RU2737969C1 - Water flow energy absorber - Google Patents

Abstract

FIELD: hydraulic engineering.

SUBSTANCE: invention relates to hydraulic engineering and can be used to annihilate a water flow in end devices of closed pipelines and tunnel culverts. Water flow energy damper includes supply water conduit 1, flow-guiding cap 4, which is installed above additional chamber 6 and is connected to it by rigid links 5. Additional chamber 6 is made with conical bottom 11 with inlet hole 12 and conical overlapping 9 from above with outlet hole 10. Movable flow-guiding cap 4 together with additional chamber 6 are arranged inside space of rigidly fixed truncated cone 3, which in its turn is connected by rigid connection 17 to inner side wall of vertical chamber 2. Vertical chamber 2 is made in the form of a closed shell. On truncated cone 3 outer side walls in the upper part the annular reflecting screens 13, and annular reflective inclined screen 18 is attached to vertical wall of chamber 2 above annular reflecting screens 13 in upper part of working chamber 2 in front of cover 16. In upper part of side wall of chamber 2 there is bypass hole 20 arranged at level coinciding with mark of bottom of discharge chute 21, bottom of which is connected to outlet pipeline 22 with controlled gate 23. Movable flow-guiding cap 4 is located between guides 14 fixed by rigid rods 15 to fixed truncated cone 3. Movable flow-guiding cap 4 with chamber 6 secured thereto by means of rigid connection 5 is made with possibility to adjust displacement height relative to pit 8 of water conduit 1. Water supplied to vertical chamber 2 is split (separated) into separate parts and is directed by vertical movement of water upwards and depends on position, in which movable flow guiding cap 4 with chamber 6 is located, connected by rigid links 5 in space of installed rigid truncated cone 3, where the outlet flow is pressed above pit 8 of the pressure water duct 1 outlet. Flow along height of working chamber 2 loses energy and settles before outlet opening 20, after which it enters outlet trough 21.

EFFECT: technical result consists in improvement of efficiency and reliability of process of intensive damping of kinetic energy of separated flow and subsequent connection in upper part of working chamber, further, the flow enters the discharge chute connected to the discharge pipeline with the control valve.

3 cl, 1 dwg

Description

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

Known energy absorber spillway device, including an underwater pipe, a conically expanding water conduit, in which a flow swirler and a reflector with holes are installed, while it contains a vertical chamber in the form of a truncated cone, the surface of which is installed in the well downward expanding part coaxially with the branch pipe with the possibility of enclosing it flow swirler and fixed movement relative to the nozzle, and the side wall of the chamber is made with a curved surface in the direction of flow to 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).

The disadvantages are complexity and, as a consequence, high metal consumption, this leads to a complication of operational reliability, i.e. insufficient efficiency of its operation, the device at the outlet of the well has additional retaining structures for complete damping of the flow.

The closest to the proposed purpose, technical essence and achievement of the result is a water flow energy absorber, including a supply pipe, a conically expanding water conduit in which a flow swirler is installed, a vertical chamber, while a conically expanding water conduit in the form of an outlet pipe, the vertical chamber of which is made in the form of a closed glass with an annular partition, while the outlet pipe is made of two separable sections, between which there is a fairing and tangential pipes with holes for water supply in relation to the outlet pipe at the point of their split, and the side wall of the annular partition is equipped with bypass windows towards the side the walls of the body of the closed cup, the upper part of which on the side of the discharge pipeline is made in the form of an outlet that coincides with the mark of the bottom of the discharge chute (Patent RU No. 2661741, E02В 8/06 dated 19.07.2018).

The disadvantage of the known damper is the presence of two split sections, between which a fairing with tangential branch pipes is placed, complicates the operation of its operation. In addition, swirling of the flow is required to increase the hydraulic local resistances, which means that it complicates the design of the damper. Another disadvantage is the lack of regulation of the slammer with a movable annular baffle for the diffusion outlet directly with transverse baffles with visors, both in the lower and in the upper part of the body of the glass.

The technical result of the proposed technical solution is to obtain a device that provides a significant separation of the water flow coming out of the water conduit for splitting the specific flow rates along the height of the vertical chamber, which includes a flow-guiding cap installed above the additional chamber, which are interconnected by rigid ties, equipped with a gap change mechanism, a chamber , which has a conical overlap at the top, and an outlet at the bottom and, as a consequence of this, an increase in the efficiency of the scattering outlet towards the truncated cone with its coverage by annular reflective screens of different lengths along the height of its side wall, the extinguishing flow is then directed towards the bypass opening with a discharge tray, and simplification of the design.

The technical result is achieved by the fact that the energy absorber of the water flow, including the supply pipe, a conically expanding water conduit, a vertical chamber, a vertical chamber is made in the form of a closed glass, and its upper part from the side of the discharge pipeline is made in the form of an outlet that coincides with the mark of the discharge chute, According to the invention, the flow-guide cap is installed above the additional chamber, which are interconnected by rigid ties, while the flow-guide cap with the additional chamber is equipped with a mechanism for changing the gap above the conically expanding water conduit, and the additional chamber is made from above with an outlet conical overlap, and from the bottom with an inlet conical opening , the outer side walls of the stationary truncated cone are provided with a coverage of annular reflective screens of different lengths in height relative to its side inclined walls, and it is connected by rigid connections to the inner side walls of the chamber, and Its inner walls are rigidly connected to the guides, which enhances the intensity of extinguishing the water energy, and the upper part of the chamber is provided below the outlet chute with an annular reflective screen, the edges of which are directed upward towards the chamber cover.

In addition, the mechanism for changing the gap is made in the form of a screw pair.

In addition, the upper part of the vertical chamber body under the cover is in communication with the discharge tray.

The damper is made of interconnected structural elements as a flow-guiding cap, which is fixed by movement between the guides and is attached to a suspension mechanism that provides lifting or lowering of the movable cap associated with the additional chamber, which has a conical overlap on top, and has a conical inlet opening from below, and the devices are interconnected rigid connections, and this, characterizes the camera mount with the possibility of movement by the flow-guide cap, which allows, when lifting or lowering it, to provide a gap in the conically expanding water conduit. In addition, in general, the flow-guiding cap with elements regulates the flow inside the truncated cone, and annular reflective screens are made on the outside of it, the upper part of the chamber, which is equipped with an annular screen above the annular screens, the edges of which are directed upward towards the chamber cover. All this is also ensured by adjusting the change in the gap above the opening of the conical water conduit by mobile devices, respectively, a redistribution of the flow out of the supply water conduit is established, which means that, in general, it contributes to a more complete extinguishing of the water that enters the vertical chamber.

The drawing schematically shows a water flow energy absorber.

The energy absorber of the water flow includes a water conduit 1, a vertical chamber 2, made in the form of a closed glass with a chamber made in the form of a truncated cone 3, inside which there is a flow-guiding cap 4 and fixed with it by rigid connections 5 with the chamber 6. Flow-guiding cap 4 with an additional chamber 6 is equipped with a change mechanism 7 above the pit 8 of the conically expanding water conduit 1. The additional chamber 6 has an outlet conical overlap 9 with an opening 10 on top, and its lower bottom 11 is made with an inlet conical hole 12. The outer side walls of the stationary truncated cone 3 are provided in its upper part with coverage of annular reflective screens 13 of different lengths in height relative to its lateral inclined walls (their number can be more than two, i.e. different).

The movable flow-guiding cap 4, together with an additional chamber 6 with rigid ties 5 (rods), is fixed between the guides 14, which are fixed by rigid ties 15 in the form of rods to the side inner walls of the stationary truncated cone 3. The change mechanism 7 for the gap 8 is made in the form of a screw pairs and is fixed to the upper part of the cover 16 of the vertical chamber 2 (glass) with a seal (not shown), which ensures the lifting or lowering between the guides 14 of the movable flow-guiding cap 4 fastened by rigid ties 5 (rods) with an additional chamber 6, allowing it to be inside the fixed truncated cone 3 (chamber), which is also through rigid links 17 (rods) connected to the side inner walls of the vertical chamber 2. Since multiple changes in the direction of water movement in the housing of the vertical chamber 2 (glass) are provided, the water outlet vertically depends on the position in which is the movable flow hood 4 together with a fixed rigid connection 5 to it of an additional chamber 6 in the form of a conical bottom 11 with a hole 12 and a conical overlap 9 with a hole 10, as well as using a mechanism for changing 7 the gap in the truncated cone 3 and above the additional chamber 6 with conical elements 9 and 11, also with annular reflective screens 13 and 18, will allow adjusting the pressure for splitting into separate jets between the indicated spaces as a whole, i.e. change the pressure at which the water flow enters the expanding vertical chamber (the space in the middle of the chamber body 2) of the quenching chamber. With such a connection of all elements (combination) in the space of the chamber 2, the flow enters through the bypass hole 19, the reflector 18 at a low speed towards the cover 16, and exits through the bypass window 20 (hole) arranged at a level coinciding with the mark of the bottom of the discharge chute 21 , the bottom of which is connected to the outlet pipe 22 and the control valve 23, respectively, the bottom velocities decrease.

Thus, with the help of the mechanism for changing the gap in the space of the truncated cone 3 of the flow guide cap 4 connected to the additional chamber 6 by means of rigid connections 5, as a whole device, where the chamber 6 has conical elements 9 and 10, respectively, holes 10 and 12, as well as annular screens 13 of different lengths along the height of the side wall of the truncated cone 3 and of the reflector 18, the edges of which are bent upward (towards the cover 16) with the bypass opening 19, will allow adjusting the pressure along the height of the chamber 2 for splitting into separate jets between the indicated spaces as a whole, those. change the pressure at which the water flow enters the expanding vertical chamber 2 (the space in the middle part of the chamber body 2) of extinguishing.

The use of the proposed technical solution makes it possible to significantly expand the use of the energy absorber of the water flow, increases the efficiency of damping the kinetic energy of the flow to be divided as a whole, this is achieved as a result when the jets move towards the lid of the closed glass (chamber), they, first separating, flow out, then combine into one the total water flow is further directed towards the bypass (outlet) window into the outlet tray.

All together and the originality of the proposed invention determines the achievement of the set goal with a significant reduction in construction costs, operation for such hydraulic engineering facilities, including to increase the efficiency and reliability of the kinetic energy damping of the separated flow, and then the connecting flow, due to the phased damping of the flow at entering from the supply conduit.

Claims (3)

1. The energy absorber of the water flow, including a supply pipe, a conically expanding water conduit, a vertical chamber, a vertical chamber is made in the form of a closed glass, and its upper part on the side of the discharge pipeline is made in the form of an outlet that coincides with the mark of the discharge chute, characterized in that the flow-guiding cap is installed above the additional chamber, which are interconnected by rigid ties, while the flow-guiding cap with the additional chamber is equipped with a mechanism for changing the gap above the conically expanding water conduit, and the additional chamber is made from above with an outlet conical overlap, and from the bottom - with an inlet conical opening, external lateral the walls of the stationary truncated cone are provided with coverage by annular reflective screens of different lengths in height relative to its lateral inclined walls, and it is connected by rigid ties to the inner side walls of the chamber, and its lateral inner walls are connected rigid connection with the guides, which enhances the intensity of extinguishing the energy of water, and the upper part of the chamber is equipped below the discharge tray with an annular reflective screen, the edges of which are directed upwards towards the chamber cover. 2. The damper according to claim. 1, characterized in that the mechanism for changing the gap is made in the form of a screw pair. 3. The damper according to claim. 1, characterized in that the upper part of the vertical body of the chamber under the cover is in communication with the discharge tray.

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