RU2821669C1 - Water flow energy damper - Google Patents

Abstract

FIELD: hydraulic engineering.

SUBSTANCE: invention relates to hydraulic engineering and can be used in end devices of closed pipelines and tunnel structures. Water flow energy damper has a water conduit, a flow swirler with the possibility of rotation on a shaft passing through a seal in the well cover, has a partition fixed above the flow swirler with an annular gap, besides, the well in the upper part has a discharge tray on the outer side, at the same time the bottom of the discharge tray is connected to a discharge pipeline having an adjustment gate. At that, the well is divided into two unequal chambers by an annular downwardly directed inclined partition separating the upper chamber of the well from the lower chamber of the well and having an annular gap, lower chamber of the well is made with a convexity downwards and is equipped with a damping rotating bowl with ends bent up at the point of narrowing of the chamber equipped with a rotation drive in the form of a shaft with an electric motor, fixed on well cover through coupling with frequency converter for smooth control of shaft rpm, wherein the upper chamber of the well is a damping chamber in the form of a cylinder with placed in it fixed cone-shaped partition with perforation holes in the form of a bowl directed towards the circular inclined partition.

EFFECT: in all sections the flow is intensively extinguished as a whole, high degree of protection of the well is achieved, which is made of two compartments of different shape and devices relative to each other in relation to the rotation shaft, and are connected to excess energy of high-speed flow of the supply water conduit, which causes reliability of the device operation.

1 cl, 1 dwg

Description

The invention relates to hydraulic engineering and can be used to dampen water flow in the end devices of closed pipelines and tunnel culverts.

A known spillway includes a mixing chamber located in the body of a retaining structure above the downstream, pressure galleries with gates connected to the upstream and connected to the mixing chamber towards each other, an air duct connecting the mixing chamber with the atmosphere, a water chamber located under the mixing chamber, and outlet conduit connecting the water chamber with the downstream, while it is equipped with a transverse water wall installed in the water chamber under the mixing chamber and made upward and towards the upstream with a concave edge of a quarter of a cylindrical surface, the radius of which is equal to the length of the mixing chamber (Copyright Certificate SU No. 1504307, E02B 8/06 dated 08/30/1989).

The disadvantage is that the collisions of the flows in the mixing chamber mainly move away from the center of the chamber; a flattened rotating flow is formed due to the rectangular shape of the chamber in cross section, i.e. There is no square camera shape. Another disadvantage is that in the body of the retaining structure - the dam, the chamber is connected to the outlet conduit in the form of a pipe with flooding from the downstream to reduce the kinetic energy of the flow leaving the conduit. However, in such conduits there is a low throughput of flooded with escaping air, in which the flow movement occurs in the form of flow plugs in it. Thus, from the outlet (slit) in the water chamber, the outlet is located closer to the ceiling of the pipe (water conduit), air accumulation occurs, since the lower pool is flooded, and such plugs cannot be completely eliminated. In addition, the possibility of water hammer cannot be excluded, which is negative in general, and it is not effective enough when operating in an open channel mode due to design flaws, while it is bulky and, as a result, material-intensive.

A well-known design of an energy absorber for a spillway device includes an underwater pipe, a conically expanding conduit in which a flow swirler and a reflector with holes are installed, and it contains a vertical chamber in the form of a truncated cone, the surface of which is installed in the well downward with the expanding part coaxial to the pipe with the possibility of being enclosed in it has a flow swirler and a fixed movement relative to the nozzle, and the side wall of the chamber is made with a curved surface in the direction of flow towards the water outlet windows at the point where the outer wall of the nozzle adjoins them (Patent RU No. 2484201, E02B 8/06 dated 01/24/2012).

Disadvantages of the known device: complexity and, as a consequence, high material consumption, and this leads to complication of operational reliability, i.e. additionally has retaining structures to completely dampen the flow. In addition, this device has insufficient perfection of hydraulic local resistance when swirling the flow.

The closest to the proposed purpose, technical essence and achievement of the result is a water flow energy absorber, characterized by the fact that it has a horizontal section of a water pipeline in the form of an underwater pipe, in the end vertical extension of which there is a vertical well formed by inclined sections, a flow swirler, and the well in the upper part has an additional quenching chamber, in which a flow swirler is placed above the constriction of the well, made in the form of a screw-blade turbine with the ability to rotate about its axis and attached to a mechanism for changing the position of the turbine, which passes through the seal in the well cover and is attached to the upper part, wherein the additional chamber extinguishing has an internal annular horizontal shelf fixed above the turbine with an annular gap above the turbine, in addition, the well in the upper part from the outside has an outlet tray, while the bottom of the outlet tray is connected to an outlet pipeline having a control valve (RU Patent No. 2701298, E02B 8/06 dated 09/25/2019).

The disadvantage of the known damper is the insufficient intensity of damping the kinetic energy of the flow due to the variable rotation speeds of only the swirler itself in the form of a rotary-blade turbine. In addition, it is necessary to change the pressure above the pinching of the well using the high-altitude (vertical) position of the flow swirler using a screw mechanism, which means that in the expanding chamber in the upper chamber, the rotation of water weakens and reduces the range of changes in torque transmitted from the blades of the helical-blade turbine, which depends on the pressure water coming from the supply pipeline. This requires a decrease in productivity, which may lead to insufficient mixing of the incoming upward flow and a break in the continuity of the mixed medium. In addition, the implementation of the confuser, which is an ellipse, forces a joint rotational movement when meeting the given dimensions of the axes of the confuser ellipse and the diameter of the well, leading to additional damping of the kinetic energy of the flow, and thereby to an increase in productivity in general.

The technical result from the use of the claimed invention is to increase efficiency and reduce bottom velocities in the flow and simplify the design.

The technical result is achieved by the fact that in the water flow energy absorber, characterized in that it has a water conduit, the flow swirler is rotatable on a shaft passing through the seal in the well cover, has a partition fixed above the flow swirler with an annular gap, in addition, the well in the upper part from the outside has an outlet tray, while the bottom of the outlet tray is connected to an outlet pipeline having an adjusting valve, according to the invention, the well is divided into two unequal chambers by an annular downwardly directed inclined partition separating the upper chamber of the well from the lower chamber of the well and having annular gap, the lower chamber of the well is made convex downward and is equipped with a damping rotating bowl with ends bent upward at the point where the chamber narrows, equipped with a rotation drive in the form of a shaft with an electric motor mounted on the well cover through a coupling with a frequency converter for smooth regulation of the number of revolutions of the shaft, at In this case, the upper chamber of the well is a quenching chamber in the form of a cylinder with a fixed cone-shaped partition placed in it with perforations with holes in the form of a bowl, directed towards the annular inclined partition. The analysis of the level of technology allowed us to establish that there are no analogues characterized by a set of features identical to all the features of the proposed technical solution , which indicates that the technical solution complies with the patentability condition of “novelty”.

This design of the water flow energy absorber from interconnected elements helps to dampen the flow energy due to: firstly, the separation (splitting) of the flow in the well, made with the lower expanding part downwards, in the narrowing cavity of which a flow swirler is placed in the form of a rotating bowl with bent ends upward, rigidly connected to the drive of its rotation by means of a motor in the form of an electric motor through a coupling with an electric drive for smooth regulation of the number of shaft revolutions; secondly, in the middle part of the extinguishing chamber in the form of a cylinder there is a fixed annular inclined partition downwards; Thirdly. The upper compartment of the extinguishing chamber has a fixed cone-shaped partition with perforation in the form of a bowl towards the inclined annular partition, and then the flow enters the upper part into an outlet tray with an outlet pipeline; fourthly, the drive shaft in the lower part is additionally fixed with a bowl in the tapering part of the well with a convex downward, so that its base is placed in an angular contact bearing located in a trunnion, to which transverse rods-brackets are symmetrically attached to the side walls of the expanding cameras. In addition, the shaft drive of the upper part of the electric motor (motor) has a coupling from the electric motor. In general, this will reduce the speed, since the kinetic energy of the water is spent along the way to divide the flow in the form of jets and their collision between two chambers of the well with damping chambers, then into the outlet tray with an outlet located at a level coinciding with the bottom mark of the outlet tray , the bottom of the latter is connected to an outlet pipeline with a control valve. Thus, this ensures a more complete extinguishing of the water that enters the outlet tray. At the same time, the proposed device is simple in design and will improve the efficiency of the energy absorber.

The drawing schematically shows a cross-section of a water flow energy absorber.

The energy absorber of the water flow contains a horizontal section of the water conduit 1, at the end vertical extension the well 2 has a convex downward, and in its lower part has a round pipe 3. The well 2 is divided into two unequal chambers 4 and 5 of an annular inclined chamber with a gap of a partition 6 in the form of an annular reflector . The electric motor 7 is connected to a shaft 8, on which a damping bowl 9 is rigidly fixed in the lower part with its ends bent upward with a gap towards the side walls of the chamber 4 with the convex downward. The base of the drive shaft 8 is located in a trunnion 10 with a bearing 11. The upper chamber 5 has the shape of a cylinder. The annular inclined partition 6 separating the upper chamber 5 of the well 2 from the lower chamber 4 of the well 2 has an annular gap for passing water under pressure from the water conduit 1 and is placed coaxially above the pipe 3 with a fixed pin 10 with a bearing 11 by means of transverse rods-brackets 12 with side walls chambers 4 wells 2.

The upper chamber 5 of well 2 has a cone-shaped partition 13 with perforation and with bowl-shaped holes towards the annular inclined partition 6, and in the cover 14 there is an angular contact bearing 15, the upper end of the shaft 8 is connected through a coupling 16 with an electric motor 7, equipped with a frequency converter 17 for smooth regulation of the speed of the drive shaft 8, i.e. frequency converter 17 (the control unit does not open structurally) controls the rotation speed of the electric motor 7.

Well 2 is connected from the outside to an outlet tray 18 with an outlet hole 19, located at a level coinciding with the bottom mark of the outlet tray 19, the bottom of the latter is connected to an outlet pipeline 20 with a control valve 21.

The water flow energy absorber works as follows.

The pressure flow from the water supply pipeline 1 (water conduit) in the expanding part of the bottom of the chamber 4 of the well 2, through the pipe 3, rises vertically, and the damping bowl 9 with bent ends upwards when the shaft 8 rotates in the trunnion 10 with bearing 11 from an electric drive 7 equipped with a frequency converter 17 at a minimum angular speed in the range of 15-300 rpm provides an energetic state of influence on the incoming water flow from below into chamber 4 of well 2 and swirls the flow. In this case, the swirling flow then rises upward and, colliding with the plane of the annular inclined partition 6, allows it to partially extinguish its kinetic energy. Accordingly, both unequal chambers 4 and 5 are connected to each other by an annular gap in the partition 6, and then the entire flow passes through the perforations with the holes of the cone-shaped partition 13 in the form of a bowl towards the lid 14, in a process in which intensive quenching occurs, i.e. almost completely extinguishes its kinetic energy when entering the outlet tray 18 with an outlet hole 19 arranged at a level coinciding with the bottom mark of the outlet tray 18, the bottom of the latter is connected to the outlet pipeline 20 with a control valve 21. The required height difference of water in chamber 5 of well 2 , and in the outlet tray 18 is maintained by adjusting the valve 21 on the outlet pipeline 20 at a level that allows the incoming water flow to flood into the outlet tray 18. This reduces the superficial nature of the movement of water to the consumer.

It should be noted by example: since in the upper part of the chamber 5 there is an annular partition 6 with perforations along the entire perimeter of the cylinder in the form of a bowl, i.e. with holes, this causes inhibition of the flow jets exiting under the cover 14 of well 2, is additionally mixed, and contributes to the effective extinguishing of water. In this case, the speed is reduced already in front of the outlet tray 18. However, the operation of both compartments of the well 2 will be stable due to the installation of a drive shaft 8 on top of the cover 14, connected through a coupling 16 to the electric motor 7, equipped with a frequency converter 17 for smooth regulation of the speed of the drive shaft 8 with a damping bowl 9 attached to it in the lower part with bent ends up with a gap towards the side expanded part of the chamber 4 of the well 2, while ensuring upward rotation of the water flow through the inlet gaps towards the annular inclined partition 6.

Thus, based on the relationship and interdependence, and the originality of the proposed invention with the components of the extinguishing structure, to increase the efficiency of extinguishing the excess kinetic energy of the water of the shared flow and to reduce the bottom flow rates, especially high-kinetic flows of the structure. This reduces the construction cost of the structure, therefore, the outlet of water from the outlet tray into the outlet pipeline eliminates erosion of the bottom of the outlet channel to the consumer, reduces the dynamic loads as a whole on the structure of the well, which has two unequal parts of chambers with different shapes and their elements are not so high compared to the known ones.

Claims (1)

A water flow energy absorber, characterized in that it has a water conduit, a flow swirler with the ability to rotate on a shaft passing through a seal in the well cover, has a partition fixed above the flow swirler with an annular gap, in addition, the well is in the upper part from the outside has an outlet tray, wherein the bottom of the outlet tray is connected to an outlet pipeline having an adjusting valve, characterized in that the well is divided into two unequal chambers by an annular downwardly directed inclined partition separating the upper chamber of the well from the lower chamber of the well and having an annular gap, the lower chamber of the well made with a convex downward and equipped with a damping rotating bowl with ends bent upward at the point where the chamber narrows, equipped with a rotation drive in the form of a shaft with an electric motor mounted on the well cover through a coupling with a frequency converter for smoothly regulating the number of shaft revolutions, while the upper chamber of the well is a chamber suppression in the form of a cylinder with a fixed cone-shaped partition placed in it with perforation with holes in the form of a bowl, directed towards the annular inclined partition.

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