SU1628967A1 - Irrigation installation - Google Patents

Abstract

The invention relates to agriculture and can be used for irrigating agricultural crops. The purpose of the invention is to enhance the functionality and increase reliability in operation. The irrigation device comprises a housing 1 with an axial cylindrical channel, a water intake pipe 2 and throttling channels. The device is equipped with a cone 4 and a pear-shaped 8 valves, interconnected by a flexible pull. Throttling channels are made on the side surface of the elastic pear-shaped valve. A cone valve is installed in the upper part of the cylindrical channel of the housing with the possibility of axial movement and has a stop. The water inlet fitting is fixed on the side surface of the housing at an angle to the channel axis and facing the cone valve side. The cone valve seat is grooved. The stop of the cone valve is made in the form of an elastic element mounted on the low frequency LUTI. The latter is pivotally connected with acrep. - -,;. HJ body bracket. 2 hp f-ly in. YU

Description

The invention relates to agriculture and can be used for irrigation of crops.

The purpose of the invention is the expansion of functionality and increased reliability.

The drawing shows the basic design of the device for irrigation.

The irrigation device consists of a housing 1 with a water inlet 2. To simplify the design and increase reliability in operation, the housing 1 is made in a cylindrical shell, which is equipped with a seat 3 on the upper highlander and in which a cone valve 4 is placed. To ensure reliable operation, the saddle is corrugated, those. equipped with channels 5 through which the cavity of the saddle 3 is connected to the cavity of the housing 1.

To increase the versatility and reliability of the device, a flexible pear-shaped valve 8 with throttling channels 9 is attached to the cone valve 4 using a flexible rod 7 on the upper side surface of the pear-shaped valve 8, the shape of which helps to reduce salt deposition on it and clogging the channels 9.

In order to improve the operation of the device in the irrigation mode, the intake pipe 2 is fixed obliquely on the housing 1 and is directed towards the cone valve 4. To prevent rapid wear, the cone valve 4 and the elastic shaft are protected by a rigid shell 10. To prevent distortions, the cone valve 4 is centered with using the rod 11, placed in the holes or ring 12 of the L-shaped bracket 13. fixed on the housing 1.

To ensure the possibility of regulating the device and adjusting it to a different operating mode, the flexible rod 7 is connected to the cone-shaped valve 4 by means of an opening in the latter. In this hole, a flexible rod 7 is inserted and held in it by means of a collar 14, which can be made of ordinary wire. When this rod 1 1 is inserted into a recess made in the upper end of the flexible rod 7, which, as it were, serves as a wedge. The cone valve 4 can be made of the same material as the housing 1, however, for a better fit, it is better to make it elastic.

Device for irrigation works as follows.

The device can operate in drip irrigation mode (mode I). For this, the cone valve 4 is fixed on the flexible rod Ί so that when the working pressure prevents the valve 4 from leaving the seat 3. In this case, water flows through the channels 9 on the pear-shaped elastic valve 8. The flexible rod 7 is tensioned so that the required water flow which flows down the rounded surface of the pear-shaped valve 8. When the pressure increases, water passes through the channels 5 into the seat cavity and since the cross-sectional area of the latter is larger than the section of the cavity 6 in the housing 1, the cone valve 4 rises, further pressing the elast egg pear-shaped valve 8 to the housing 1, which helps to reduce the bore · channels 9 and maintain water flow at a constant level. With a sharp increase in pressure, the cone valve 4 exits the seat 3, and water is ejected, in the form of rain, i.e. the device acts as a safety valve. Moreover, the rod 11 rises inside the ring 12 of the L-shaped bracket 13, preventing distortions of the valve 4. After the excess pressure is released under the action of the tension force of the flexible rod 7, the valve 4 enters the seat 3, closing the water, while the device starts working again like a dropper.

It is possible to provide such a tension on the flexible rod 7 that the device will only work as a safety valve (mode II). In this case, the device is at the same time as if a stub. Thus, to ensure the irrigation of individual plants, and not all in a row, it is not necessary to remove the devices and put special plugs.

The device can work in mode III. which provides both drip irrigation and sprinkling. To do this, the clamp 14, the stem 11 and the flexible rod 7 are installed so that the cone valve freely exits the seat 3 when pressure is applied. As a result, sprinkling and drip irrigation occur simultaneously.

The device can work alternately either as a dropper or as a deflector nozzle. In this case, with a reduced pressure, water passes through channels 9, drip irrigation occurs. To carry out sprinkling, the pressure increases, as a result, the flexible rod 7 stretches, and the cone valve 4 leaves the seat 3, as a result, the water is sprayed. To switch to drip irrigation, the pressure decreases again. In this case, under the action of the elastic rod tension, the cone-shaped valve 4 enters the seat 3. As a result, sprinkling stops.

Claims (3)

Claim 1. An irrigation device comprising a water inlet, a housing with an axial cylindrical channel and throttling channels, characterized in that, in order to expand functionality and improve reliability, it is equipped with cone and elastic pear-shaped valves that are connected and facing towards the cone valve . 2. The device according to claim 1, characterized in that. that the seat of the cone valve is corrugated. 5 3. The device according to π. I, characterized in that the stop of the cone valve is made in the form of an elastic element mounted on a rod, which is pivotally connected to a bracket fixed to the housing? And. between each other through flexible traction, while the throttling channels are made on the side surface of the elastic pear-shaped valve, and the cone valve is mounted in the upper part of the cylindrical channel of the housing with axial movement and has a stop, and the water inlet pipe is fixed to the side surface of the housing at an angle to the channel axis