RU2584313C1 - Two-level drainage system - Google Patents

Abstract

FIELD: land reclamation.

SUBSTANCE: invention can be used for uniform ground water level control on lands requiring watering and drainage in area of irrigation. System consists of upper tier drains, lower tier drains, collectors 3, 4, which combine drains of upper and lower tiers respectively into groups. In channel part collectors 3, 4 are looped by means of drain wells 5. Each of drain wells 5 at inlet manifold tube mouth 4 is equipped with extra branch pipe 9 with groove in its upper part, made with seat 10, in middle part of which there is ball gate valve 11. Ball gate valve 11 is connected with stem 12 and via hinge-lever drive is connected with float 16. Ball gate valve 11 with elastic shell is installed in seat 10 of branch pipe 9. Under action of water in well large float 16 raises, respectively, by turn of drive hinged-lever ball gate valve 11 is installed in seat 10 and closes water outlet. Outlet pipe head 6 inside well includes attached from above reinforced elastic valve 19 with edges 20, in lower part of which small float 21 with additional opening lever 22 is mounted, to which in its turn flexible link 23 is secured to stem 15 of large float 16. Operation of two valves in phase opposition to each other, when one of valve is open, and other one is closed and vice versa.

EFFECT: higher quality of operation of wells - controller in automatic mode, higher reliability and stability in operation with melioration system.

4 cl, 2 dwg

Description

The invention relates to the field of land reclamation, in particular for uniform regulation of the groundwater level on lands requiring irrigation and drainage in the irrigation zone.

Known regulator of the water level in the drainage network having a float actuator of a shutoff member made of two valves of different diameters, having a common rod, which is also a draft for the float. The locking body is located in the housing mounted on the head of the drain perpendicular to it (Copyright certificate SU No. 496349, class E02B 11/00 of 12/25/1975).

The disadvantage of a water level controller is its one-way operation, i.e. regulation of the water level when it moves in one particular direction. In addition, it has low accuracy in regulating groundwater levels due to mismatch in the well and in the drained area.

Known regulator of groundwater level, including a locking element with a float actuator and a rod mounted on the head of the drain located in the drainage well, the locking element is made in the form of a rotary nozzle with drainage windows, equipped with a shutter glass mounted on it with the possibility of free movement and fixation in extreme positions, while the glass is connected by means of removable mounting brackets to the rod of the float actuator when the position of the L-shaped pipe is reversed (Author's certificate elstvo SU №1645360, cl. E02B 11/00 from 30.04.1991).

The disadvantage of the regulator is the presence of a shutter-glass with overlapping windows, it is difficult to manufacture and, as a result, a large metal consumption. The window device provides for periodic cleaning of them, which complicates the operation of the regulator. In addition, a glass with a rubbing surface, which is part of the regulator, significantly reduces its reliability.

Known drainage system, including drainage of the upper and lower tiers, connected to the drainage collector, and the pumping station, the collector is equipped with a shield regulator in the wellhead with the possibility of installation in two fixed positions that correspond to the norms of drainage of each tier (Copyright certificate SU No. 1550034, class E02B 11/00 from 03/15/1990).

The disadvantage of this system is limited functionality, in particular, it is necessary to manually move the floats up for each given level of water discharge into the collector, the difficulty of control, the height of the structure increases significantly, which increases construction costs, in addition, it is difficult to maintain the water outlet with the complexity of the rubbing surfaces shield on the wall of the well with a possible jamming and stopping of the shield in intermediate positions, i.e. It takes a lot of effort to move it, and water leakage through the shut-off element. Another disadvantage is that the column of water presses on the surface of the shield, and therefore, its sensitivity to changes in the pressure of water in the well is low.

A two-tier system is also known, including drainage of the upper and lower tiers connected to the open collector through a level regulating well, the system is equipped with closed collectors of drainage of the upper and lower tiers, respectively, looped together by means of regulating wells (Copyright certificate SU No. 1629391, class E02B 11/00 from 02/23/1991).

A disadvantage of the known system is that during the operation of the well-regulators there is no specific technical solution that discloses its technical essence of work to maintain the groundwater level with looped collectors, which can automatically adjust the groundwater level, in particular, the described known system and its effect when the locking body works stably even when the movement of water is perpendicular to the area of the regulator, on the body of which it is set to a predetermined level. In cases of using the analogs of the water level regulators known above, as follows from the description of their shortcomings, they have a complex structure, metal consumption and reduce the accuracy of regulating the discharge of drainage water, in addition, it is difficult to service the outlet openings of the nozzles in the mouths, as well as clogging with garbage. Another disadvantage is that such a regulator cannot provide an automatic sharp and complete opening of the valve when a certain water level is reached in the well. All of this generally limits performance and low reliability.

The problem to which the invention is directed, improving the performance of well-regulators for discharging water from the drainage network, as well as regulating the discharge of water.

The technical result from the use of the invention is to automate the technological process of a two-tier drainage system during operation, simplify the design and ensure that the regulator is turned on and off for the drainage system when the specified water level in the well is reached.

The specified technical result is achieved by the fact that the two-tier drainage system, including drainage of the upper and lower tiers, connected to the open collector through the level regulator well, while the system is equipped with closed collectors of drainage of the upper and lower tiers, respectively, looped between each other through the regulator wells, each of the well-regulators at the inlet of the wellhead pipe of the collector is additionally equipped with a pipe with a hole in its upper part, made with a saddle, in the middle of which n a ball shut-off valve kinematically connected to a large float by means of an articulated lever actuator, wherein a through water outlet is made in the bottom of the seat, and a reinforced elastic valve is placed at the outlet of the discharge pipe, additionally loaded with a small float in its lower part, and an elastic valve connected by the lower end by means of a flexible rod fixed to the lever with the rod of a large float.

In addition, the upper open part of the pipe faces the outlet of the opening and is located above, while the distance between them is not more than the radius of the ball shut-off valve.

In addition, the ball shut-off valve on the outside is covered with an elastic shell, and the seat has a spherical shape.

In addition, the lower part of the reinforced elastic valve is additionally equipped with a lever attached to a flexible rod.

The set of the following features during the operation of the drainage system and due to the design parameters of the device, for example, the shape of the seat of the additional nozzle in the form of a spherical shape, then the connection of the ball shut-off valve associated with a large float through an articulated lever drive, and the execution of the shut-off element reinforced with an elastic outer surface in in combination with a spherical saddle, it allows you to smoothly adjust the amount of discharged water flow from the collector and filling the well with water to achieve the specified of water levels and eliminate vibration of the ball check valve ensures smooth flow of water into the well; reliable sealing in the absence of jamming (biting) of the ball shut-off valve to the hole seat. In addition, the distance between the holes in relation to the size of the ball shut-off valve allows for a stable position when closing the water outlet, there is no effect of water ripple on the ball valve. It should be especially noted that the dimensions of the device are reduced and the reliability and stability in operation are increased.

The spillway from the well at the beginning of the head includes a blocking outlet inside its reinforced elastic valve, in the lower part of which a small float is fixed, and the end of the valve is equipped with an additional flexible rod connected through a lever with the rod of a large float.

The invention is illustrated in the drawing, where in FIG. 1 shows a two-tier drainage system, a general view; in FIG. 2 - connection diagram of a collector with a drainage well-regulator.

The system consists of drains of the upper 1 and lower 2 tiers and collectors 3 and 4, combining the drains of the upper and lower tiers into groups, respectively. Drains of the upper 1 and lower 2 tiers are perpendicular to the upper 3 and lower 4 collectors at the points of their connection, and they are alternately connected to the upper 3 and lower 4 collectors, respectively. In the near-channel part, the collectors 3 and 4 are looped by means of drainage wells 5. The head of the pipe 6 is connected to the open channel 7.

In the well, float locking devices are provided, consisting of an inlet pipe 8, on which a pipe 9 is additionally fixed at the base of the pipe 8 and has an installed opening with a seat 10, the shut-off valve is made in the form of a ball 11 connected rigidly to the rod 12 and through a hinge with a lever 13 with a swing hinge 14, while the lever 13 is pivotally connected via a rod 15 to a large float 16. The ball shut-off valve 11 is coated on the outside with an elastic shell 17. The housing of the additional pipe 9 can be removed many (not shown).

The diameter of the water outlet 18 is not more than 0.7 of the diameter of the ball shut-off valve 11 in order to prevent jamming of the valve 11, the hole of the upper open part of the additional pipe 9 to the hole of the outlet of the seat 10 is located higher and the distance from the upper open part of the pipe between them is not more than the radius of the ball check valve 11.

The output end of the pipe 6 inside the well 5 includes a reinforced elastic valve 19 mounted on top with ribs 20, in the lower part of which a small float 21 is attached with an additional opening lever 22, which in turn is attached to the rod 15 of the large float 16 through a flexible rod 23.

A two-tier drainage system operates as follows.

In the discharge mode and at groundwater levels above normal, the water flowing from the soil to the drains of the upper 1 and lower 2 tiers moves to the collectors 3 and 4 and then flows through them to the wells 5. The collectors 3 and 4 are looped to allow discharge of the water taken upper 1 and lower 2 tiers of drains.

Regulators are installed in the drainage well and adjusted to a predetermined pre-selected level of groundwater in the soil.

When water flows from the collectors 3 and 4 into the well 5, the ball shut-off valve 11 is open, the water gradually fills the well 5. At the same time, the pressure of the water column presses on the reinforced elastic valve 19 and hermetically closes the outlet end of the pipe 6. Thus, the discharge of water from the well is prevented 5 into the open channel 7, therefore, the water level in the well 5 rises, and the ball shut-off valve 11 itself is in a calm position (open).

As it fills, the large float 16 pops up automatically, when the lifting force of the large float 16 and the small float 21 becomes equal to and more than the water pressure on the reinforced elastic valve 19 with ribs 20, only the jerk of the lower part of the valve web 19, which rises upward, opens first and, at the same time, the lever 13 is rotated clockwise. The ball shut-off valve 11 is lowered down into the spherical seat 10 and covers the water outlet of the outlet with the seat 10. During raising the level in the well 5 and due to the design parameters of the additional pipe 9, for example, the shape of the seat 10 and the diameter of the water outlet of the outlet of the seat 10 provides complete sealing of the device by pressing the elastic shell 17 to the surface of the seat 10 and reliable sealing in the absence of jamming (biting) of the ball shut-off valve 11 in the recess to the seat 10, and the placement of the open upper part of the hole of the additional pipe 9 coaxially oriented and the outlet recess (hole) in the seat 10 with a distance between them at a distance no greater than the radius, when closing the valve 11, at the same time starts to discharge water through the head of the pipe 6 into the open channel 5 by opening part (or more) of the hole, opening valve 19 up. Thus, when the specified water level in the well reaches the desired level, the rest of the reinforced elastic valve 19 can rise even higher and allow a greater flow of water into the pipe 6. With this position of the valve 19 and raising the large float 16, the lever 13 of the ball shut-off valve 11 with a stable vertical position and closing of the additional pipe 9, and therefore, there is no influence of water pulsations on the valve 11, i.e. it is possible to seal the elastic material of the ball check valve 11 with a high degree of sealing.

A prerequisite for the normal operation of the drainage well is that the flow rate of water entering the well 5 was greater than the flow rate of water flowing from the well 5 through the head of the pipe 6 into the open channel 7, at the time of opening of the ball shut-off valve 11, i.e. Q _n > Q _c , where Q _n is the flow rate of water entering the well 5; Q _c - water flow rate entering the discharge pipe 6 in.

With a decrease in the water level in the well 5, a large float 16 and then a reinforced elastic valve 19 with a small float 20 are lowered along with it. When the large float 16 is lowered, the articulated lever actuator with a ball shut-off valve 11 opens an additional nozzle 9 with a mounted seat recess 10, and under the action of its own weight with stiffening ribs 20, a valve 19 with a small float 21 is lowered, and the latter remains in its original position, preventing the outflow of water from the well 5.

The successful functioning of the two valves together in antiphase to each other ensures the correct choice of one of them to close the hole in the additional pipe 9, and the other hole to open the head of the pipe 6 communicated with the open channel 7. The opening of the head of the pipe 6 is selected depending on the diameter the discharge pipe, the estimated flow rate of the water and the volume accumulated in the well until the closure of the water outlet of the additional pipe 9 with a seat 10 with a ball shut-off valve 11.

In this case, the large float 16 is lowered, as a result of which the articulated lever drive by the lever 13 of the control beam (actuator) acts on the ball shut-off valve 11, opening it, or in the case of closing the valve 11.

By changing the height of placement of the large float 16 on the stem 15, it is possible to change the filling program for the well 5, as a result of filling the well with water, the float of the ball shut-off valve pops up and automatically overlaps the collector sections 3 and 4, thereby ensuring uniform raising of groundwater and moistening the soil.

The proposed system maintains the estimated groundwater level in the soil and discharges the excess water with automatic control of the degree of opening of the ball shut-off valve and at the same time closing the reinforced elastic valve in antiphase and then, on the contrary, the process repeats.

The use of the invention reduces the intensity of deposition of fine fractions of sediment coming from drains and reservoirs in a steadfast relief, without fear of increased siltation of sediment due to increased discharge characteristics for drainage water discharge.

The effectiveness of the invention lies in the fact that it allows to improve the operational quality of well-regulators, speed in operation, improves the operation of the entire system as a whole, prevents unproductive leaks. In addition, the ball shut-off valve provides a reduction in the resistance (flow) when opening the water outlet in the additional pipe; the dimensions of the device are reduced and reliability and stability in operation are increased, and conditions are created to reduce operating costs for servicing well-regulators, and overall the reliability of the reclamation system is increased, and its service life is increased.

Claims (4)

1. A two-tier drainage system including drainage of the upper and lower tiers connected to the open collector through a level regulating well, while the system is equipped with closed collectors of drainage of the upper and lower tiers, respectively, looped between each other by means of regulating wells, characterized in that each of wells-regulators at the inlet of the wellhead pipe of the collector is additionally equipped with a nozzle with a hole in its upper part, made with a saddle, in the middle part, in which the ball shut-off valve is located, It is mathematically connected with a large float by means of a articulated lever actuator; in this case, a through water outlet is made in the bottom of the seat, and a reinforced elastic valve is placed at the outlet of the spillway pipe, additionally loaded with a small float in its lower part, and the elastic valve is connected to the lower end by means of a flexible traction attached to the lever with the stem of a large float. 2. The system according to claim 1, characterized in that the upper open part of the pipe faces the outlet of the opening and is located above, while the distance between them is not greater than the radius of the ball shut-off valve. 3. The system according to claim 1, characterized in that the ball check valve on the outside is covered with an elastic shell, and the seat has a spherical shape. 4. The system according to claim 1, characterized in that the lower part of the reinforced elastic valve is additionally equipped with a lever attached to a flexible rod.

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