RU2723186C1 - Drainage system - Google Patents

Abstract

FIELD: land reclamation.

SUBSTANCE: invention relates to reclamation and may be used both in sprinkling and drying of agricultural lands. Drainage system comprises drain 1, collector 2, in wellhead of which there is reservoir 3 of well 4. Well 4 is equipped with outlet branch pipe 5 with flange 7. Float gate 8 with rod 22 and guide posts 10 is located in tank 3 of well 4. Float gate 8 has the shape of dome 17 with conical side walls 18, which along the perimeter have rubber seal 19. Float gate 8 of automatic action has an air outlet-inlet branch pipe 24, on which polyethylene hose 25 is put with positive buoyancy and tension, the latter with its upper part is connected with nozzle of small impeller 26 for supplying air under pressure to valve body 8. In the body of shutter 8 there are symmetrically arranged in its cavity water-outlet branch pipes 27, the output of which in height is located above canopy 17 of the gate, and ends of branch pipes 27 are bent. Float gate 8 is installed with possibility of movement along height on hollow guide posts 10, connected by one end to bottom of well 4, and by another – freely located below hinge 11 on post 12 of articulation linkage 13, connected with tilting shutter 16. Gate 8 slides along guide posts 10 and is retained in the planned position by rings 20 welded to flange 9 of gate 8 and put on guide posts 10 for movement along gate 8 height.

EFFECT: use of invention improves operation reliability of melioration system, provides automation of operation and reduced number of hydromechanical devices, conditions are created to simplify its operation.

4 cl, 1 dwg

Description

The invention relates to land reclamation and can be used both for irrigation and drainage of agricultural land.

A known drainage system, including drains, a collector, a drainage well, an exhaust pipe, an air duct, the upper part of the exhaust pipe is connected to an inlet funnel by a vertical tube extending to the top, with the possibility of contacting with a mounted float-cowl, the walls of which are connected at the bottom of the inlet funnel, at the same time, an aerated nozzle in the form of a confuser is placed inside the fairing float, and the cup covers are equipped with guide pipes through which the racks in the form of adjusting screws with nuts fixed inside to the bottom of the cup are freely passed, and the float is connected by a hinged-lever mechanism with a hinged shutter , overlapping the mouth of the collector, while an adjustable displacement limiter is installed above the inlet funnel, the latter being connected to the fairing float (Patent RU No. 2609388, ЕВВ 11/00 of 02/01/2017).

The disadvantages of the drainage system are the insufficient reliability of the installed fairing float, the walls of which are connected to the release springs, since the constant operation of the springs, both in compression and tension, cannot withstand during prolonged use of the device, i.e. long time. Fatigue of the metal and breakage of springs operating in an aggressive environment is possible. When the fairing float moves upward, resistance arises against the body of the outlet pipe and the operation of the springs, which requires great pressure forces on the fairing float. In addition, the complexity of the device as a whole due to the presence of both a special shape of the fairing float and its other devices in operation. Thus, during long-term operation of this device, sufficient reliability in operation, as well as the need for reconstruction, for use on the reclamation system are not provided.

The closest technical solution known is a drainage system, including drains, a collector, a drainage well, an exhaust pipe, which is connected by a hinged-lever mechanism with a hinged shutter that overlaps the mouth of the collector, an adjustable travel stop, the latter is connected to the float, while the travel stop is equipped with a horizontal plate made of ferromagnetic metal, the plate is connected by means of an annular disk using the upper rod with a hollow cylindrical float, and the float with the rod and guides is located in the well, and the float by means of the lower rod is in communication with a shutter valve installed on the outlet pipe, with in this case, when the float emerges, which is connected by a hinged-lever mechanism with a hinged shutter, the upper position is provided through the upper rod with the ring disk and adjoins a horizontal plate having permanent magnets that hold the float in the upper position after surfacing (Patent RU No. 2667760, ЕВВ 11/00 from 09/24/2018).

The disadvantage of the closest analogue (prototype) is the lack of reliability, since instead of one shutter in the well additional elements are provided for raising it up to the guides. In this case, the limiter surface must have a ferromagnetic metal, which is expensive if there are significant numbers of devices on the system and will cause a rise in the cost of the structure as a whole, and the operability of the shutter itself depends on the float connected by rods from below and from above, calculated by the length in each particular case, and also depends on a given level of water in the well, the rods will need to be adjusted according to the height of the guides, which complicates the device and the need for reconstruction, for use in structures.

EFFECT: reducing the number of hydromechanical devices, increasing speed and reliability in transient operation, and facilitating the operation of a water intake well on a collector with drains of this type.

The technical result is achieved by the fact that the drainage system, including drains, a collector, a drainage well, an exhaust pipe, a lever mechanism with a hinged shutter that overlaps the mouth of the collector, an adjustable travel stop, guides mounted on the outlet nozzle of the shutter, which is connected with a hinged lever according to the invention, it is equipped with a float shutter in the form of a dome and made in the form of a cone with side walls of which I have seals around the perimeter in the direction of the seals installed coaxially above the outlet with a flange, and the automatic shutter is made with an air outlet an inlet pipe at the top of the shutter dome and connected through a flexible polyethylene hose to a small impeller nozzle mounted on the lid of the well for supplying air under pressure after the shutter emerges, and additional water-outlet-inlet pipes are symmetrically placed in its cavity parallel to about the conical side walls, the height of which is connected through the openings in the shutter dome above its surface with bent ends, the float shutter having a rod located in the center of the shutter dome surface when the float shutter in the shape of a dome with a cone made with side walls , connected by a hinged-lever mechanism with a hinged shutter, adjacency restrictions are provided on hollow guide racks with movable stops installed, defining the boundary of the vertical rise of the float shutter in the upper position and locking the shutter in the upper position until the water level in the well reaches a predetermined level to fill the cavity shutter with water through the entrance to the water outlet-inlet nozzles, which correspond to the location of the predetermined flooding level of the float valve with the possibility of accepting it to lower down the guide racks and closing the outlet pipe with a flange, while the hollow guide racks connected at one end to the bottom of the well, and the other freely placed above the corresponding predetermined water level in the well, but below the support arm of the linkage mechanism with the possibility of movement in height on the hollow guide racks down the shutter to close the outlet pipe with a flange.

In addition, the air outlet-inlet nozzle of the shutter on the surface is equipped with a polyethylene flexible hose and is brought to the surface of the water to connect it to the nozzle of a small impeller, has free positive buoyancy.

In addition, the upper end of the hollow guide racks is made with stops in the form of a screw-nut.

In addition, the float bolt has a flange around the outer perimeter to which the rings are welded, and the bolt is worn by them on the guide racks to fix the planned position of the bolt.

The novelty of the proposed proposal lies in the fact that as a result of the use of a new set of design features in the drainage system, namely one of the main elements of the hollow float valve of automatic operation with an air outlet-inlet pipe, as well as located inside the well and using the connection to the nozzle of a small air supply impeller under pressure, air is supplied to the valve body, the air which displaces water from the valve body through water outlet-inlet pipes located at the ends above the plane of the sphere of the valve with curved ends, and the valve is in the raised position until the water is completely drained from the well through the upper part of the outlet a pipe with a flange, and then, when the small impeller is turned off during operation, under its own weight, it falls (slides) along the hollow guide racks down due to the presence of rings welded to the flange fixed on the outer perimeter of the shutter, that is, closing the receiving opening the outlet pipe with a flange in its upper part after the water is drained from the well until it is next filled with a predetermined maximum water level. This is controlled by adjusting the location of the upper fixed stoppers in the form of a screw-nut on hollow guide racks fixed at one end to the bottom of the well, and their upper ends are located below the hinge support of the articulated lever mechanism, while fixing the planned position of the shutter in height in any position height above the outlet pipe with a flange at the bottom of the well, using the ability to work automatically automatically directly the shutter in the well (this reduces the number of hydromechanical devices).

According to the patent and scientific and technical literature, no similar technical proposal was found, which allows us to judge the inventive step of the proposal.

The drawing shows a drainage system, a cut along the axis of the collector.

The drainage system includes drains 1, a collector 2, at the mouth of which a container 3 of the well 4 is placed. The upper part of the outlet pipe 5 is placed by a bend 6 having a discharge flange 7 on the outlet 5, a closing shutter 8 with a hollow located on the outlet 5. a housing, a flange 9 is fixed along the outer perimeter, with which the shutter 8 rests on the flange 7 of the exhaust pipe 5.

The well 4 has guide racks 10 made of pipes, which are fixed at one end to the bottom of the well 4, and the other freely placed below the hinge 11 on the stand 12 of the linkage mechanism 13 and through the hinge 14 connected by a rod 15 with a hinged shutter 16, overlapping the mouth of the collector 2. The shutter 8 is made float-shaped in the form of a dome 17 and in the form of conical side walls 18, which have a rubber seal 19 around their perimeter when lowering the shutter 8 with a hollow body in the direction of contact with the flange 7 of the pipe 5, provides a tight seal of the exhaust pipe 5.

Rings 20 are welded to the flange 9, with which the shutter 8 is put on the guide racks 10, thereby achieving a fixation of the planned position of the shutter 8. After the shutter 8 is mounted on the flange 7 of the nozzle 5 on the guide racks 10, stoppers 21 are installed on the free ends in the form of a screw-nut (threaded connection) defining the boundary of the vertical lift of the shutter 8.

The shutter 8, having the shape of a dome 17 in the center of its surface, has a stem 22 connected via a hinge 23 to the lever arm 13. The hinged-lever mechanism with a hinged shutter 16 in conjunction only with the device of the float shutter 8 worn by rings 20 on the guide racks 10 is a regulator of the flow and discharge of water from the tank 3 of the well 4.

The dome 17 of the shutter 8 has a side air outlet-inlet pipe 24, on which a hose 25 with positive buoyancy and extension (polyethylene) is put on, which is connected with its upper part to the nozzle of a small impeller 26, for supplying air under pressure, i.e. the length of the hose 25 of which exceeds the range of the working height of the well 4. The altitude range of the working of the well 4 is set by the water levels from HC _min to filling the well 4 to a certain predetermined level of HC _max , at which limiters 21 are installed in the form of a screw-nut, at which the hollow shutter is 8 s the flange 9 with the rings 20 is worn on the guide racks 10 and is in contact with the flange 9 with the limiters 21 of the upper vertical position.

In addition, the shutter 8 is equipped with water outlet-inlet pipes 27 inside the housing, symmetrically placed in its cavity parallel to the conical side walls 18, the height of which is connected through the openings in the shutter dome 17 above its surface with curved ends.

The drainage system operates as follows.

When draining, water through drains 1 enters the collector 2, and when the hinged shutter 16 is open, which is open due to the weight of the float shutter 8, flange 9 and rings 20, the tank 3 of the well 4 is filled with water, in which the knee 6 with the outlet pipe 5 is placed and with a flange 7, over the last one there is a coaxial-hollow shutter 8, lower conical side walls 18 with sealing rubber 19, a float shutter 8, which is worn by rings 20 welded to the flange 9, and it is worn on the guide racks 10. Filling occurs due to hydraulic drop between the level of the upstream drain of drain 1 with collector 2 and the water level in tank 3 of well 4. A hydraulic drop is created when pairing with the collector of various orders, while draining. The filling of the tank 3 of the well 4 occurs to the maximum level of hydrocarbon _min , slightly exceeding the surface mark of the flange 7 of the pipe 5, the float valve 8 pops up and the tank 3 of the well 4 goes into operation. The shutter 8 slides along the vertical guides 10, but is held in a planned position by the rings 20 welded to the shutter flange 9, this prevents it from skewing between the guides 10. The well 4 continues to work until the water level in the tank 3 of the well 4 rises to a certain level SW _max . However, the shutter 8 in the upper position is fixed by the limiter 21 on the guides 10, so that the water level in the water outlet-inlet pipes 27 corresponds to a predetermined level of UV _max flooding of the shutter 8 and at the same time the tank 3 of the well 4 is emptied, at which, having sunk the shutter 8, it takes its initial position By closing the flange 7 of the exhaust pipe 5, reopening the mouth of the manifold 2 with a hinged shutter 16. At this time, a small impeller 26 is turned on through a hose 25, an air-outlet-inlet pipe 24, air displaces water from the valve body 8 through the pipes 27, and the valve 8 during flooding of the tank 3 of the well 4 pops up, opening the ring 7 of the pipe 5, the next cycle begins, but the water level in the tank 3 of the well 4 will increase until the float valve 8 is filled in a new cycle along the height of the tank 3 of the well 4, until a certain predetermined raising of the automatic shutter 8 along the guides 10, restricting the position of the shutter by the location of the stops 21 themselves.

If it is necessary to execute the drainage mode, the system automatically maintains the set level in collector 2 when setting the float shutter 8 by adjusting the shutter to pop up below the level of shock _max (to constantly open the hinged shutter 16) by connecting the articulated lever mechanism 13 with rods 15 and 21 and of the float shutter 8, air from the small impeller 26 can constantly enter the casing of the latter and expel water from the shutter casing 8 through the nozzles 27, if it can be filled with increasing water level in the tank 3 of the well 4.

Water discharge is stopped by filling the valve body 8 with water through the nozzles 27 and lowering it when in contact with the flange 7 on the discharge nozzle 5 with a rubber seal around the perimeter of the cone of the side walls 18 in automatic closing with a float shutter 8.

The costs of drains with collectors and the flow rate with the well capacity are calculated according to well-known hydraulics formulas, respectively, this is due to the geometric dimensions of the well and other devices as a whole. This allows regulation in the automatic mode of nodes, having a simple system of nodes. The efficiency of the drainage system is increased.

Claims (4)

1. A drainage system including drains, a collector, a drainage well, an exhaust pipe, a hinged-lever mechanism with a hinged shutter that overlaps the mouth of the collector, an adjustable travel stop, guides mounted on the outlet of the shutter, which is connected with a hinged-lever mechanism with a hinged shutter above the outlet pipe, characterized in that it is provided with one dome-shaped float valve and made in the form of a cone with side walls having perimeter seals installed coaxially above the outlet pipe with a flange, the automatic shutter being made with an air outlet-inlet pipe in the upper part the shutter dome and is connected through a flexible polyethylene hose to the nozzle of a small impeller mounted on the lid of the well for supplying air under pressure after the shutter emerges, and additional water outlet-inlet nozzles are symmetrically placed in its cavity parallel to the conical side walls, the outlet of which is knitted through openings in the shutter dome above its surface with bent ends, the float shutter provided with a rod located in the center of the shutter dome surface when the float shutter in the form of a dome with side walls made in the form of a cone and connected by a hinged-lever mechanism with a hinged shutter emerges the limit is adjoined on hollow guide racks with movable limiters installed, which determine the boundary of the vertical rise of the float shutter in the upper position and lock the shutter in the upper position until the water level in the well reaches a predetermined level to fill the shutter cavity with water through the entrance to the water outlet-inlet pipes, which correspond to the location of the specified flooding level of the float valve with the possibility of accepting it to lower down along the guide posts and closing the outlet pipe with a flange, while the hollow guide posts are connected at one end to the bottom of the well and the other - freely placed above the corresponding predetermined water level in the well, but below the support arm of the linkage mechanism with the possibility of movement in height on the hollow guide racks down the shutter to close the outlet pipe with a flange. 2. The system according to p. 1, characterized in that the air outlet-inlet nozzle of the shutter on the surface is equipped with a polyethylene flexible hose that is brought to the surface of the water to connect it to the nozzle of a small impeller and has free positive buoyancy. 3. The system according to claim 1, characterized in that the upper end of the hollow guide racks is made with stops in the form of a screw-nut. 4. The system according to claim 1, characterized in that the float shutter has a flange on the outer perimeter to which the rings are welded, and the shutter is worn by them on the guide racks to fix the planned position of the shutter.

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