RU2530527C1 - Controller of groundwater level - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: controller comprises a drainage well 1, a locking element 3 mounted on the inlet head of the drain pipe, a float 11 with a rod 14, and a pipe 28 of the discharging collector 29. The locking element 3 is provided with an L-shaped lever 4 which is pivotally attached to the rod 5 connected to the lever of the float actuator 10, pivotally connected with one end to the side of the well. The float 11 and the locking element 12 of the pipe 28 are pivotally connected by the rods 14, 15 to the middle part of the lever 10 with the ability of their vertical movement, respectively, to the opposite when changing the position of the locking element 3 at the inlet head of the drain. The float 11 is located in the chamber 16 which is placed inside the well 1.

EFFECT: improving reliability and accuracy of work by maintaining the water level in the well, flexible and differentiated regulation of preset levels on the command area.

4 cl, 1 dwg

Description

The invention relates to land reclamation and can be used to automatically control the level of groundwater.

A known groundwater level regulator containing a drainage well mounted on the head of the drain shut-off body with a float actuator, and the actuator is made in the form of two pivotally connected with the possibility of independent movement of floats, one of which is placed in the chamber, communicated through a tube filter with groundwater above the regulator and the second in the well. Such a device allows you to stabilize the water levels in the well and open the drainage collector regardless of this level when the groundwater level is exceeded (USSR Author's Certificate No. 763519, class ЕВВ 11/00, 1978).

However, the device requires water supply through the drainage collector from source to mouth and is characterized by low stabilization accuracy. The device is difficult to manufacture, during operation due to the siltation and ochering of the tube filter sensor, it is not possible to maintain the set pressure with sufficient accuracy.

The closest to the intended purpose is the water level regulator in the drainage network, which includes a shut-off element installed on the inlet head of the drainage pipe, a float with a rod, a drainage well and an outlet pipe (USSR Author's Certificate No. 496349, class ЕВВ 11/00, 1975) .

A disadvantage of the known regulator is the low efficiency of regulating the water regime of the soil, as well as the need for manual settings to switch to another mode of operation, and has the delayed opening process of the locking member made of valves interconnected by rods, the lower valve being located inside the locking member, and the top one is outside, in connection with this, it is not sensitive enough when the water level in the well changes, it requires a higher quality of manufacturing of the actuator, since consequence of two perpendicular valves having a common stem, the lower valve can refuse to work at its jamming due to casing corrosion or contamination, which leads to a sharp increase of the resistance forces and the error maintain the water level in the sump.

The purpose of the invention is to increase the reliability and accuracy in the work by maintaining the water level in the well.

This goal is achieved by the fact that in the groundwater level regulator, including a shut-off element mounted on the inlet head of the drainage pipe, a float with a rod, a drainage well and a nozzle, the shut-off element is equipped with an L-shaped lever pivotally connected to the rod connected to the float actuator lever pivotally at one end of a well attached to the board, and the float and the locking element of the nozzle are pivotally connected by rods to the middle part of the lever with the possibility of vertical movement, respectively, on the same when changing the position of the locking element on the inlet head of the drain, while the float is located in the chamber, which is located inside the well.

In addition, the chamber of the float actuator is in communication with the cavity of the venturi by means of a pipeline with a valve.

At the same time, the locking body of the nozzle is equipped with a cylinder with a rod, a return spring and a valve that is connected to the nozzle for communication with the drain by means of a Venturi pipe.

In this case, one of the walls of the chamber in the upper part is made with an inlet and with a visor.

The use of a groundwater level regulator can improve reliability and accuracy in operation by maintaining the water level in the well. Consequently, the flow rate also stabilizes in the branch in case of any change in the level in the well, opening the shut-off element on the pipe branch pipe. There is a discharge of water from the collector-drainage network, which, ultimately, leads to a decrease in the groundwater level in the array, and therefore, the water level in the well. This connection, which is associated with transients in the actuation mode of the shut-off element on the head of the drainage pipe, and movement to the opposite with respect to the float actuator and the shut-off element on the drain pipe in the range of different levels and pressures in the well, does not impose high requirements on the quality of the drainage water , as well as reduced effort on the float actuator and the locking element on the drain pipe. In addition, this connection with the narrowed part of the venturi pipe with the float chamber can characterize the transient process in the well, both slow and fast, the level of the water level is triggered, and when the valve is opened, the compression return spring closes the culvert through the stem the saddle of the closure body, while blocking the flow of water into the drain pipe. In addition, the weight and elastic forces of the elements must be selected in such a way as to cover the entire range of levels at which regulation is carried out, and to prevent overfilling in front of the well.

The drawing schematically depicts a groundwater level regulator.

The groundwater level regulator includes a well 1 with an inlet pipe 2 of the collector, a locking member 3, which is connected via a hinge lever 4, rod 5 and rigid connections through hinges 6, 7, 8, 9 to a lever 10, one end of which is pivotally connected to side of the well 1, and the float 11 and the valve 12 are pivotally connected to the middle part of the lever 10, the rods 14 and 15, respectively. The chamber 16 is made in the form of a float actuator, placed inside the well 1 and mounted on vertical supports 17 to the bottom of the well 1. One of the walls 18 chamber 16 is made with an inlet 19, located in the upper part of the wall 18 with a visor 20. The position 21 denotes the level limiter of the float 11. The stem 15 of the valve 12 is placed in the cylinder 22 with a return spring 23, one end of which is attached to the cover 24 of the cylinder 22, and the other to the valve 12. A flexible connection between the cover 25 of the housing 26 and the valve 12 is made in the form of a sleeve 27 of a flexible reclamation fabric. The housing 26 of the valve 12 is connected to the pipe 28 of the outlet manifold 29, which has a constriction made in the form of a Venturi pipe 30. The narrowing angle of the venturi pipe confuser α = 40-50 °, and the diffuser expansion angle β = 6-8 °. Venturi pipe 30 using a pipe 31 with a check valve 32 and a valve 33 is connected to the chamber 16. The cylinder 22 is attached to the cover 25 of the housing 26.

The degree of opening of the valve 12 and the flow rate through the seat of the housing 26 depend on the ratio of forces acting on the float 11, i.e. the volume of the float and its dimensions (diameter and height) are determined from the condition of reliable closure of the locking element 3 with the L-shaped lever 4 on the drainage manifold, taking into account the elasticity of the return spring 23, the weight of the sleeve 27 with the valve 12 with the stem 15.

The force of the hydrodynamic pressure on the valve is determined by the formula F _d = ρVQ _p , where ρ is the density of water, kg / m ³ ; V is the average flow rate in the housing, m / s: Q _p is the flow rate through the collector outlet pipe regulator, m ³ / s.

Thus, the working valve 3 to close the inlet pipe 2 of the manifold and the opening of the valve 12 with the return spring 23 are mixed as a result of the float and pressure changes from the water level in the well.

The diameter of the conditional passage of the housing 26 on the collector 29 is determined based on the maximum discharge flow in the well 1 and the water level in the latter.

To seal the holes in the housing 26, the stiffness of the return spring 23 is selected taking into account the forces of water pressure in the well on the valve.

The regulator of groundwater works as follows.

When water enters the collector, the regulator is in the position when the shut-off member 3 is open on the drain manifold. The system must be balanced so that when water enters the well 1, the float 11 is in the lower position, and the valve 12 covers the cross section of the hole in the housing 26. As a result, the water level in the well 1 will exceed the mark of the hole 19 in the wall 18, the visor 20 of which directs water to the bottom of the chamber 16 and helps smooth the surface of the water leaving the hole 19, the water level rises. The chamber 16 is filled with water, the float 11 raises the lever 10, and the valve 12 opens, respectively, there is a movement to the overlap of the drainage collector by the locking body 3.

When the drainage water passes through the narrowing of the drain pipe of the drain 29, that is, through the Venturi pipe 30, a pressure is formed in its narrowed part, which, with the appropriate choice of the diameters of the drain pipe 29 and the narrowed part of the Venturi 30, is less than the pressure in the pipe 31. As a result of the pressure difference water flows from the chamber 16 through the check valve 32, the valve 33 through the tube 31 into the narrowed part of the venturi 30 with a flow rate, including and from hydraulic pressure losses in the non-return valve 32, valve 33 and tube 31.

When the water level in the well 1 and in the chamber 16 decreases, the float 11, following the water level, drops, entraining the stem 14, affecting the position and releasing the compression of the spring 23, and through the stem 15, the valve 12 closes the manifold 29.

If there is excess water in the drainage network (the water level in the well rises again to the mark of the inlet 19 of the wall 18), the shut-off member 3 is in the open position until the desired level is restored.

In order to prevent the discharge of water into the collector 29 from the narrowed part of the venturi 30 through the pipe 31 to the chamber 16 when the pressure in the narrowed part of the venturi 30 increases suddenly and the pressure in the pipe 31 is exceeded, which may suddenly happen, for example, when the movement of water drainage stops by the discharge manifold 29 or a significant increase in pressure in it, the check valve 32 instantly blocks the flow of exhaust water through the tube 31 into the chamber 16.

When the chamber 16 is completely free of water, the valve 12 closes, and the shut-off element 3 opens the inlet manifold of the inlet pipe 2, which is connected via a hinged lever 4 and rigid connections through a hinge 10 to a lever 10 pivotally attached to one side of the well 1 with adjusted force the springs 23 inside the cylinder 22. The spring 23 expands and creates a force of tight closing by the valve 12 of the outlet in the housing 26, and the cycle repeats.

The parameters of the spring 23 inside the cylinder 22 (stiffness, length) are selected in such a way that by the moment the valve 12 is informed of the impulse to close the hole in the housing 26 due to the energy of the compression of the spring 23, the valve 12 is pressed tightly in the housing 26, which increases the reliability of the controller.

As a result of this, there are no water leaks from the well, accurate and reliable maintenance of groundwater levels is ensured, and flexible and differentiated regulation of set levels on the command area is provided depending on the types of crops and the growing season, which contributes to the achievement of high and stable levels of crops in independence from weather conditions.

The effectiveness of the proposed controller lies in the fact that this design of the locking elements in the groundwater level regulator works in antiphase (opposite change) when filling and releasing the well from the water, respectively, and the chamber, which allows the operation of the locking elements to be maintained in a stable mode, i.e. . automatic control of set groundwater levels in the humidification mode and drainage water discharge in the drainage mode is provided.

Claims (4)

1. The groundwater level regulator, including a shut-off element installed on the inlet head of the drainage pipe, a float with a rod, a drainage well and a pipe, characterized in that in order to increase reliability and accuracy in operation by maintaining the water level in the well, the shut-off element is equipped with shaped lever pivotally connected to the rod connected to the lever of the float actuator, pivotally connected at one end of the well to the board, and the float and the locking element of the pipe are pivotally connected by rods to the middle part of the lever with by their vertical movement, respectively, to the opposite when changing the position of the locking element on the inlet head of the drain, while the float is located in the chamber, which is located inside the well. 2. The controller according to claim 1, characterized in that the chamber of the float actuator is in communication with the cavity of the venturi by means of a pipeline with a valve. 3. The regulator according to claim 1, characterized in that the locking element of the nozzle is equipped with a cylinder with a rod, a return spring and a valve that is connected to the nozzle for communication with the drain through the venturi. 4. The controller according to claim 1, characterized in that one of the walls of the chamber in the upper part is made with an inlet and with a visor.