SU1628968A1 - Irrigation apparatus - 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 device comprises a hollow body I with a water intake 2 and a discharge outlet 3 tips and a choke. The device is equipped with a valve 7, which is made in the form of a conical deflector and is installed opposite the water outlet tip 3. The latter has the shape of an inverted conical funnel. The choke is made in the form of a spherical element 4 coaxially mounted on the rod 5 placed in a conical funnel. The rod 5 is rigidly fixed on the conical deflector with the possibility of axial movement by means of a conical regulator 6. The device for irrigation can work in five modes: I - only drip irrigation ; II - self-regulating and self-cleaning dropper; III - as a water outlet and at the same time a safety valve that ensures the discharge of the walls in the form of light rain; IV - irrigation and sprinkling irrigation: V - sprinkling. 2 hp f-ly, 1 ill. l

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 a diagram of a device for irrigation.

The irrigation device consists of a housing 1 with water inlet and outlet tips 2 and 3. To reduce the deposition of salts and colloidal particles, the water outlet tip 3 is made in the form of an inverted conical funnel with an inner rounded chamfer at the end. A throttle is installed in the water outlet tip 3 to control or maintain a given flow rate, which is made in the form of a spherical element 4 fixed coaxially on the stem 5 using a conical regulator 6. The latter is made round to prevent deposits of salts and particles on it, i.e. in the form of a cone with a spherical bottom.

To reduce the deposition of salts on the thread of the end of the rod 5, the conical regulator 6 is made in the form of a nut, muffled from the bottom. The conical shape of the nut 6 is also necessary to ensure that the device is configured for a particular mode of operation. The ball 4 can be made integral with the nut, and can be installed freely. To ensure the universality, reliability and self-cleaning of the device, the ball 4 is connected to the valve 7 by means of a rod 5 and a nut 6, which is made in the form of a deflector cone located in the saddle 8, made in the housing 1 against the outlet tip 3.

To ensure self-adjustment of the device when operating in the drip mode, the saddle 8 has a cylindrical shape, and the deflector cone is provided in the upper base with grooves forming a self-sealing protrusion 9.

To ensure good atomization of the jet under the valve 7, made in the form of a cone, a conical nozzle 14 is made in the housing 1. To ensure the universality and reliability of the device, grooves 15 are made on the surface of the seat 8 located under the valve 7, which are necessary so that water passed through it and a difference was created in the forces of pressure on valve 7 and ball 4.

The valve 7 is equipped with a stop 10, to which is attached an adjustable removable elastic. an element mounted on the housing 1, which is equipped, for example, with protrusions. The elastic element 11 can be made in the form of an elastic spring rod (metal, plastic, etc.) or in the form of a rigid plate 11 connected to an elastic rubber ring 12. In order to ensure the operation of the device in the form of a water outlet, the flow rate of which is regulated by pressure, the plate 11 is equipped with clamps 13.

To prevent rapid wear, the valve 7 and the part of the stem located under it is protected by a metal sheath 16.

The device operates as follows.

The device can operate in mode I - only drip irrigation, in which the flow rate is regulated by pressure. For this, the plate 11 with the clips 13 is fixed to the housing 1 motionless, i.e. the valve 7, and therefore the ball 4 are fixed. In this case, the device operates as a water outlet, the flow rate of which is set manually by changing the width and length of the channel formed by the ball 4, the conical nut 6 and the inner surface of the conical water outlet tip 3. In this channel, capillary forces and hydraulic friction act. The flow rate varies depending on the pressure and flow rate in the network.

The device can work under

II, in which it works as a self-regulating and self-cleaning dropper. To do this, the latches 13 of the plate 11 are removed from the housing 1, and the ball 4 is installed so that in the highest position the sealing lip 9 of the valve 7 would be in the cylindrical socket 8. In this case, water from the water intake tip 2 enters the cavity of the housing 1, and from it - to the water outlet tip 3, where it passes through the gaps between its inner surface and the surfaces of the stem 5, ball 4 and nut 6. When the pressure increases, valve 7 rises, overcoming the stress of the rubber ring 12. this clearance decreases, and The od remains at the same level. Water flows mainly through nut 7. Due to the absence of sharp edges on the surfaces of nut 7 and water discharge tip 3, the deposition of salts and colloidal particles is prevented.

At maximum pressure, ball 4 completely covers the water outlet. By manipulating the pressure, it is possible to self-clean the device, since the valve, together with the stem 5 and ball 4, performs a reciprocating movement.

The device can be set to

III, in which it works as a self-regulating, self-cleaning dropper or as a water outlet and at the same time as a safety valve that provides water discharge in the form of small drip rain. To this end, the ball 4 is set lower than in mode II, the rubber ring 12 is tensioned so that the valve 7 only exits the cylindrical seat 8. If the pressure is excessive, the ball 4 would not close the water outlet. In this case, water can be supplied both by the type of drip irrigation (mode II), and under pressure by the type of jet water outlet operating in a pulsed manner. With excess pore in this case, the valve 7 exits 5 of the cylindrical seat 8, and water is discharged in the form of drip rain. In this case, at the same time, the device operates in the mode of a dropper or jet water outlet.

The device can operate in mode IV, in which drip irrigation is replaced by sprinkling. In this case, the pressing force of the valve 7 to the housing 1 and the ball 4 are set by pulling so that at the highest position the first would leave the seat 1 8, open the upper outlet, and the second would close the lower hole in the water outlet tip 3. The device in this case works periodically as self-regulating, self-cleaning dropper, and periodically as a sprinkler nozzle ^{2 of} continuous or pulsed action. First, the water leaves drops from the outlet tip 3 with a slight increase in pressure, the valve 7 rises up, being in the seat 8, while the flow rate of water ₂ remains almost constant, i.e. self-regulation occurs. If necessary, humidify the air and carry out small-drop irrigation into the network, and consequently, the device is specially supplied with an increased water flow rate at Increased ί, respectively, pressure, as a result, valve 7 leaves the seat 8, the hole in the water outlet tip 3 is closed by a ball 4. As a result, the device works in the sprinkling mode, and having created a slight excess of pressure and flow rate of 1 each compared to a constant drip, pulse sprinkling is achieved, which provides a good effect on the microclimate in the zone p asthenia. Having thrown a portion of water through the upper hole, the pressure drops, and valve 7 enters the seat 8 for the time necessary to re-increase the pressure in the cavity of the housing 1. This is made possible because the lower hole in the housing 1 opens. In its absence, only vibration occurs valve 7 in the open position.

By increasing the pressure, it is possible to provide continuous small drip sprinkling. Thus, by changing the operating mode of the pressure-generating unit of the irrigation system, it is possible to provide drip irrigation, periodically replaced by conventional small-droplet or pulse sprinkling.

The device can operate continuously in sprinkling mode (V mode). To do this, it is sufficient to disengage the rubber number 12 from the plate 11, i.e. remove the load from the valve 7. In this case, when water is supplied to the body cavity, the valve 7 immediately rises up, and the ball 4 closes the hole in the tip 5, since the area of the seat 8 and the pressure force on the valve 7 are larger than the cross-sectional area of the lower hole and pressure force on the ball 4. When changing the position of the ball 4 on the stem 5 with the help of a nut, the valve 7 is installed above the upper hole at a distance providing a certain degree of crushing of the jet.

Claims (3)

Claim 1. Device for irrigation, containing a hollow body with water intake and water outlet lugs and choke, characterized in that, in order to extend the functionality and improve reliability, it is equipped with a valve, which is made in the form of a cone baffle and installed opposite the water outlet tip having the form an inverted conical funnel, while the throttle is made in the form of a spherical element placed in a conical funnel, coaxially mounted on the rod, rigidly mounted on a conical deflector axially movable by means of the regulator cone. 2. Device by π. 1, different in that. that the valve is provided with a spring-loaded element with clamps attached to the housing. 3. Device by π. 1, characterized in that the body under the valve seat is made, and on the surface of the valve seat - grooves.