RU2577069C1 - Drainage device - Google Patents

Abstract

FIELD: reclamation.

SUBSTANCE: drainage system comprises manifold 1 and 2 head header connected to each other by means of V-shaped branch pipe 3. Branch pipe 3 there is bend downward. To lower part of branch pipe 3 is connected tubular outlet 4. At the end of tubular outlet 4 is installed valve 5 with horizontal rotation axis, which is fixed to lever 6. Lever 6 valve gate 5 is attached to lower end of rigid tie rods 13, which upper end is fixed on one of three-link articulation linkage. One arm of the articulation linkage is secured on vertical post 10 connected with orifice 2 of collector 1. On the other arm of the articulation linkage freely suspended control tank-counterweight 19, in which coaxial float chamber 21 is located. Tank-counterweight 19 is communicated with the end of tubular 4 discharge through hole 33 with flexible tube 34 connected to inlet branch pipe 35-sensor deposits, with valve 36. Float chamber 21 via flexible tube 39 communicates with manifold 1 before V-like branch pipe 3. Head 2 of the collector comprises additional valve 8, fixed by means of hinge 17 with the second rigid tie-rod 16. Second rigid tie-rod 16 upper end is connected with lever 12 three-link articulation linkage on the side of the shoulder lever secured to post 10.

EFFECT: invention usage allows to automate the process of adjustment and operation speed of operation.

3 cl, 1 dwg

Description

The invention relates to drainage reclamation, in particular to the drainage of waterlogged soils.

Known drainage device comprising an open channel and interconnected collector and the mouth of the collector (Copyright certificate SU No. 1146362, E02B 11/00 of 03/23/1985).

Its disadvantage is the low efficiency of operation, since the mouth of the collector is quickly silted up, and flushing in the horizontal section is difficult to do even with a manual shutter, since it is pressed against the grooves, its stroke is slow at the opening, and it is difficult to lift it up due to the large resistance (friction) on the pipe wall. In addition, it is difficult to carry out the washing time of the deposited sediment in a manual setting. In the case of sedimentation, sediment deposited at the mouth of the pipe, long transitional washing regimes are necessary, or it is necessary to create large pressures of water, which is not always the case in the operation of a drainage device. As a result of the fact that the marks of the drainage pipe and the mouth of the collector are located in the same plane, this reduces the pressure above the drain and slows the drainage of water from the system, reduces the vacuum in the drainage system and in the soil layer. As noted in the analogue, it is necessary to arrange inspection wells, which increases the cost of the drainage device.

Closest to the invention is a drainage device comprising an open channel and interconnected collector and the mouth of the collector, the collector is in communication with the mouth by means of a V-shaped pipe mounted knee down, while the lower part of the pipe is provided with a tubular located under the mouth of the collector and brought into the open channel with a tap, with a locking body (Copyright certificate SU No. 1381240, E02B 11/00 of 03/15/1988).

The disadvantages of the known drainage device are the lack of operational regulation in the automatic mode of operation of the pipe outlet, and the inconsistency of the discharge of water when silting a V-shaped pipe and a pipe outlet with sediment for washing into an open channel associated with the manual control of a shut-off element (valve). In addition, there is no complete backflow of water to the lower part of the curved pipe for active flushing of sediment deposited on the inclined walls of the curved pipe. Water discharge during flushing of the pipe outlet is slow, since the regulation of the manual valve does not allow this to be done quickly, i.e. sharply, which means that complete cleaning of the V-shaped pipe in a short period of time with a smaller discharge of water for washing sediment is not possible, while the flow from the V-shaped pipe into the pipe outlet is slow, which means that the discharge of water will continue for a long time; the sensitivity of the closure organ to a change in the pressure above the collector is lost and reduces the accumulation in the drainage system and in the soil layer.

Thus, the known drainage device cannot provide automatic, abrupt and complete opening of the shut-off element on the pipe branch when a certain pressure is reached in the manifold and siltation of the V-shaped pipe occurs.

Known drainage systems according to copyright certificates SU: No. 1122779, No. 1528856, No. 1629387.

However, the known devices have low productivity and require large heads of water so that, for example, the siphon does not open up, otherwise, air will enter the knee-shaped pipe, which will cause a malfunction. Another reason is the difficulty in washing the sediment, since their deposition and calcination in the direction of the plug will cause it to jam, in addition, there is no speed in automatic operation, since the plugs have manual drives, the difficulty in tracking accumulated sediments and timely flushing.

The objective of the invention is to increase the efficiency of the drainage while maintaining a vacuum and automation.

The technical result is aimed at improving the accuracy of regulation and speed in automatic mode.

The technical result is achieved by the fact that the drainage device, including an open channel and interconnected collector and the mouth of the collector, the collector is communicated by the mouth by means of a V-shaped pipe mounted knee down, while the lower part of the pipe is provided with a tubular located under the mouth of the collector and brought into the open channel with a locking body, the locking body is made in the form of a valve shutter with a horizontal axis of rotation and is fixedly mounted to the shutter lever attached to the lower end of the rigid traction, which the upper end is fixed on one of the levers of a three-link articulated lever mechanism, one shoulder of which is fixed on a vertical strut connected to the mouth of the collector, and a control counterweight is freely suspended on the other, in which the float chamber is coaxially placed, the communication tube is flexible and communicated with the collector in front of the V-shaped pipe, while the mouth of the collector further comprises a valve shutter on a horizontal axis of rotation, fixed by a hinge with a second rigid Yagi, which upper end is connected to the three-link articulated arm link mechanism from the one lever fixed to the rack.

In addition, the counterweight container is made with an outlet pipe, which is made in the bottom of the control tank body, which is blocked by the valve of the float chamber on the inside of the outlet pipe, and a drain hole is made in the bottom of the control tank.

In this case, the valve gates rotate in opposite directions, one of which is fixed on top of the tubular outlet, and the other from the bottom of the mouth of the collector.

The present invention is aimed at eliminating these drawbacks due to the design, which allows you to create a hydraulic back-up alternately both in the V-shaped pipe with a pipe outlet and in the mouth of the collector in the automatic mode of operation of the locking elements. The location of the design of the three-link articulated lever mechanism associated with the upper and lower valves, and the counterweight tank, retains the required moment required for each valve to be closed or opened simultaneously by each valve on the pipe outlet that is opened in the open channel, as well as on the final section of the collector mouth, behind due to leverage of the lever arm (rocker arm), i.e. the connection of the elements improves the conditions of water uptake alternately in the tubular outlet or at the mouth of the collector. This increases the efficiency of flushing sediment accumulated in the V-shaped pipe, in particular, on inclined, especially in narrowed areas, due to water hammer caused by a sharp closing of the outlet of the mouth of the collector. In this position, the maximum sediment washout occurs with the maximum water drainage through the tubular drainage brought into the open channel. An additional valve shutter at the mouth of the collector, in this case, in the closed position, does not allow air from the atmosphere to enter the collector.

When washing the deposited sediment in the device, the flow of water into the float chamber ceases, at the same time it is emptied through the discharge pipe into the open channel, since the pressure in the collector drops. At the same time, the float cannot hold the valve to open the water outlet of the nozzle in the bottom of the control tank, since the lifting force of the float is designed to overcome the force acting on the shutoff valves of the pipe outlet and the mouth of the collector from the pressure of the water column when they communicate with the pressure of the water from the collector . The amount of incoming water in the control tank at this moment then again increases, causing, and the moment of force from its weight relative to the axis of rotation on a vertical column mounted on the mouth of the collector, and becomes more than the moment from the hydrostatic pressure from the tubular outlet, the shutter automatically closes the hole. This creates a hydraulic back-up in the end part of the pipe branch and filling the V-shaped pipe, eliminates air ingress and, when the shutter is additionally opened at the end section of the collector mouth, the vacuum is broken and water flows through the mouth of the collector.

The drawing shows a drainage device, section.

The drainage device includes a collector 1 and a mouth 2 of the collector, interconnected by means of a V-shaped pipe 3, mounted knee down. A pipe branch 4 is attached to the lower part of the nozzle 3, at the end of which a valve shutter 5 with a lever 6 is mounted, attached to the pipe branch 4 by a hinge 7 on top of the branch 4. The collector mouth 2 further comprises a valve shutter 8 attached to the bottom of the mouth 2 by means of a hinge 9. Above the mouth of the manifold 2 from the outside of the pipe, which is fixed to a vertical strut 10, to which, by means of a hinge 11, a three-link hinged-lever mechanism is fixed, including a rotary lever 12 and a lever 6 of the valve shutter 5, which matured interconnected by means of rods 13 and the joints 14 and 15, the pivot lever 12 and the additional valve 8 are interconnected rods 16 and the joints 17 and 18. The capacity-counterweight 19 is suspended by a hinge 20 to the cantilevered portion of the lever 12.

The control device is made in the form of a regulating capacity counterweight 19 and fixed inside the cylindrical chamber 21, in which the float 22 is mounted on the stem 23 with the valve 24 with the possibility of interaction with the discharge outlet pipe 25 of the control capacity of the counterweight 19.

The float chamber 21 is provided at the bottom of the bottom with a drain pipe 26 with a valve 27, and a counterweight tank with a nozzle 28 with a valve 29. In addition, the float chamber 21 has guides 30 in its upper part, and guides 31 and a bellows 32 for isolating the cavity of the float chamber 21 from the cavity of the tank-counterweight 19 and for the free translational movement of the rod 23.

The counterweight tank 19 is in communication with the end of the tubular outlet 4 through an opening 33 with a flexible tube 34 connected to the inlet pipe 35 - sediment level sensor, with a valve 36.

The float chamber 21 through the hole 37 with the pipe 38 is connected through a flexible tube 39 to the pipe 40 with the valve 41. The pipe 40 is fixed to the manifold 1 on a given working pressure in its upper part. The cross-sectional area of the nozzles 35 and 40, respectively, to the drain pipes 26 and 28 are different, and can be adjusted by valves 27, 29, 36, 41.

The drainage device operates as follows.

Water collector 1 is discharged through the mouth of the collector 2, filling the nozzle 3. The water plug formed in the nozzle 3 provides sealing of the collector, which excludes air from entering the drainage system. Water fills the pipe outlet 4 with the closed shutter 5 and the open shutter 8 of the mouth 2 of the collector. After water enters the mouth of the manifold 2 and with the shutter 5 closed, when it reaches its predetermined level in the nozzle 3, the counterweight 19 is filled with water through a flexible tube 34 (water filling sensor). The weight of the container 19 increases, and through a three-link articulated lever mechanism, the automatic shutter 5 closes the outlet in the tubular outlet 4, i.e. the moment from the weight of the water of the counterweight tank 19 and the weight of the water in it is greater than the moment of the hydrostatic pressure of the water on the valve 5. The valve is in the closed position. At the same time, there is no water in the float chamber 21, and the float 22 itself is located in the lower position.

When the tubular outlet 4 is filled with sediments, the flow of water into the counterweight tank 19 stops, water from the tank gradually flows through the tube 28 with regulator 29 into an open channel. At the same time, a static water back pressure is created in the collector 1, and the pressure in the collector 1 becomes higher than in the initial stage of operation, and the water passes through the pipe 40, the flexible tube 39 and the pipe 38, through the hole 37, enters the float chamber 21. The float chamber 21 is filled with water, which, having reached the float 22, begins to raise it, as a result of which the stem 23 rises, and the valve 24 opens the water outlet (drain) hole of the nozzle 25. Thus, the water from the cavity of the counterweight tank 19 accelerates the outflow into the open channel . At the same time there is an outflow of water from the float chamber 21. Due to the fact that the incoming flow rate is greater than the outflow of water, the float chamber 21 is quickly filled with water. The moment of force from the weight of the counterweight tank 19 and part of the water in it relative to the axis of rotation 7 becomes smaller, the head of the tubular outlet 4 opens. Due to the presence of pressure in the collector 1, deposits from the pipe 3 and the pipe outlet 4 are removed into the open channel. At the same time, when the sediment is discharged, an additional valve shutter 8 relative to the axis of rotation 17 rises up under the action of raising the rod 16, the lever 12, the shutter 8 closes the opening of the mouth of the collector 2. A water shock occurs, and the reflected wave of water additionally increases the pressure in the pipe 3, which accelerates the sediment wash-off in the pipe branch 4, while maintaining a certain maximum pressure head of the static water pressure in the collector 1, until the pipe 4 is released from sediment. The counterweight vessel 19 is then again filled with water, when the flow of water into the float chamber 21 ceases, since it is simultaneously emptied through the tube 26 and under the influence of the weight of the float 22, the rod 23 the outlet of the nozzle 25 is closed by the valve 24, the counterweight tank 19 is filled with water , and the valve 5 closes again, and the additional valve 8 opens (their operation is based on antiphase).

When regulating the existing valves in the device, the time for filling and discharging the water is set, and the time for washing the sediment in the pipe 3 and the tubular outlet 4 is also regulated. Due to the small difference in the volumes of the float chamber 21 and the float 22 itself, the filling of the chamber 21, necessary for the float 22 to float, requires little time, due to the maximum pressure in the collector 1 at the time of washing sediment in the tubular outlet 4.

The location of the design of the three-link articulated link mechanism associated with the shutters 5 and 8 and the counterweight tank 19 retains the required for closing or opening each shutter 5 and 8, at the same time by lengthening the arm of the rocker arm 12, reducing the size of the counterweight tank, i.e. reduces material consumption. The bellows 32 seals the cavity of the chamber 21 from the internal cavity of the tank 19 and does not allow the deposition of suspended particles on the lower guide 31.

Such a device creates a static pressure in the end part of the collector 1, eliminates the ingress of air into it when washing off accumulated sediment and vacuum breakdown in the mouth of the collector 2 when the valve shutter 8 is opened, therefore, it simplifies the operation of the device, increases the accuracy of regulation and the speed of operation in automatic mode. In addition, the device is characterized by the reliability of the moment of closing and the absence of siltation of the chambers.

Claims (3)

1. A drainage device comprising an open channel and interconnected collector and the mouth of the collector, the collector is in communication with the mouth by means of a V-shaped pipe mounted knee down, while the lower part of the pipe is provided with a pipe outlet located below the mouth of the collector and brought into the open channel with a shut-off body, characterized in that the locking body is made in the form of a valve shutter with a horizontal axis of rotation and is fixedly mounted to the shutter lever attached to the lower end of the rigid rod, which is it is fixed with one end on one of the levers of a three-link articulated lever mechanism, one shoulder of which is fixed on a vertical strut connected to the mouth of the collector, and a control counterweight is freely suspended on the other, in which the float chamber is coaxially placed, the communication tube is flexible and connected with the collector in front of the V-shaped pipe, while the mouth of the collector further comprises a valve shutter on a horizontal axis of rotation, fixed by a hinge with a second rigid rod, which is top it is connected by an end to a lever of a three-link articulated lever mechanism on the side of one arm of the lever fixed to the strut. 2. The drainage device according to claim 1, characterized in that the counterweight container is made with an outlet pipe, which is made in the bottom of the control tank body, which is blocked by the float chamber valve on the inside of the pipe outlet, and a drain hole is made in the bottom of the control tank. 3. The drainage device according to claim 1, characterized in that the valve closures rotate in opposite directions, one of which is fixed on top of the tubular outlet and the other on the bottom of the mouth of the manifold.

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