RU182310U1 - MULTI-SURFACE SURFACE RAINING MACHINE - Google Patents

Abstract

The utility model relates to agriculture, namely to the technique of near surface irrigation.

The objective of this utility model is to improve the quality of water distribution over the field area with a multi-support surface irrigation machine.

The problem is achieved due to the fact that in a multi-support surface irrigation machine containing self-propelled supports, an arc-shaped water pressure pipeline with water outlet fittings, curved couplers along which the surface irrigation devices connected by flexible hoses with water outlet fittings are installed, tubular rods are attached to the tubular rods fixing nodes, allowing to change the distance b _i (m) between the surface irrigation devices simultaneously with Height of their location. In this case, the rational values of the distances b _i (m) between the surface irrigation devices can be determined using the regression equation:

,

,

where P is the pressure in the pipeline (taking into account the pressure losses along its length), kPa;

h _i - the average height of the two considered devices near surface sprinkling, m;

d _i - the diameter of the nozzle of the surface irrigation device, m

Description

The utility model relates to agriculture, namely to the technique of near surface irrigation.

Known multi-support machine near surface irrigation, containing self-propelled mounts mounted on them trusses beam type with an arc-shaped water supply pipe and below it located ties, on which the cross members are fixed, and on them approximately in the middle part of the surface irrigation device [analogue - SU No. 1189395, class. A01G 25/00, Multi-support sprinkler. Authors: Gorbachev A.N., Chubikov N.E., Lizin P.D., Nesterenko S.G., Gapienko V.N. Patentee: Volzhsky Research Institute of Hydrotechnics and Land Reclamation. Published: 11/7/1985. Bull. No. 4].

Such a multi-support near-surface irrigation machine is characterized by such disadvantages as a high uneven distribution of water over the field area and the considerable laboriousness of transferring the irrigation nozzles to a different irrigation height.

Closest to the proposed technical solution is a multi-support near-surface irrigation machine, including self-propelled supports mounted on them trusses beam type, each of which consists of an arc-shaped water pressure pipe with water outlets and curved couplers, along which with a given step on the tubular rods installed surface rain devices connected by flexible hoses with pressure pipe fittings, while the tubular rods are attached to a curved coupler am fixation nodes made in the form of covering the rod clamp, oval in cross section [prototype - RU 2095970 A01G 25/09 V05V 15/08. Multi-support machine for near-surface irrigation "Volga" Chubikova N.E. Developer and patent holder: Chubikov N.E. Published: 11/20/1997].

The disadvantage of such a multi-support surface irrigation machine is the significant unevenness of the distribution of water over the field area.

The objective of this utility model is to improve the quality of water distribution over the field area with a multi-support surface irrigation machine.

The problem is achieved due to the fact that in a multi-support surface irrigation machine containing self-propelled supports, an arc-shaped water pressure pipeline with water outlet fittings, curved couplers along which the surface irrigation devices connected by flexible hoses with water outlet fittings are installed, tubular rods are attached to the tubular rods fixing nodes, allowing to change the distance b _i (m) between the surface irrigation devices simultaneously with Height of their location. In this case, the rational values of the distances b _i (m) between the surface irrigation devices can be determined using the regression equation:

,

,

where P is the pressure in the pipeline (taking into account the pressure loss along its length), kPa;

h _i - the average height of the two considered devices near surface sprinkling, m;

d _i - the diameter of the nozzle of the surface irrigation device, m

The presented utility model is illustrated by illustration. In FIG. 1 presents a diagram of the proposed multi-support machine near surface irrigation.

Multi-support surface irrigation machine, contains self-propelled supports 1, beam-type trusses mounted on them, each of which consists of an arc-shaped water pressure pipe 2 with water outlets 3 and curved couplers 4, along which surface irrigation devices 6 are mounted on tubular rods 5, connected by flexible hoses 7 with water outlet fittings 3 of the pressure pipe 2. In this case, the tubular rods 5 are attached to the curved couplers 4 by fixation units 8, made in the form of covering their rod clamps are oval in cross section. In this case, the fixing nodes 8 allow you to change the distance b _i (m) between the devices of near-surface irrigation 6 depending on the installed height of their location, as well as some parameters and operating modes of the multi-support machine for near-surface irrigation. The rational value of the distance b _i (m) between adjacent devices of near-surface irrigation 6 can be determined using the regression equation (source - Kravchenko, L.V. Modeling and optimization of the irrigation of crops with front-end machines_ [Text]: dis. ... cand. Tech. Science / L.V. Kravchenko. - Zernograd, 2003. - 125 p.):

,

,

where P is the pressure in the pipeline (taking into account the pressure loss along its length), kPa;

h _i - the average height of the two considered devices near surface sprinkling, m;

d _i - the diameter of the nozzle of the surface irrigation device, m

The multi-support near-surface irrigation machine works as follows: before irrigating the seedlings of crops, when the fixing nodes 8 are weakened, moving the tubular rods 5 along the curved couplers 4, set the necessary height h _i and the step b _{i of the} location of the surface irrigation devices 6 in accordance with the given regression equation. If necessary, change the diameter of the nozzles of the devices for surface irrigation 6, taking into account the water pressure P in the system. After that, the tubular rods 5 are fixed in the installed position by the fixing units 8. After the settings are made, the multi-support surface irrigation machine moves on self-propelled supports 1 along the field, while water is supplied to the water pressure pipe 2, and then through the water outlets 3 and flexible hoses 7 to the devices near-surface irrigation 6. Moreover, the agreed parameters for the location of near-surface irrigation devices 6 provide a rational degree of overlap of zones irrigated by individual devices 6 sprinkling irrigation, due to which a uniform distribution of water over the field area is achieved.

Claims (5)

A multi-support surface irrigation machine containing self-propelled supports, an arc-shaped water pressure pipe with water outlet fittings, curved couplers along which tubular rods are connected by flexible hoses with water outlet fittings of the surface irrigation system, characterized in that the tubular rods are fixed to the brackets to allow fastening distance b _i (m) between the surface irrigation devices simultaneously with the height of their arrangement, when e th rational distance values b _i (m) between the surface irrigation devices may be determined using the regression equation:

where P is the pressure in the pipeline (taking into account the pressure loss along its length), kPa; h _i - the average height of the two considered devices near surface sprinkling, m; d _i - the diameter of the nozzle of the surface irrigation device, m

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