SU1069716A1 - Pipe-line coverer - Google Patents

Abstract

1. PIPING CONNECTION, including a commanding device, a transmitting mechanism with a flexible connection and a counterweight and a valve control valve for sprinkling apparatus, characterized in that, in order to simplify the design and increase reliability of operation by reducing the switching forces of the valve, the command device is equipped with a hydraulic time relay connected through a flexible diaphragm, and the transmitting mechanism is equipped with sliders mounted on a flexible connection, interacting with g distributors and displaced relative to them by a magnitude corresponding to the order of activation of the sprinkler apparatus. 2. A pipeline-train according to claim 1, characterized in that, in order to reduce the dynamic forces during movement, the counterweight to the transmission mechanism is provided with a vertical guide. ..r O5; o

Description

The invention relates to agriculture and can be used in irrigated agriculture for irrigation by sprinkling agricultural crops.

A sprinkler pipe is known, including a sprinkler head and a device for discharging residual water at the end of irrigation. Compressed air is supplied to the pipeline to accelerate the emptying of the pipeline and uniform spraying of water into the pipeline cavity, and the sprinkler nozzles are fitted with shut-off devices installed at the inlet of the nozzle and made in the form of a spring-loaded spool, the over piston cavity communicating with the pipeline cavity by means of the float valve 1.

However, the need for a compressor can be used by not automatically switching the sprinkler.

Closest to the proposed technical solution is a pipeline, which includes a commanding device, a transmission mechanism with a flexible connection and a counterweight, and hydraulic control valves for switching valves of the sprinklers.

When the pressure distributor closes in the main irrigation line, a valve opens and water flows to apparatus 2.

The disadvantages of the known sprinkler are the design complexity and pressure fluctuations during the switching of the sprinklers.

The purpose of the invention is to simplify the design, increase the reliability of operation by reducing the switching effort of the valve.

The goal is achieved by the fact that the command device is equipped with a hydraulic time relay connected via a diaphragm with a flexible coupling, and the transmitting mechanism is equipped with flexible-mounted slide switches that interact with the hydraulic distributors and are offset from them by an amount corresponding to the order of sprinkler operation.

To reduce dynamic forces or displacements, the counterweight to the transmission mechanism is provided with a vertical guide.

FIG. 1 is given the general scheme of the pipeline-loop; in fig. 2 is a diagram of the timing arrangement of the transmission mechanism on the pipeline; in fig. 3 is a diagram of the interaction of the switching units of the sprinklers, the apparatus is turned off; in fig. 4 - the same, the device is turned on.

On a rigid pipeline-loop 1 there are several pairs of sprinklers 2. At both ends of the pipeline there are inlet couplings 3, by which it can be alternately connected to any hydrant of the closed irrigation network.

At one end of the pipeline-plume I near the first sprinkler, the command device 4 of the hydraulic time relay 5 is connected in series with the slide switches 6 located near each apparatus and fixed on the flexible coupling 7.

The time relay 5 is hydraulically connected to the command diaphragm 8, which, by means of the lever 9 and the flexible coupling 7, moves all the slide switches 6 interacting with the ratchet valves of the spool valve 10 using the pawls 11. The control valves 10 turn on and off the control diaphragms 12 of the actuators of each sprinkler . The diaphragm 12, acting on the valve 13, controls the operation of the apparatus.

0 The flexible connection is carried out with the help of a cable tensioned by means of a counterweight 14, which is located at the end of the pipeline-strip opposite to the time relay and moves along the vertical guide 15.

Pipeline-loop works as follows.

The water from the closed irrigation network through the water intake coupling 3 fills the pipeline and those sprinklers, the hydraulic distributors 10 of which at this moment are turned on, start watering.

After a certain period of time, regulated by a time relay 5, adjusted for a specific operation mode, the command is given to open the control valve 10 and the water rise through the diaphragm 8. The rod of the latter through the lever 9 moves all slide switches 6 interacting with the control valves 10 through a flexible communication Each slide switch has a dog that rotates the ratchet of each control valve 10 at the same angle of 90 °. However, the bypass holes in each control valve are located so that the diaphragm 5 we. The 12 controls each time ensure the opening of the valves 13 only in two, still not working, sprinklers and the closing of the valves of the already completed pair of devices. If the pipeline pipeline is equipped with eight sprinklers, the ratchet of the spool valve has four teeth, ensuring the simultaneous operation of only two devices. Then the time relay 5 again, after a predetermined time, sends a command and the entire switching cycle is repeated, the next two devices turn on, and the workers turn off, and so on. The counterweight 14, moving along the guide 15, each time returns the flexible link 7 and the lever 9 to the initial position. In order to reduce the total effort required to switch all the control valves 10 located at different distances from the pawls 11 so that in one stroke of the power lever 9, which switches all control valves, only two control valves can be turned at a time. After switching one pair switches

the second and so on sequentially switch all pairs of spool valves for one stroke of the lever 9.

The application of the invention will reduce the cost of manual labor in irrigation, and the overlap between adjacent apparatuses ensures a uniform distribution of rain, since during the irrigation time each sprinkler will be repeatedly activated, which reduces the effect of the wind.

Claims (2)

1. PIPELINE-CIRCUIT, comprising a command device, a transmission mechanism with flexible coupling and a counterbalance and a valve control valve for switching sprinkler apparatuses, characterized in that, in order to simplify the design and increase reliability by reducing the switching force of the valve controllers, the command device is equipped with a hydraulic time switch connected through a diaphragm with a flexible connection, and the transmitting mechanism is equipped with slider switches fixed to a flexible connection, interacting with hydror spredelitelyami th offset from them in the "value corresponding to the inclusion in the work order dozhdevalnyhapparatov. 2. Pipeline loop according to π. 1, characterized in that, in order to reduce dynamic forces during movement, the counterweight of the transmission mechanism is provided with a vertical guide. >