. Perevezentsev, VI Kavalenko, VG Lutsky. - M .: Kolos, 1984. - S.151-154) with the beginning of movement in a circle by rotation around the vertical axis of symmetry of the hydrant or clockwise or counterclockwise with a return to the technological road and the subsequent movement of the water supply pipeline with an energy tool on the wheels of the support trolleys by turning them from in the process of moving 90 ° to the next hydrant in a closed water supply network.

The disadvantages of the described method for moving multi-support sprinkling machines of circular action (reversible with an electric drive and non-reversible with a hydraulic drive) include the large labor costs for moving the multi-support sprinkler and installing it in a new position. For irrigated fields in the Russian Federation, this technique is practically not used. When irrigated in square fields, insurmountable annular ditches (track) remain under the support carts of the water supply pipeline.

A known method of driving an agricultural unit (SU, A.S. No. 1482554, АВВ 69/04, BI No. 20 of 05/30/1989), comprising applying a follow-up indicator to the field surface and subsequent movement of the agricultural unit along an equistant follow-up next to, in which In order to increase the productivity of processing a field of complex shape by an aggregate with a constant working width by reducing the number of turns of the aggregate, the geodetic line of the field with the longest length is selected as a follower.

The disadvantages of the described method of driving an agricultural machine with a constant width of the area, as applied to the technical problem that we are solving, include the fact that the fields for irrigation are selected with slopes of no more than 0.08 and without characteristic geodetic lines, the presence of such irrigated territories is no more than 3 %

The closest technical solution is a way to increase the cross-country ability of multi-support sprinkling machines by reducing rutting (A.S. USSR No. 1386114, A01G 25/09, BI No. 13 of 04/07/1988), in which, in order to reduce energy costs for the movement of machines and prevent of water erosion of the soil, the self-propelled supports of the sprinkler are shifted away from the hydrant along the axis of the pipeline and the machine’s pipeline is connected to the hydrant by means of a tubular insert, the ratio of the length of which to the gauge is taken at least 1.6.

The disadvantages of the described method of changing the trajectory of a multi-support sprinkler circular machine include the large labor and material costs of reinstalling the entire machine to a new position and re-rutting.

The problem to which the claimed invention is directed is to reduce rutting under the support carts of the water supply pipe of circular sprinklers, uniform distribution of artificial rain over the entire irrigated area.

EFFECT: improved quality of irrigation of fields of square or rectangular configuration with multi-support sprinkling machines of circular action.

The technical result is achieved (option 1) by the fact that in the known method of moving a multi-support sprinkler of circular action (reverse) when irrigating fields of a square or rectangular configuration, including moving a multi-support sprinkler with a constant width of the irrigation band in a circle around the vertical axis of symmetry of the hydrant. According to the invention, the movement occurs in a circle from the starting position around the vertical axis of symmetry of the hydrant installed in the hydrant row. Upon reaching the end of the water supply pipe remote from the axis of rotation, operating from the second hydrant, the water supply pipe is combined with the third hydrant and, after connecting to it, reverses the direction of movement of the multi-support sprinkler. When combining the remote end of the water supply pipeline with the subsequent hydrant in a row, the direction of movement again changes. After combining the water supply pipeline with the last hydrant, the water supply pipeline is stopped at the edge of the field and the subsequent withdrawal of the multi-support sprinkler to the initial position to the first hydrant is carried out in the reverse order by the previously irrigated array. Hydrants in a row are placed with mutual removal equal to the width of the irrigation strip of the multi-support sprinkler.

The technical result is achieved (option 2) in that in the known method of moving a reversible multi-support sprinkler of circular action when irrigating fields of a square or rectangular configuration, including moving a multi-support sprinkler with a constant width of irrigation in a circle around the vertical axis of symmetry of the hydrant from its original position around the first hydrant installed in a series of hydrants and reaching the end of the water supply pipe remote from the axis of rotation when connected to subsequent hydrants there, the direction of movement of the multi-support sprinkler remains until the last hydrant. The water supply pipeline stops at the edge of the field, and the multi-support irrigation machine is diverted to the first hydrant in the watering mode to the initial position in the reverse order along the previously irrigated array, with a change in the direction of movement.

The technical result is achieved (option 3) in that the movements of a multi-support sprinkler of circular action (irreversible) when irrigating fields of a square or rectangular configuration include the movement of a multi-support sprinkler with a constant width of the irrigation band in a circle around the vertical axis of symmetry of the hydrants, while maintaining the direction of rotation around the vertical axes symmetries from first to subsequent hydrants installed in a series of hydrants. The return of the multi-support sprinkling machine of circular action (non-reversible) to the initial position is carried out by the indicated technique in the adjacent, previously not watered strip of the irrigated field.

The technical result is achieved (option 4) in that a multi-support sprinkler of circular action (reversible) when watering fields of a square or rectangular configuration, including moving it with a constant width of the irrigation band in a circle around the vertical axis of symmetry of hydrants located both on the main water supply network and around additional hydrants located in the second parallel to the first row of hydrants, located opposite, with the distance from each other at a distance equal to the constant width of the polo irrigation systems of a multi-support sprinkler. The rotation of the water line of the sprinkler machine clockwise is made around the vertical axis of symmetry of the first pair of hydrants of the first row. The movement of the machine is repeated counterclockwise again around the vertical axis of symmetry of another pair of second-row hydrants in the general direction of motion of the multi-support sprinkler of circular action.

The invention is recommended for use with multi-support sprinklers of circular action, equipped with long-range sprinklers at the ends of the water supply pipeline and the ability to connect to the hydrant from both ends. The length of the sprinkler should be taken equal to the width of the irrigated strip.

The invention is illustrated by drawings (figure 1 ÷ 5), options 1 ÷ 4.

In FIG. 1 ÷ 5 there are four options for the movement of a multi-support sprinkler of circular action, including: multi-support sprinkler 1; irrigation plots 2 ÷ 13; water supply network 14; hydrants 15 ÷ 19; the ends of the water supply pipe remote from the axis of rotation 20 ÷ 21; support trolleys 22; track 23; wetting zone with long-range sprinklers 24; field roads 25 ÷ 26; additional hydrants 27 ÷ 28 (Fig. 5).

Figure 1 (option 1) shows in plan view the movement of a multi-support sprinkler (DM) 1 of circular action (reverse) when watering sections 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 , 13 of a square configuration or a total irrigated array of a rectangular configuration when sequentially moving the water supply pipeline DM 1 on the wheels of the support trucks 22 by turning the water supply pipe DM 1 around the vertical axis of symmetry of the hydrants 15, 16, 17, 18, 19, placed in a row with mutual removal, equal to the length of the DM and the constant width of the strip of Orosh tions. The water supply network 14 is placed at a depth excluding its freezing. The method of movement of a multi-support sprinkler 1 of a circular action during irrigation by sprinkling, due to the placement of medium-jet sprinklers and long-distance at the ends of the water supply pipe, square configurations 2 ÷ 13 involves moving the multi-support sprinkler 1 with a constant irrigation band in a circle around the vertical axis hydrant symmetries 15, or 16, or 17, or 18, or 19. When watering sections 2 ÷ 13 (option 1), the movement is performed from the initial position (between the irrigated chastkami square configuration 12 and 13) about a vertical axis of symmetry of the first hydrant 15 installed in a number of hydrants 15 ÷ 19. After the end 20 of the water supply pipe remote from the axis of rotation is combined with the hydrant 16, DM 1 is connected to it, the direction of movement will remain in sections 13, 2 and 3. When the remote end 21 of the water supply pipe of the sprinkler 1 is combined with the hydrant 17 and connected to they change the direction of movement to the opposite. When the last hydrant 19 is reached, the water supply pipeline DM 1 is stopped at the edge by sections 8 (between the irrigated sections 8 and 9).

The subsequent withdrawal of the multi-support sprinkler 1 to the starting position to the first hydrant 15 is carried out in the opposite direction along the previously irrigated array (Fig. 2).

With the return passage of the sprinkler 1 along the previously irrigated strip, the minimum gauge 23 is reached due to the fact that the wheels of the support trolleys lay a new gauge 23, and the previously spilled water was absorbed into the soil during the first irrigation.

The presence of long-range sprinklers at the ends 20 and 21 of the water supply pipeline and the described method of movement of a multi-support sprinkler ensure uniform watering of the entire field surface. The humidification zone with long-range sprinklers of the water supply pipe DM 1 is depicted by dash-dotted lines 24. Moreover, the humidification zone minimally covers the canvases of field roads 25 and 26.

Figure 2 (option 1) shows the movement when the multi-support sprinkler 1 circular action returns to its original position to the hydrant 15 and re-watering the irrigation strip.

Figure 3 (option 2) shows in plan view the movement of multi-support DM 1 (reverse) when irrigating a strip (irrigation section 3 ÷ 12) of a rectangular configuration, half of which is set aside for “black steam” or removed from crop rotation (irrigation sections 8 ÷ 12) before the agronomic dates. The movement of DM 1 from the initial position (the interval between the irrigated areas 12 and 3 of the square configuration) is performed by turning clockwise while watering the irrigation strip from 15 to 19 hydrants and counterclockwise the water supply pipeline DM 1 around the vertical axis of symmetry of hydrants from 19 to 15 along the irrigated previously sections 3 ÷ 7.

Sections 8-12 in this array are not irrigated and are in the “black steam” mode. Upon reaching the optimal temperature regimes of soil and air in areas 8-12, crops can be planted.

The passage of the sprinkler machine 1 (reverse) from the hydrants 15, 16, 17, 18 and 19 in one direction, and then in the opposite direction ensures uniform distribution of artificial rain over the entire surface of the irrigated array of rectangular configuration.

Figure 4 (option 3) shows the movement (non-reversible) of a multi-support sprinkler 1 (for example, with a hydraulic drive of the wheels of the support trucks of a water supply pipeline) with a passage through irrigated sections 3 ÷ 5. The movement is carried out from the starting position (between the irrigated sections 2 and 3) in a circle around the vertical axis of symmetry of the first hydrant 15 of the water supply network 14, installed in the row of hydrants 15 ÷ 18, and offset from each other with a distance equal to the length of the water supply pipe DM 1. When when the end 21 of the water supply pipeline DM 1 of hydrant 16 is reached remote from the axis of rotation, the direction of turns around the vertical axis of symmetry of the subsequent (17, 18) hydrants is maintained. The return of the irreversible multi-bearing DM 1 of circular action with a hydraulic drive of the support trolleys 22 to the initial position by the specified method is carried out on an adjacent, previously not watered strip occupied by sections 10, 11, 12.

Figure 5 (option 4) shows the movement (plan view) of a multi-support sprinkler 1 (reversible) by turning the water supply pipe DM 1 around hydrants, some of which are located on branches from the irrigation network 14 to the tops of the squares of the irrigated areas. The movement in a circle from the starting position is carried out by turning the sprinkler around the vertical axis of symmetry of the hydrants 16 and installed in the second parallel to the first row of hydrants 27 and 28, located opposite (17, 18) with distance from each other at a distance equal to the constant width of the irrigation band of multi-support DM 1. The rotation of the water supply pipeline DM 1 from hydrant 16 to hydrant 17 occurs clockwise, and then, after connecting DM 1 to hydrant 17, it moves in the same direction to hydrant 27 and after connecting to the last one begins to move counterclockwise to the 28 hydrant with connecting DM 1 to it and moving it to the hydrant 18. Further, the movements of DM 1 are repeated in the general direction of movement along the irrigation strip. 5, the bold lines with arrows indicate the trajectories of the ends 20 and 21 of the water supply pipe DM 1 for serial connection with hydrants 16, 17, 27, 28, 18, 19.

The options of movement of multi-support circular sprinklers shown in Figs. 1 ÷ 5 provide irrigation of fields of rectangular and square configurations without returning along the beaten track, which reduces the track depth under the wheels of the support trolleys and increases the uniformity of the distribution of artificial rain, eliminates idle crossings.

Claims (2)

1. The method of movement of a multi-support sprinkler of circular action when irrigating fields of a square or rectangular configuration, comprising moving a multi-support sprinkler with a constant width of the irrigation band in a circle around a vertical axis of symmetry of hydrants located at a distance equal to the length of the machine, characterized in that when moving from the starting position, the direction of turns around the vertical axes of symmetry of the hydrants is preserved, and the return of the multi-support sprinkler of a circular action tions to the starting position produced by the adjacent, not watered before the band. 2. The method of movement of a multi-support sprinkler of circular action when irrigating fields of a square or rectangular configuration, comprising moving a multi-support sprinkler with a constant width of the irrigation band in a circle around a vertical axis of symmetry of hydrants located at a distance equal to the length of the machine, characterized in that the sprinkler is rotated around the vertical axes of symmetry of the hydrants clockwise, and then the machine is rotated counterclockwise around the tikalnyh symmetry axes hydrants additional row that is positioned on the ends of the fingers from the front of water conducting core network hydrants a distance equal to the length of the sprinkler, while maintaining the general direction of movement along the irrigation line.

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