RU2554390C1 - System for differential control of ground water level - Google Patents

Abstract

FIELD: construction.SUBSTANCE: system includes supply drain lines 1, manifold 2, and storage well 3, in which siphon block 7 is mounted. The system is provided with self-regulating mechanism 4 of ground water level installed in well 3 and consisting of float chamber 6 rigidly fixed in the upper position above the ridge of siphon block 7 and connected by means of a rigid float drive through valve 8 with a blind section of pipe 13 on a descending branch of siphon block 7. The descending branch of siphon block 7 is connected to discharge pipe 14. Float chamber 6 is connected via hydraulic channel 12 to well 3. The lower part of well 3 is sealed, and above discharge pipe 14 it has outlet opening 15 with branch pipe 17, which is shut off with a level control by means of an additional float drive for control of gate 16. Float gate 16 has L-shaped lever 19 with flange 20, on which float 18 and horizontal plate 23 is fixed. Branch pipe 17 is connected to storage well 3 below the ridge of siphon block 7 by value ?h providing maximum design water filling of well 3 with further discharge to discharge pipe 14. Value ?h is calculated by the following formula: ?h=h-h. The self-regulating mechanism is connected to hydraulic channel 12 and well 3 as per a principle of communicating vessels. When the level of the ridge of siphon block 7 is achieved, a charging device is actuated and water discharge through siphon block 7 is performed in a pressure mode to the level of the inlet opening of its ascending branch. The level control in well 3 is actuated when maximum water level achieves the fixed restraining bracket 21, and opening of opening 15 with gate 16 is performed.EFFECT: use of the invention will allow automating of a ground water level control process and maintaining correct soil humidity balance; automatic flushing of the well with pressure water flow.2 cl, 1 dwg

Description

The invention is intended to implement new management methods in regulating the water regime in irrigation and drainage systems, which allow differentially controlling the level of groundwater in drainage and humidification reclamation lands.

There is a known groundwater level regulator containing a shut-off element with a float actuator installed on the drain head located in the well, it is equipped with a tubular filter and a chamber located in the well, and the shut-off actuator is made in the form of two hinges connected with the possibility of independent movement of floats, one of which is placed in the chamber, communicated through a tubular filter with groundwater above the regulator (Copyright certificate SU No. 763519, class ЕВВ 11 / 00.1980).

The disadvantages of the groundwater level regulator include the fact that it cannot provide continuous discharges of water consumption over the entire control range under conditions of increased drainage when hydrological conditions change, when the water flow increases to maximum values exceeding the capacity of the outlet pipe, for example, after long rains, flooding of the territory. In addition, there is a rather laborious process of tracking the estimated groundwater level and the impossibility of self-regulation. At the same time, the device is difficult to manufacture, the siltation and coating of the tube filter sensor is not provided with sufficient accuracy to maintain the set pressure in the well and cannot work in the entire range of regulation of drainage water depending on fluctuations in the water level in the drainage system. In addition, the design of a movable cylinder with a poppet, interconnected to move relative to each other in the welded body, is difficult to operate and leads to the need to create significant efforts to overcome the hydrostatic pressure in the welded body, acting on the entire area of the shutter when it is opened. These efforts reduce the reliability of the device and, consequently, the reliability of its operation. Due to the friction of the rack, it is not possible to control the system on the vertical stem to completely balance the lever device in two mutually opposite directions, which entails the chance of choosing its position.

A known vacuum drainage system containing drain and feed drains, a storage tank communicating with a drain drain through a siphon, it is equipped with a viewing well in which a siphon is mounted, and the storage tank is connected to the well by a connecting pipe with a float valve located in the well and an overflow pipe with a check valve, while the siphon is connected with a float valve, a flexible hose, has openings and a float located inside, blocking the opening (Copyright certificate SU No. 1381241, class ЕВВ 11 / 00, 1981).

The disadvantage of this system is that the structure containing the float connected to the gate and mounted on the rack with the ability to move, does not have sufficient sensitivity, which is associated with a large friction of the float on the rack in case of its skew when the water pressure on the plane of the shutter with a rapid change in level water in the storage tank, this is due to the rubbing surface. In addition, it does not allow to achieve large permutation forces with a relatively low level in the well, designed to operate only a siphon, the throughput of which is limited by the hole covered by the float. These disadvantages reduce the reliability of operation of the device, and consequently, the reliability of operation, and the complexity of the design.

The objective of this solution is to increase the reliability of groundwater level control in drainage and humidification systems in automatic mode.

The technical result is achieved by the fact that the system of differentiated regulation of the groundwater level, including inlet drains, a manhole, in which a siphon is mounted, a float valve located in the well, and a check valve, is equipped with a self-regulating groundwater level mechanism installed on the descending branch of the siphon, with a self-regulating the mechanism is placed in a float chamber connected by a rigid float actuator through a valve with a blind portion of the pipe on the descending branch of the siphon, with a discharge pipe, while the chamber is hydraulically connected to a well, which is sealed in the lower part, and above the discharge pipe has an outlet with a nozzle blocked by a level regulator by means of an additional float actuator to control the shutter, in addition, the float of which is freely suspended on -shaped lever with the possibility of adjoining its shelves to the bracket-limiter, mounted in the upper part of the wall of the well, and the free end of the L-shaped lever has a rod with attached hydrochloric horizontal plate.

In addition, the limiter bracket is made not lower than the bottom of the float chamber, and the outlet pipe is connected to the well below the siphon crest by Δh, determined by the formula: Δh = h ₁ -h ₂ , where h ₁ is the water depth from the outlet pipe to the bracket- limiter; h ₂ - the depth of the water from the crest of the siphon to the mounting bracket limiter.

The proposed system of differentiable regulation of the groundwater level is aimed at eliminating these shortcomings due to the design, which allows varying the differences in the marks of the holes in the ascending and descending branches of the siphon, allows you to stop the discharge of water before its flow rate drops to the minimum values that are dangerous for overfilling the well. This is due to a change in the hydrological conditions of drainage, when the water flow increases to maximum values exceeding the capacity of the siphon, especially after long rains, flooding of territories. The process of accumulation and emptying of the well will continue until there is a discharge of water through an open hole with a nozzle in the wall of the well and until the siphon simultaneously draws water, the outlet in the blind nozzle, which is regulated by a float actuator with a valve and a float, rigidly connected with a stock defined by a height Δh. In this case, the intervals between discharges are regulated by changing the throughput of the siphon holes in the well wall. It should be noted the positive factor of the presence of a horizontal plate mounted on the free end of the shelf of the L-shaped lever (rod) with a float. Moving a horizontal plate with a float along the height of the water filling in the well smooths out the water surface that is disturbed when water comes from the drain. As a result, the shutter smoothly opens, fixed to the L-shaped lever of the float at the free end of the shelf in automatic mode for water discharge.

A comparative analysis of the claimed technical solution and the prototype shows that in the claimed combination of features, some of the essential features are new, therefore, the claimed solution meets the criterion of "novelty."

The system of differentiated regulation of the groundwater level is illustrated by drawing material.

The drawing shows a system, a longitudinal section.

The system of differentiated regulation of the groundwater level includes drains 1, a collector 2, a storage well 3, in which a self-regulating mechanism 4 of the groundwater level 5 is installed, consisting of a float chamber 6, rigidly fixed in the upper position, above the siphon 7. Siphon 7 has a charger in in the form of an installed valve 8 connected to a rigid rod 9 with a float 10, fixed on the rod 9 with a mounting bolt 11 in the float chamber 6 to change the settings of the self-regulating mechanism 4. The float chamber 6 is connected with a well 3 with a hydraulic channel according to the principle of communicating vessels. The area of the hydraulic channel 12 (holes) is calculated from the time of filling or emptying the chamber 6. The charging device consists of a valve 8 located above the blind portion of the tube 13, which is connected to the descending branch of the siphon 7. The descending branch of the siphon 7 is connected to the outlet pipe 14. The system has in the lower part of the well 3, the outlet 15, equipped with a shutter 16 with a discharge pipe, 17 and a complete overlap of the hole in automatic mode. The float actuator of the shutter 16, consisting of a float 18, is pivotally connected to the L-shaped lever 19, with the possibility of adjoining its shelf 20 to the latch, made in the form of a rigidly fixed bracket-limiter 21 to the wall of the well 3 above the bottom of the float chamber 6. In addition, The L-shaped lever 19 (rod), approximately in its middle part, has an additional lever 22 pivotally connected to the side wall of the well 3, and the free end of the shelf 20 is provided with a horizontal plate 23 and can be much closer to the body of the float chamber 6. The horizontal plate 23 serves to eliminate unrest on the surface of the water and the influence of the seething stream on the float 18 when moving it vertically in the well 3.

The location of the bottom of the float chamber 6, which is rigidly fixed to the wall of the well 3 above the descending branch of the siphon 7 by Δh, determined by the formula: Δh = h ₁ -h ₂ , where h ₁ is the water depth from the outlet pipe to the bracket; h ₂ - the depth of the water from the crest of the siphon to the mounting bracket.

Thus, the self-regulating mechanism 4 in the float chamber 6 is separated from the influence of the water level in the well 3, which eliminates the effect of the bubbling stream of water entering through the collector 2, as well as on the float 18 with the L-shaped lever 19.

The operation of the differential groundwater level control system is shown in the drawing.

In dehumidification mode, charging the siphon 7 starts with the opening of the charger in the form of a valve 8 on the blind pipe 13 and spreads through the descending branch of the siphon 7 connected to the discharge pipe 14. The collector 2 sets the water level, preventing the groundwater level from falling, which translates into a differentiated system regulation of the groundwater level in the humidification mode. When the level of the crest of the siphon 7 is reached, the charger is activated (the lifting force of the float 10 lifts the valve 8 through the stem 9 and allows water to enter the descending branch of the siphon 7). With a sharp increase in the flow of drainage water into the well 3, it is filled with water until the float 18 rises, while the chamber 6 is filled with water through a hydraulic channel 12 connected to the well 3, and the differential groundwater level control system switches to the maximum discharge mode water from the well 3, due to the opening of the shutter 16 with the float 18 and with the horizontal plate 23 in the upper position before pressing against the bracket-limiter 21 of the shelf 20 of the L-shaped lever 19. Excess water exits through the discharge pat felling 17 into the outlet pipe 14. A decrease in the water level occurs in the well 3, and therefore in the float chamber 6. The chamber 6 is emptied to the water level to the crest of the siphon 7 under the dead weight of the float 10 with a rigid rod 9, valve 8 closes the blind pipe 13 .

At the end of the discharge cycle of excess control water in automatic mode, the level in the collector 2 and well 3 drops to restore the required level, which eliminates excess water in the drainage system. The water in the well decreases to the value of Δh between the crest of the siphon 7 and the fixing bracket 21. The setting parameter - the groundwater level in drains 1 is determined by the technological requirements of agricultural production. As the groundwater level rises, the regulatory process repeats.

Thus, varying the differences in the marks of the openings of the ascending and descending branches of the siphon 7, taking into account the operation of the shutter 16, allows to stop the discharge of water before its flow rate drops to the minimum values that remain in collector 2 for possible soil moistening through drains 1 to the required higher distance from the structure, the system will accumulate water in the well, and the excess will be dumped into the outlet pipe.

The application of the system allows the proposed construction design to be used, primarily on vertical drainage (water lowering) systems with a siphon spillway, the excess water discharge regime on which is characterized by a gradual decrease in the discharge values during the growing season with a maximum discharge during floods, for example, after long rains flooding the territory.

The execution of the shutter 16, the float 18 and the horizontal plate 23 on the L-shaped lever 19 leads to increased reliability of the self-regulating mechanism 4 in the float chamber 6 when the siphon 7 is placed in the well 3 together, since the siphon operates in a predetermined mode created by opening and closing its descending branches.

Using this system, including the proposed structure, allows you to create a self-regulating drainage system with increased speeds from the collector to the well, which also allows for a well-filled space, increasing inflow to drains and accelerating the possibility, the process of draining the top layer of the soil, the bottom of the well is self-washed with a drainage current of water.

The simplicity of the design of the proposed drainage system and the low cost of its constituent parts makes it possible to use the system with sufficiently high accuracy of stabilization of water levels in drainage wells and automatic opening of the float valve when there is a sufficient level difference in the well and the correct moisture balance in the soil is maintained.

Claims (2)

1. The system of differentiated regulation of the groundwater level, including inlet drains, an inspection well in which the siphon is mounted, a float valve located in the well, and a check valve, characterized in that it is equipped with a self-regulating groundwater level mechanism installed on the descending branch of the siphon, moreover a self-regulating mechanism is placed in the float chamber, connected by a hard float actuator through a valve with a blind portion of the pipe on the descending branch of the siphon, connected to the outlet pipe, while the chamber is hydraulically connected to the well, which is sealed in the lower part, and above the outlet pipe has an outlet with a nozzle blocked by a level regulator by means of an additional float actuator to control the shutter, in addition, the float of which is freely suspended on an L-shaped the lever with the possibility of adjoining its shelf to the limiter bracket, mounted in the upper part of the wall of the well, and the free end of the L-shaped lever has a rod with an attached horizontal noy plate. 2. The system according to claim 1, characterized in that the limiter bracket is made not lower than the bottom of the float chamber, and the outlet pipe is connected to the well below the siphon crest by Δh, determined by the formula
Δh = h ₁ -h ₂ ,
where h ₁ - the depth of the water from the outlet pipe to the bracket-limiter;
h ₂ - the depth of the water from the crest of the siphon to the mounting bracket limiter.