SU1264145A1 - Device for automatic feeding of water in feeding reservoir of irrigation system - Google Patents

Abstract

The invention relates to irrigated agriculture and can be used in irrigation systems. The device for the automatic water supply contains a supply pipe with a shut-off element and a relay element made in the form of a rocker arm with a balancing capacity, a float level sensor. Inclusion in the device of an additional locking member, a control storage tank, hydraulically connected to the supply tank through a chute located in its wall, above which there is a rotary tray with counterweight mounted on the axis, connection of the control storage tank with means for signaling and generating a control signal for closing an additional shut-off valve prevents the supply tank from overflowing above a predetermined level if the shut-off valve fails. 1 hp f-ly. 2 Il. with

Description

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The invention relates to irrigated agriculture and can be used in various irrigation systems, mainly in irrigation systems for irrigation of orchards and gardens. The purpose of the invention is the elimination of the overflow of the reservoir, its reservoir above a predetermined level in the event of a malfunction of the closure member. Figure 1 shows the device with electrical alarm systems; figure 2 - the same, with mechanical means of alarm. The device contains a supply pipe 1, a supply pipe 2 connected to it with a locking body 3 and an additional locking body 4 installed before the locking body 3. The relay element is designed as a rocker arm 5, one arm of which is connected through a hinge rigid rod 6 with a locking body 3, and the other arm using flexible cable gi 7 - with a rod 8, on which the float sensor 9 level is fixed. The rod 8 with the float sensor 9 of the level can be rotated around the axis 10 positioned at the side wall of the supply tank 11. The beam 5, rocking on the axis 12, is equipped with a balancing capacity 13 with balls 14. Immediately under the seat 15 of the locking member 3 inside the supply tank 11 there is a rotary a tray 16 with a counterweight 17, the receiving part of which is placed under the locking member 3. The device includes a drain chute 18, over which the tray 16 is installed. The drain chute 18 is installed in an opening 19 in the side wall of the power supply reservoir 11. To the outer wall of the latter, below the drain chute 18, is attached a case 20, in which a control storage tank 21 is installed, equipped with an arm 22, connected with the means of signaling and generating a control signal for closing an additional locking member 4. The means of signaling and generating a control the signal is made in the form of an electrical circuit with a switch 23, a signal lamp 24 and an electromagnet 25 connected by a rigid thrust 26 connected to an additional locking member 4. Signaling devices generating a control signal (FIG. 2) contain a yoke 27 with a tube 28 having a ball 29, one arm of which is in contact with the stop 22 of the control storage tank 21, and the other arm is connected to an additional locking member 4 via a system of rigid tg and using cable 30 through rollers 31 and 32 - with the valve 33, the axis 34 of which is placed in the bearings 35 and connected to the return spring 36. The valve 33, when rotated on the axis 34, opens 1 5 mark 37 (Signaling the correct operation of the device) or mark 38 (indicating a malfunction of the device). The control storage tank 21 is returned to its original position by means of a spring 39. To protect the tank 21 from rain, a visor 40 is provided. From the supply tank 11, water enters into the irrigation system 41 in specified portions through the valve 42, which opens and closes with a special device (not shown). The device works as follows. In the initial setting, the additional shut-off element 4 is set to the position when water from the supply pipe 1 filled the supply pipe 2, the tank 11 is filled with water up to the maximum level 43, the float sensor 9 the level is in the extreme upper position, pulling off for flexible yoke 7 one arm of the rocker arm 6, as a result of which the balls 14 are rolled to the extreme right position, and the locking member 3 is pressed against the seat 15. By irradiating the supply tank 11 with solar energy (in this case the outer walls of the metal feed cut The water in it is heated and discharged from the supply tank 11 through the irrigation system in 41 portions determined by) a condition supported by a special device (not shown). When water is consumed in the reservoir 11 to the specified minimum level 44, the level 9 float sensor is lowered, turning on the rod 8 around the axis 10 and with its weight presses on one arm of the rocker arm 5. Bending the ha 7, bending, takes an arbitrary position. The yoke 5 rotates on the axis 12 and the balls 14 roll to the other end of the balancing tank 13 (now occupy the leftmost position), sharply increasing the torque of the rocker arm 5. A hard draft 6 lifts the locking member 3 and the water from the feed pipe 2 rushes into supply tank I, by which the turntable 16 rotates counterclockwise, the hydraulic contact between tray 16 and drain chute 18 is broken. When the water level rises, the float sensor 9 level rises, dragging flexible traction 7. The water level reaches its maximum level 43 due to the lifting force of the level 9 sensor, the flexible traction 7 pulls up and raises the arm of the rocker arm 5, the balls 14 roll into of the balancing container 13 and occupy the extreme right position, the locking member 3 is lowered and pressed tightly against the saddle 15. The access of water to the supply tank 11 is stopped. Due to the contact of the walls of the supply tank 11 with the ambient air and their irradiation with sunlight, the water in the supply tank 11 is heated and subsequently in portions enters the irrigation system 41 under a given irrigation regime.

In case of a loose fit of the closure body 3 to the saddle 15, cold water flows into the reservoir 11. At the same time, water enters the rotary chute 16 and flows down it into the drain 18 and further into the storage container 21, the weight of which increases. With a small head, when undermining or slowly moaning, the tray 16 does not turn on the axis, and the counterweight 17 holds it in hydraulic contact with the drain chute 18. The control accumulator 21, having reached the specified weight, overcomes the force of the spring 39 and stops 22 against the device, including means of signaling the malfunction and generating a control signal for closing an additional shut-off element 4. The contacts of the switch 23 are closed (Fig. 1) and the spring lamp 24 is turned on, and the electromagnet 25, which In the rigid rod 26, it blocks the water coming from the supply line 1, or the beam 27 rotates (figure 2), the ball 29 rolls to the far left in the tube 28, the water supply to the feed tank 11 is also stopped, the valve 33 rotates on axis 34 and opens signal 38, such as a red circle, indicating a device malfunction.

If, after filling the supply tank 11 through the shut-off body 3, the water flows out under great pressure (when the hydraulic contact of the tray 16 with the chute 18 is broken), it overflows the supply tank 11 and primarily flows through the hole 19 in the wall of the tank 11 and along the guide chute again enters the control storage tank 21.

To adjust the maximum water level 43 in the tank 11, the length of the flexible rod 7 is varied, to regulate the minimum water level 44

reservoir 11 — changing the height of position of axis 10 of rod 8; to change the clamping force of locking member 3 to seat 15, movement of balancing capacity 13 along rocker arm 5 is provided; to adjust rotary tray 16, move counterweight 17 along axis of rotary tray 16.

Claims (2)

1. Device for automatically supplying water to the supply tank of the irrigation system, comprising a supply pipe with a shut-off organ installed on it and a relay element made in the form of a rocker arm with a balancing capacity, one arm of which is connected to the float level sensor, the other arm of the rocker arm It is connected through a hinged rigid cable with a shut-off organ, characterized in that, in order to prevent the supply tank from overfilling above a predetermined level when the shut-off organ fails, the device contains an additional shut-off element installed on the supply pipe to the shut-off body, as well as a control storage tank, hydraulically connected to the supply tank through the drain chute located in its wall, above which the rotary tray with counterweight is mounted on the axis, the receiving part of which is located under the locking member The control storage capacitance is associated with means for signaling and generating a control signal for closing an additional locking member. 2. A device according to claim 1, characterized in that the control storage tank is spring-loaded relative to the supply tank.