RU2686617C1 - Plant for automatic watering of plants - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the field of crop production and can be used for watering greenhouses and gardens. Apparatus includes a metering tank with outlet (6) for draining water into a water distribution system, float (19) with rod (18) with gate valve (20) for covering the drain opening of branch (6) and conduit (13) with shutoff valve (12) for water supply. Dosing tank is equipped with vertical wall (8), discharge siphon (5) and air tube (27) with check valve (17) for air discharge. Siphon (5) is installed in the upper part of wall (8) separating the metering tank into two chamber sections, one of which (3) is sealed with siphon (5) and branch pipe (6) for draining water into the water distribution system. Plant also contains adjusting device made in the form of one return air valve (17) compactly installed for air outlet with rod (18) of float (19). Device is installed at the specified mark of actuation of gate valve (20) above the outlet branch pipe (6) for water drainage into the water distribution system with the possibility to change its moment of force. Through air hole (21) located under cover has limitation (23) in form of stop of upper position at floating float and provides free air outlet through air tube (24). Siphon (5) start-up mechanism is made up of fluid level sensor tube (16) and ejector (15) connected to each other. Tube-sensor (16) is connected on one side with siphon (5) suction part through the hole made in wall (8). On the other side it is connected by means of ejector with drain part of siphon (5). Siphon (5) is located in section-chamber through its inlet branch pipe. Lower end of tube-sensor (16) is placed in tight section-chamber (3) above the level of branch pipe (6) for draining water into the system, and the end of the drain part of siphon (5) is below its level.EFFECT: simplified design and increased reliability of the device in operation.4 cl, 3 dwg

Description

The invention relates to the field of crop production for growing plants in greenhouses, and can be used for watering greenhouses and gardens.

Known installation for automatic irrigation of plants, including a metering tank with a drain hole, mounted on its wall by means of the bracket adjustment device float type, thrust connected at one end through a lever with a float, a two-level retainer, valves with a valve to supply water to stop the drain hole and pipelines (Copyright Certificate SU №1790349, A01G 27/00 from 01/23/1993).

A disadvantage of the known technical solution is the complexity, and the adjustment takes place with the help of levers connected throughout the volume by rods, which prevents assembly, repair and maintenance of the installation.

Known installation for multiple automatic irrigation of plants, including a metering tank, a drain hole mounted on its wall by means of a bracket, a float-type adjustment device, a rod connected at one end through a lever with a float, a water level lock, a shut-off valve with a water supply valve, a device for blocking the drain hole and piping, the dosing tank is made in the form of two soothing chambers with two outlets, one chamber provided with a cantilever L-image a septum placed with a valve shutter, the bottom of which is made horizontal shelf with an outlet located above the bottom of the second water-filled chamber, and the valve of the first chamber is connected with the rod of the rocker arm having an axis of rotation on the support cushion fixed to the vertical cantilever arm a wall dividing into two chambers, while on a yoke installed with the possibility of longitudinal movement of a prism with a protrusion, interacting with a support pad, which is mounted Also with the possibility of longitudinal movement on an additional pivot arm, one end of which is mounted for movement along the thrust float connected by a rod with a locking member made in the form of a valve with a horizontal visor, and the other is hinged on the corresponding vertical cantilever wall (Patent RU No. 262,21111, A01G 27/00 of 05/30/2016).

The disadvantage of this installation is cumbersome and, as a consequence, large consumption of materials.

The closest of the known technical solutions is selected as a prototype installation for automatic irrigation of plants, including a metering tank with an outlet nozzle for draining water into the water distribution system, a float with a stem with a gate valve for blocking the drain outlet of the outlet nozzle and a pipeline with a stop valve for water supply, while the dosing tank is provided with a vertical wall and a waste siphon mounted on the upper part of the vertical wall dividing the dosing tank into two sections -cameras, one of which is sealed with a siphon outlet and an outlet for draining water into the water distribution system, while the float is equipped with a ferromagnetic metal lid on which the gasket is located and guides, and fixed magnets are installed on the siphon outlet the float in the upper position after its ascent and the seal, which, together with the seal of the cover of the float, during its ascent provides a tight closure of the siphon outlet orifice and air tube with air valve for air release (Patent RU No. 2671140, A01G 27/00 dated 10.29.2018).

The disadvantage of this installation is the lack of efficiency in the siphon performance of the suction part of the siphon, as well as the complexity of managing the drain part of the siphon when it is necessary to monitor the filling level of the stilling chamber, respectively, and emptying it, as well as to monitor the level in the sealed chamber, taking into account its filling time. In addition, the complexity of the design of the float drive, and therefore does not sufficiently ensure the accuracy and speed of regulation with a large range of changes in the input flow rate, which requires reconstruction to apply the installation, i.e. it is necessary to slowly accumulate water in the hermetic chamber section and to sharply start the siphon at a high flow rate for uniform distribution of water to greenhouses, beds and gardens.

The technical result from the use of the claimed invention to simplify the design and increase reliability due to the implementation of the float drive with non-return air valve and gate valve compact and reliable in operation, as well as the execution of the trigger mechanism in the form of a tube sensor and an ejector, which allow you to slowly accumulate water in sealed tank and siphon run sharply at high flow.

The technical result is achieved by the installation for automatic watering of plants, including a metering tank with an outlet nozzle for draining water into the water distribution system, a float with a stem with a valve for closing the drain hole of the outlet nozzle and a pipeline with a stopcock for water supply, This dosing tank is provided with a vertical wall and a waste siphon mounted on the upper part of the vertical wall dividing the dosing tank into two sections-chambers, one of which is sealed with Siphon and outlet pipe for draining water into the water distribution system and air tube with a non-return valve for air release, according to the invention, an adjusting device in the form of one non-return air valve, compactly mounted for air release with a float rod installed at a predetermined valve-gate actuation level above the output vertical nozzle for draining water into the water distribution system with the possibility of changing its moment of force, with the through air hole under the lid having a restriction in de stop the top position when the float ascends and provide free exit through the air tube, the siphon trigger mechanism is designed as interconnected fluid level sensor tubes, an ejector, and the fluid level sensor tube communicates on one side of the siphon suction part through the hole made in the vertical wall of the hermetic section of the chamber, and on the other moan through the ejector - with the drain part of the siphon located in the section of the chamber through its inlet, the lower horse Sensor tube is placed in a sealed chamber-section above the location of the output of the vertical pipe to drain the water in the water distribution system, and the end portion of the siphon drain - below it.

In addition, a calibrated hole is made at the end of the suction side of the siphon.

In addition, the air tube is made in the form of a container with the possibility of a vertical movement in it of a check valve associated with the float rod and the gate valve.

In addition, a rubber seal is located at the outlet vertical nozzle for draining water into the water distribution system, and a rubber seal is also located on the gate valve, which together with the seal at the outlet nozzle ensures the tight closure of the outlet nozzle, fixing in the lower position after lowering the float air tube check valve.

The novelty of the proposed proposal lies in the fact that the use of a float drive with a non-return air valve and a gate valve compactly fit into the installation for automatic irrigation. And the implementation of the trigger mechanism allows you to slowly accumulate water in a sealed chamber and sharply start the siphon. The release of compressed air into the atmosphere during irrigation is reliably ensured by the effort to control the design horizon and, accordingly, the opening of the air tube with a non-return valve, since the buoyant force is exerted on the float, increasing the filling of the sealed chamber when the siphon is suddenly started to flow at a high rate. through the outlet in the water distribution system, and all the water from the open chamber enters the sealed chamber, when after a certain time drops the siphon. At the time of emptying the still-holding chamber, a calibrated opening at the end of the suction side of the siphon ensures a reliable cut-off of the siphon flow rate with a large range of changes in the flow rate.

According to the patent and scientific literature, a similar technical proposal was not found, which makes it possible to judge the proposal inventive step.

The invention is illustrated in the drawing, which shows the design of the installation for automatic irrigation.

The plant for automatic watering of plants includes a dosing tank divided into a soothing section — chambers 2 and 3, one of which is made of an airtight chamber 3 with a suction branch 4 of siphon 5 and an outlet vertical nozzle 6 somewhat shifted aside to drain water into the water distribution system. A siphon 5 with a suction branch 7 is located in a chamber equipped with a vertical wall 8, and the chamber 9 has a bottom in the form of a horizontal shelf 10 with an outlet 11. The manipulations of the stop valve 12 provide the flow of the estimated water flow from the pipeline 13 to the collection chambers 2 and 9.

The suction branch 7 of the siphon 5, having a calibrated orifice 14 at the end, communicates with the depressant section of the chamber 2, and the end of the suction branch 4 is located away from the output vertical nozzle 6 and below its level towards the bottom of the depressive section of chamber 3. The suction branch 4 the siphon 5 through the ejector 15 and the sensor tube 16, the siphon trigger mechanism, communicates with the suction branch 7 towards the bottom of the stilling chamber 3. The output vertical nozzle 6, respectively, is located above the end of the suction branch 4, with the possibility of flooding e end of the water. While adjusting the float device is made in the form of one compactly mounted non-return air valve 17, which is rigidly connected to the stem 18 of the float 19 and the valve-gate 20, the latter is installed to block the outlet of the outlet of the vertical pipe 6.

Through-air hole 21 under the cover 22 has a stopper 23 for a vertical position when the float 19 ascends and the possibility of free passage of air into the container 25 with a check valve 17 of the air tube 24.

The lower part of the valve-shutter 20 has a rubber seal 26, which, together with the rubber seal 27, when lowering the float 19 with the air check valve 17, the float walking along the guides 28 located in the soothing sealed chamber 3, provides hermetic closure of the output vertical nozzle 6, in aggregate they are an adjustment float device for entering and draining water into the system 29 for dispensing water into greenhouses, beds or gardens, from the hermetic chamber 3, and when float 19 is running along the rails 28.

Work for automatic watering of plants is carried out in the following sequence.

When the shut-off valve 12 is open, the chambers 9 and 2 are filled with water, and the speed of water entering the chamber 7 is adjusted by means of the shut-off valve, from where water fills the soothing chamber 2 along its height when the siphon 5 is in non-working condition. Filling occurs due to hydraulic difference between the level shut-off valves in the form of a pipeline 13 with a shut-off valve 12 and the water level in the stilling chamber 2. Thus, when the water level in the chamber 2 reaches the level of the suction part of the sensor tube 16, the diameter of which is comparable with a predetermined flow of water, it starts up as a siphon at insignificant amounts of supplied flow, pouring water into the sealed chamber 3 and flooding the end of the suction branch 7 of the siphon 5. After the end of the suction branch 7 is flooded, water passes through the half of the siphon 5, and the air fills part of the sealed chamber 3. At the same time, the water level inside chamber 3 rises, due to the further suction of air in the siphon 5, a vacuum is created in it, and it starts up. When the water level reaches the command mark in chamber 3, the lifting force of the float 19 and the increase in the additional overpressure of air that occurs in the sum of forces increase the weight of the shut-off valve 20, overcomes the opening of the outlet vertical nozzle 6 and simultaneously displaces the air through the lid opening 21 22 through a check valve 17 located in the tank 25 of the air tube 24 to the atmosphere. Filling the chamber 3 with water from chamber 2 with a relatively large flow through the siphon 5 is limited by the float 19 to the top of the lid 22 with stop 23, in which the ascent of the float 19 is limited, and the stroke of the check valve 17 in the tank 25 of the air tube 24 is not limited due to what air is freely released into the atmosphere. In this case, the water from the chamber 3 enters with the open output vertical nozzle 6 into the system 29 for dispensing water. The chamber 3 is emptied to the level of the top of the end of the outlet vertical nozzle 6, in which the gravity of the float 19 along the guides 28, the weight of the check valve 17 and the gravity of the valve-gate 20, closes the vertical nozzle 6. The water supply is stopped by lowering the valve down - shutter 20 and all elements in contact with the shutter valve 20 with rubber seals 26 and 27 in the automatic closure of the output vertical nozzle 6. In this case, the end of the suction branch 7 remains flooded m, and a through hole 21 in the cover 22 is hermetically closed by a check valve 17 in the air tube 25, through which no air enters from the atmosphere.

Changing the position of the float 19 on the rod 18, you can adjust the height of the level in the chamber 3 with a screw (not shown), respectively, the water flow filling chamber 3 and the beginning when water is discharged through the output vertical nozzle 6 into the water distribution system 29, and therefore the possibility of fast emptying the chamber 3 into the water distribution system 29. Due to this mode of operation, the functionality of the float drive in the operation of the device is expanded, and the plants are watered in accordance with the needs of the plants.

The calibrated hole 14 provides a reliable cutoff of the flow rate of the siphon 5 at the end of the emptying of the chamber 2 with a large range of variation of the input flow rate from the chamber 7.

The successful operation of the device ensures the correct selection and determination of the weight of all its elements. All its elements are interchangeable depending on the design of the chamber 3, elements and siphon 5.

Thus, the proposed installation allows you to automate the process of watering greenhouses, gardens after a certain predetermined time. The use of the invention allows to increase the reliability and increase the service life, as well as ensure the simplicity of the kinematic connection between all the elements and reduce the consumption of materials. Having a simple system of nodes.

Claims (4)

1. Installation for automatic irrigation of plants, including a metering tank with an outlet nozzle for draining water into the water distribution system, a float with a stem and a valve for closing the outlet nozzle and a pipeline with a shut-off valve for supplying water, while the metering tank it is provided with a vertical wall, a waste siphon installed on the upper part of the vertical wall dividing the dosing tank into two sections-chambers, one of which is sealed with a siphon and an outlet for water discharge S in the water distribution system, and an air tube with a non-return valve for air exhaust, characterized in that it contains an adjusting device, made in the form of one non-return air valve, compactly mounted for air release with a float rod mounted at a predetermined mark of valve-gate actuation above the output vertical nozzle for draining water into the water distribution system with the possibility of changing its moment of force, and the through-air hole located under the lid has a limitation in de stop the top position when the float ascends and provides free air outlet through the air tube, while the siphon triggering mechanism is designed as interconnected liquid level sensor and ejector tubes, the liquid level sensor communicating on one side with the suction part of the siphon through a hole made in the vertical wall of the hermetic section of the chamber, and on the other hand, by means of an ejector with a drain part of the siphon located in the section of the chamber through its inlet, the bottom box ec-tube sensor arranged in the sealed section, the chamber above the location of the output of the vertical pipe to drain the water in the water distribution system, and the end portion of the siphon drain - below its level. 2. Installation under item 1, characterized in that at the end of the suction side of the siphon there is a calibrated hole. 3. Installation under item 1, characterized in that the air tube is made in the form of a tank with the possibility of vertical movement in it of a check valve associated with the float rod and the gate valve. 4. Installation under item 1, characterized in that at the output vertical nozzle for draining water into the water distribution system there is a rubber seal, while the valve seal also contains a rubber seal, which, together with the seal, provides for the hermetic closure of the outlet fitting , fixed in the lower position after lowering the float with a check valve of the air tube.

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