RU180526U1 - DEVICE FOR EXTINGUISHING LIQUID FLOW ENERGY - Google Patents

Abstract

The utility model relates to hydraulic structures, namely, devices for quenching the energy of a fluid flow, and can be used in gravity pipelines with a large difference in elevation, in which it is necessary to regulate the increased pressure of a gravity-pressure flow to ensure the indestructibility of fluid lines. The essence of the utility model lies in the fact that in the device for damping the energy of the fluid flow, including the inlet and outlet pipelines and a vertically oriented cone-shaped receiving chamber located to ensure that the fluid flows into it from the supply pipeline and is connected in the lower part to the discharge pipe, while the device comprises a flow divider installed under the outlet of the supply pipe, made in the form of a volumetric part having a longitudinal shape in the form of t a triangle mounted with the apex towards the fluid flow coming from the supply pipe, as well as fenders adjacent to the walls of the chamber, according to a utility model, the camera is made in the form of a truncated cone, tapering from top to bottom, the diameter of the upper part of the chamber exceeds the diameter of the outlet of the supply pipe, fenders are installed around the perimeter of the walls of the chamber, distributed along the height of the walls in a checkerboard pattern and made in the form of horizontally oriented shelves, and the outlet ruboprovod formed as a docked with the bottom of the chamber tube having a curved portion providing a change of direction of incoming fluid flow therein. The technical result achieved by using the utility model is the effective quenching of the kinetic energy of the flow while simplifying the design of the device. 1 s.p. f-ly, 1 ill.

Description

The utility model relates to hydraulic structures, namely, devices for quenching the energy of a fluid flow, and can be used in gravity pipelines with a large difference in elevation, in which it is necessary to regulate the increased pressure of a gravity-pressure flow to ensure the indestructibility of fluid lines.

A device for damping flow energy [RU 2609243], including a supply pipe, a water well, comprising an ellipsoidal upper chamber with radially bent lower edges and connected to it via a passage through a cylindrical lower chamber having an outlet in the side wall in communication with the outlet pipe . In the upper chamber, a fairing of a complex rhomboid shape with concave upper walls and lower walls is installed in the form of a truncated cone, the apex of which is directed to the center of the passage opening. In the lower chamber, a chipper is installed, made in the form of a horizontal shelf located above the outlet.

The device under consideration provides effective quenching of the kinetic energy of the fluid flow, however, it is difficult in design due to the presence of an ellipsoid and cylindrical chambers in the water well and the use of a complex diamond-shaped chipper.

A device for quenching energy flow [RU 2610126], which is selected as the closest analogue.

This device includes inlet and outlet pipelines and a vertically oriented cone-shaped receiving chamber made in the form of a truncated cone expanding in the direction from top to bottom and passing into the cylinder in the lower part. The upper part of the chamber is associated with the outlet of the supply pipe, the lower part of the camera is provided with a vertical cantilever wall and a lateral cylindrical outlet, in the wall of which an outlet is formed, combined with the discharge pipe. A series of flow dividers are installed along the axis of the conical part of the chamber, made in the form of three-dimensional pyramidal parts having a triangle shape in longitudinal section, the upper of which is located under the outlet of the supply pipe, directed by the apex towards the flow entering the chamber. In addition, in the chamber below the dividers, at the end of the conical expanding part of its body, cup-shaped fenders are installed adjacent to the walls of the chamber.

Due to the use of a number of structural elements that determine the quenching of the kinetic energy of the flow, significant efficiency of this device is achieved.

However, the device in question has a complex structure due to the presence of a chamber having upper and lower parts of various shapes, the presence of several dividers, the presence of fenders having a complex cup-shaped shape, the presence of a number of additional elements in the lower part of the chamber, such as a cantilever wall, a lateral outlet with an outlet hole.

The problem that can be solved by using the utility model is the simplification of the design.

The essence of the utility model lies in the fact that in the device for damping the energy of the fluid flow, including the inlet and outlet pipelines and a vertically oriented cone-shaped receiving chamber located to ensure that the fluid flows into it from the supply pipeline and is connected in the lower part to the discharge pipe, while the device comprises a flow divider installed under the outlet of the supply pipe, made in the form of a volumetric part having a longitudinal shape in the form of t a triangle mounted with the apex towards the fluid flow coming from the supply pipe, as well as fenders adjacent to the walls of the chamber, according to a utility model, the camera is made in the form of a truncated cone, tapering from top to bottom, the diameter of the upper part of the chamber exceeds the diameter of the outlet of the supply pipe, fenders are installed around the perimeter of the walls of the chamber, distributed along the height of the walls in a checkerboard pattern and made in the form of horizontally oriented shelves, and the outlet ruboprovod formed as a docked with the bottom of the chamber tube having a curved portion providing a change of direction of incoming fluid flow therein.

In the particular case of the utility model, the input part of the chamber is made in the form of a conical funnel expanding in the direction from the bottom up.

The inventive utility model allows using a number of elements of simple construction to achieve significant efficiency of quenching the kinetic energy of the flow.

The use of a single divider, mounted with the apex towards the flow before it enters the chamber, ensures a decrease in the flow velocity and splits it into jets before entering the chamber.

The implementation of the chamber in the form of a truncated cone expanding upwards ensures the expansion of the stream dissected into jets when it enters the wide inlet conical part of the chamber, the diameter of which exceeds the outlet diameter of the supply pipe.

The presence of simple constructional breakdown elements, made in the form of horizontally oriented shelves, mounted on the walls of the chamber and distributed over their entire height, leads to effective braking of the flow inside the chamber in its entire volume. In this case, the installation of shelves in a checkerboard pattern ensures the inclusion of the flow of each individual shelf in the process of extinguishing energy.

The narrowing of the chamber in the direction from top to bottom provides the possibility of its simple connection with the outlet pipe end-to-end due to the correspondence of the diameter of the bottom of the chamber to the input diameter of the outlet pipe. In this case, the presence of a bent section in the outlet pipe provides a change in the direction of the flow moving in it, due to which a decrease in its speed is also achieved, which means a decrease in its kinetic energy.

Thus, the technical result achieved by using the utility model is the effective quenching of the kinetic energy of the flow while ensuring simplification of the design of the device.

In the case when the inlet part of the chamber is made in the form of a conical funnel expanding in the direction from the bottom up, a guaranteed entry of the flow into the wide inlet part formed by the inlet funnel is achieved, and the overall dimensions of the other parts of the chamber body are reduced.

The figure shows a General view of the device.

The device includes a receiving chamber 1, made in the form of a truncated cone, tapering in the direction from top to bottom, inlet pipe 2, outlet pipe 3.

The diameter D1 of the upper part of the chamber exceeds the diameter D 2 of the outlet of the supply pipe 2. In particular, the upper part of the chamber 1 is formed by a receiving funnel 4 mounted in its upper part, having the shape of a truncated cone, expanding in the direction from the bottom up.

The device also includes a flow divider 5 installed under the outlet of the supply pipe 2, made in the form of a volumetric part having a longitudinal cross section in the form of a triangle, mounted with its apex facing the flow of liquid coming from the supply pipe 2. In particular, the divider 5 is made in the form of a conical element.

It is preferable that the diameter D3 of the divider 5 corresponds to the diameter D2 of the outlet of the inlet pipe 2, and the diameter D1 of the inlet of the chamber 1 is not less than three times the diameter D2 of the outlet of the inlet 2. In this case, almost all of the outlet from the inlet 2, the stream is divided into jets at the entrance to the chamber 1, it is guaranteed to enter the chamber 1 and undergoes significant expansion and braking in the inlet part of the chamber 1.

Inside the chamber 1, baffle elements 6 are placed (one baffle element is indicated by the figure), which are made in the form of horizontally oriented shelves fastened to the walls of the chamber 1. The baffle elements 6 are installed along the perimeter of the walls of the chamber 1 and are staggered in horizontal height planes.

The discharge pipe 3 is made in the form of a pipe joined to the bottom of the chamber 1 having a curved section (not indicated by the figure in the drawing), which provides a change in the direction of movement of the fluid flow entering it.

The device operates as follows.

The pressure flow of liquid, in particular water, from the pipeline 2 enters the divider 5, splitting it into jets, and enters the receiving funnel 4 of the chamber 1, where it expands and, accordingly, brakes. The stream decomposed on the jet enters the expanded part of the conical chamber 1 and moves in the chamber 1, in which it is further decelerated (its speed decreases) when it comes into contact with the shelves 6 protruding inward from the walls of the chamber 1 and acting as resistances. The blocked flow enters the discharge pipe 3, in which it is additionally braked by changing the direction of flow.

In particular, further, the inhibited flow enters the flow tank (not shown in the drawing), in which the continuity of the flow is ensured (due to the formation of the free surface of the liquid) and, accordingly, zero pressure, from which the further transportation of the liquid through the next section of the gravity pipeline takes place.

Claims (2)

1. A device for damping the energy of a fluid stream, including the inlet and outlet pipelines and a vertically oriented cone-shaped receiving chamber, located to ensure that it receives a fluid stream from the inlet pipe and connected in the lower part to the outlet pipe, the device comprising an inlet pipeline divider flow, made in the form of a volumetric part having a longitudinal section in the form of a triangle, mounted with the top towards otoku fluid coming from the inlet pipe, as well as the baffle elements adjacent to the walls of the chamber, characterized in that the chamber is made in the form of a truncated cone, tapering in the direction from top to bottom, the diameter of the upper part of the chamber exceeds the diameter of the outlet of the supply pipe, bumpers are installed on the perimeter of the walls of the chamber, distributed along the height of the walls in a checkerboard pattern and made in the form of horizontally oriented shelves, and the outlet pipe is made in the form of a docked to the bottom astyu camera tube having a curved portion providing a change of direction of incoming fluid flow therein. 2. The device according to p. 1, characterized in that the input part of the camera is made in the form of a conical funnel expanding in the direction from the bottom up.

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