SU1055825A1 - Method and apparatus for charging siphons - Google Patents

Abstract

1. A method for charging siphons, including chuypchas creating a vacuum in its cavity by ejecting air with a water stream passing through a charge pipe connecting the upper and lower tails, characterized in that, in order to increase reliability of charge while reducing the difference between the tails , air is ejected by systematically abruptly shutting off the water flow at the inlet to the charging pipeline. 2. An apparatus for carrying out the method according to claim 1, comprising a siphon, the cavity of which is connected by a vacuum tube with a charging line connecting the upper and lower tails, characterized in that the charge pipeline from the upstream side is provided with a shock valve, and a vacuum tube - check valve.

Description

The invention relates to land reclamation and can be used in systems of automated surface irrigation.

There is a method for charging siphons by filling a special tank with water and its subsequent release, and a device for carrying out the method comprising a siphon and charging capacity communicated with it [1

A disadvantage of the known method and device is the need for pre-pouring water into the container and the possibility of breaking the vacuum during the irrigation process.

A known method of charging a siphon, including the creation in its cavity of a vacuum due to the ejection of air by a water stream passing in the charging conduit, connecting the upper and lower tails and a device for its implementation, including a siphon, the cavity of which is connected by a vacuum tube to the charging conduit connecting the upper and lower ponds (2].

A disadvantage of the known method and device is the need for large hydraulic differential between the upper and lower reach.

The aim of the invention is to improve the reliability of charging while reducing the differential between pools.

This goal is achieved by the fact that the ejection of air produced by the systematic abrupt shut-off of the water flow at the entrance to the charging pipe.

In the device, the charging pipeline from the upstream side is equipped with a shock valve, and the vacuum tube is equipped with a check valve.

The drawing shows a device that implements the method of charging irrigation siphons.

The device contains a siphon 1 connected by a vacuum tube 2 to the charging pipe 3 connecting the upper and lower tails. From the upstream side, at the beginning of the charging conduit 3, a shock valve is installed.

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Editor N. Jugan

Compiled by E. Soldatova Tehred S. Migunova

Proofreader A.Zimokosov

pan 4. In the vacuum tube 2 is a check valve 5.

The device works as follows.

When the specified fluid speed in the charging pipe 3 is reached, the impact valve 4 slams. In this case, the entire mass of the liquid in the charging pipe 3 continues to move at the initial speed and a vacuum appears at the beginning of the charging pipe 3, the value of which is determined by the mass and initial speed of the liquid in the charging pipe 3 .

At this time, air is sucked from the cavity of the siphon 1 through the vacuum pipe 2 and the check valve 5.

As a result of the development of the subsequent phase of the water hammer, a positive pressure wave opens the shock valve 4 and closes the check valve 5, as a result of which

3, a current of fluid reappears, which, having reached a predetermined velocity, slam the shock valve 4. Thus, the previously described process is repeated, as a result of which the next portion of air is sucked out of the siphon cavity. For several cycles of opening - closing of the shock valve

4 in the charging pipe 3, siphon

1 fully charged and included in the work.

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Claims (1)

The use of the invention makes it possible to increase the siphon charging rate by a factor of 2-3 compared with the known one, with the same average fluid flow rate in the charging pipeline due to the use of energy. The hydraulic impact system also significantly expands the range of the hydraulic differential, at which the siphon is reliably charged. Reducing the range and hydraulic differences between pools allows an increase in average of ΙΟΙ 5% of the area of irrigated land and reduce the cost of construction of irrigation systems by 10-20%.