RU2151492C1 - Furrow irrigation method - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves supplying water to irrigation hose; distributing water via water discharge pipes to furrows; providing displacement of movable member along irrigation hose. During displacement of movable member in irrigation hose, portion of water is directed through annular gap between movable member and irrigation hose wall. The greater is water cloudiness, the larger part of irrigation hose section is closed by movable member to increase water flow rate in annular gap. Increasing of water flow rate is performed 3-5 times during irrigation period depending on water cloudiness. Such method allows pipelines to be prevented from silting and, as a result, amount of works connected with additional pipeline cleaning processes to be reduced. Silt removed during required pipeline cleaning processes may be used as valuable mineral fertilizer. EFFECT: reduced pipeline maintenance costs, increased service life of movable member and simplified method. 1 dwg

Description

 The invention relates to agriculture and may find application in irrigating furrows from irrigation pipelines.

 A known method of irrigation along the furrows, including the placement on the irrigation site of pipelines with outlets located against the furrows, and the supply of water to the furrows (Huber K.V. and other Machines for irrigation and their maintenance, - M .: Higher school, 1982, p. 294-296).

 The disadvantage of this known method is the deposition of sludge in pipelines, for washing which requires a significant amount of water. In this case, siltation of the discharge network occurs, while sludge is a valuable organic fertilizer.

 Closest to the proposed technical essence is the method of irrigation along the furrows, which includes supplying water to the irrigation pipeline, distributing it through the outlets along the furrows and moving the movable element in the irrigation pipeline (SU 1117016 A, 07.10.1984). When moving, the movable element overlaps the entire cross section of the irrigation pipeline, sequentially turning off water outlets.

 The disadvantage of this method is the rapid wear of the movable element.

 This disadvantage is eliminated by the proposed furrow irrigation method, including water supply to the irrigation pipeline, its distribution through the furrow outlets and movement of the movable element in the irrigation pipeline, characterized in that when moving the movable element in the irrigation pipeline, part of the water flow is passed through the annular gap between the movable element and the walls of the irrigation pipeline, while the greater the turbidity of the water, the greater part of the cross-section of the pipeline is blocked by the movable element, ivaya thus the water flow rate in the annular gap, said increased water flow rate depending on its turbidity is performed 3-5 times for watering.

 The essence of the method lies in the fact that the narrowing of the cross section of the irrigation pipeline by the movable element creates a sharp increase in the speed of the water flow, sufficient to stir up and prevent the deposition of sludge, which enters the fields through the water outlets.

 The invention is illustrated by the drawing, which shows a scheme of irrigation along the furrows.

 The proposed method of irrigation along the furrows is as follows.

 After placement on the site of the irrigation pipeline 1 with water outlets 2, a movable element 3 is installed in its head part, which can be used as an elastic inflatable ball or torus. Depending on the turbidity of the water, such a movable element 3 is inflated to a diameter providing an increase in the water flow rate necessary for erosion of the settling sludge. The greater the turbidity of the water, the greater part of the cross-section of the pipeline 1 is blocked by the movable element 3, thereby increasing the flow rate by 5-10 times. An increase in the flow rate of less than 5 times will not allow to achieve the desired result, i.e. erosion and removal of silt deposits beyond the irrigation system. With an increase in the flow rate of more than 10 times, there is a danger of rupture of the pipeline 1.

 The movable element 3 through a flexible connection 4 through the block 5 is connected to the drum of the winch 6. The pipe 1 is connected to the hydrant 7, when opened, water from the transporting pipe 8 enters the pipeline 1. The water pressure of the movable element 3 is moved through the pipe 1, while the flexible connection 4 is wound off the winch drum 6. Water from the pipeline 1 flows through the outlets 2 into the furrows 9. Using the winch 6, the movable element 3 is moved from the end of the pipeline 1 to its head. In this case, part of the flow enters through the outlets 2 into the furrows 9, and part (10-15%) is passed through the annular gap between the movable element 3 and the walls of the pipeline 1. In the annular gap there is a sharp increase in the flow rate of water, which allows the mud to be agitated and brought out together with irrigation water in the furrows 9, which prevents siltation of the pipes. After reaching the head of the pipeline 1 by the movable element 3, the winch drum 6 is released, and the movable element 3, under the pressure of water, moves to the end of the pipeline 1. The water flow rate increases depending on its turbidity 3-5 times during irrigation, the last time just before the termination irrigation, and after moving the movable element 3 to the hydrant 7, the valve of the latter is closed, the pipeline 1 is turned off and the movable element 3 is removed from the pipeline 1.

 The proposed method of furrow irrigation allows avoiding siltation of the pipeline and additional water costs for flushing them, eliminating the possibility of siltation of the discharge network, significantly prolonging the life of the movable element, and using silt as a valuable organic fertilizer.

Claims (1)

 Furrow irrigation method, comprising supplying water to the irrigation pipe, distributing it through the furrow outlets and moving the movable element in the irrigation pipeline, characterized in that when moving the movable element in the irrigation pipeline, part of the water flow is passed through the annular gap between the movable element and the walls of the irrigation pipeline, while the greater the turbidity of the water, the greater part of the cross-section of the pipeline is blocked by a movable element, thereby increasing the flow rate of water in the annular dawn, and the aforementioned increase in the water flow rate depending on its turbidity is carried out 3-5 times during irrigation.