RU2576982C1 - Water outlet channel with high slope - Google Patents

Abstract

FIELD: hydraulic engineering.

SUBSTANCE: invention relates to hydraulic engineering, namely to devices for water extraction of the channels with high inclination. Drainage outlet includes feed channel 1, from which water enters the water intake and deposits move along screen nets 4 and are discharged in transit channel 3. Part of water is supplied through bottom slot in first chamber 5 with local narrowing, inner surface of which is shaped to truncated cone installed smaller base towards gallery 6. Gallery 6 is extended in straight line in the direction of flow, and its end is connected with a wide base of the second chamber 7 with inner surface also has the shape of cone, which provides the 6 pressure mode and no water movement, prevents the vortex formation in gallery 6. After chamber 7, the output of which has taper smaller base, water flow is supplied into intermediate expanded section in the form of rounded in plan elbow 8 with converging transition part coupled with end section in the form of diffuser 9, and then is supplied in still tate in discharge pipeline 10 at open gate 11. Cavity of knee 8 on the side of convex face is connected via pipeline 12 with tapered parts chambers 5 and 7 for water inflow in vacuum zone that fills all the cross section of bend 8.

EFFECT: simplified design, reduces dynamic effect of structural elements on each other, improves the dynamic properties of the flow and improves hydraulic mode of the structure.

2 cl, 2 dwg

Description

The invention relates to hydraulic engineering, and in particular to devices for selecting water from canals with a large slope.

Known bottom outlet of the transient channel, including a trench made in the bottom of the channel, a discharge channel connected to the trench, a lattice made in the form of longitudinal rods pivotally attached at one end to the front edge of the trench and supported by the free end on the bottom of the transit part of the channel, and a stabilizer for the position of the rods . In addition, it is equipped with a limiter for the upper position of the rods, and the stabilizer of the position of the rods is made in the form of two plates attached to the free end of each rod, the upper of which is attached plane to the upper edge of the rod, and the other plate is attached to the rod with the formation of an obtuse angle between its lower edge and the plane of the plate (Copyright Certificate SU No. 1303655, class E02B 5/08; E02B 13/00 of 04/15/1987).

A disadvantage of the known bottom outlet is its complexity due to the presence of plates and flexible rods located inside the trench. The flow entering a trench of such a geometric size is partially extinguished and acquires rotational motion, which creates a complex plot of speeds at the turn, and this, in turn, creates difficulties in the operation of the structure, in the discharge channel leads to erosion of the bottom and slopes of it, and also leads to the large length of the channel fastening and increases the cost of repairing the structure. In addition, there are no local resistances along the length of the trench; Known elements do not provide a sufficient degree of effective quenching of the energy of the exhaust stream in transients, in which the flow rate varies from one to another steady-state value.

A well-known water outlet from the channel with a turbulent current, containing the inlet and transit channels, regulating the gate and the bottom water intake gallery, having in the upper part a water inlet opening blocked by a grill, and in the lower part a dividing wall, interfaced with the bottom of the transit channel, and the bottom water receiving gallery is connected to a discharge pipe through a water outlet, the bottom water intake gallery is made in the form of an expanding flow direction of the water conduit, while the control valve is installed on and at the outlet of the outlet pipe, and the ratio of the area of the water inlet of the bottom water reception gallery to the area of its water outlet is not more than 1.5 (patent RU No. 2054085, class E02B 13/00 of 02/10/1996).

However, this design provides only partial extinction of energy along the gallery due to the existing rotation and does not extinguish turbulent jets in the gallery itself, which continue to move in the outlet channel, which requires a large length of outlet pipes, and this increases the cost of construction. To prevent the helical movement of water, the use of counter-rotary devices is necessary, and this, in turn, also leads to a decrease in the discharged water flow and a deterioration in the hydraulic operating mode of the structure.

Also known is a water outlet — a stabilizer of the flow of water from channels with a turbulent flow regime, including a supply and transit channels, a regulating shutter and a bottom water intake gallery having a water intake opening in the upper part blocked by a grating, and in the lower part a dividing wall conjugated to the bottom of the transit channel, moreover, the bottom water intake gallery is connected to the outlet pipe through a water outlet. In addition, it is equipped with a stream-guiding system in the form of dividing plates curved in cross section, mounted opposite the supply channel to the galleries in a row, oriented sequentially along the length of the gallery opening, with the upper edges of the plates attached from below to the grating, the ends of its rods bent down and supported on the dividing a wall conjugated to the bottom of the transit channel with the possibility of creating self-oscillations of the lattice, while the gallery is made with a constant height and bottom tilted along its entire length and is divided along the length into sections by a transverse protrusion and a flat plate attached by the base of the protrusion and the edge of the plate from below to the dividing wall with partial overlap along the height of the passage section of the gallery with gaps to the bottom of the gallery, and its bottom is provided with a concave transverse plate between the protrusion and the flat plate in the form of a zigzag conduit tapering along the length of the gallery towards its end part (patent RU No. 2484203, class E02B 13/00 of 03.02.2012).

However, the well-known water outlet-stabilizer requires fastening of the transverse protrusion and plates along the gallery along the path of unsteady turbulent flow, even if local resistance is encountered. In this case, the flow has ascending jets with energy accumulation, and at the end of the gallery a helical rotation is formed. Such axial rotation is explained by compensating circulation to the reaction of the wall and plates of local resistance. At the same time, this circumstance is accompanied by erosion and an increase in the flow rate to increase the length of the outlet pipe. In addition, it leads to a lack of improvement in the hydraulic regime of the outflow of water.

The problem to which this invention is directed is to improve the hydraulic mode of operation of the structure.

The technical result achieved by the implementation of this invention is to expand the scope of the water outlet from the channel with a large slope and to determine the shape of the gallery in length, depending on the specific task, determining its geometric dimensions as local resistance, while ensuring a given water flow in the outlet without splashes and erosion of the shore.

The technical result is achieved by the fact that the water outlet from the channel with a large slope, containing the inlet, transit and outlet channels, the regulating shutter, the water inlet gallery, having in the upper part a water inlet opening blocked by a grate, the water inlet opening is made by a bottom slot of a rectangular cross section across the transit channel, under the bottom of which there is a gallery, coupled at the entrance and exit by cameras with decreasing linear dimensions in plan in the form of truncated cones from the first to the next row, installed small base at the beginning of the gallery and a large base at the end of the gallery, located along the length and made with a transitional section in the form of a knee rounded in plan with a narrowed transitional part connected to the end section in the form of a diffuser connected to a discharge pipe.

In addition, the transitional narrow sections of the truncated cones are interconnected by discharge pipes and with the knee cavity from the side of the convex face.

In contrast to the known structures formed along the length of the gallery of the zone of helical movements of water with steady motion, which have a dominant rotation in a plane perpendicular to the direction of the flow, where air is formed inside, which can cause cavitation to appear in the gallery, in the proposed design, these vortices of flow non-stationary . Destroying these vortices, the air accumulated in them can be transferred into the flow in a straight line, into pressure. Therefore, successively placed chambers in the form of truncated cones are installed at a certain distance downstream, first the narrowing section, then expanding with the exit of a narrow section into the zone of the knee rounded in plan, connected to the end section in the form of a diffuser connected to the outlet pipe.

Thus, the entire space along the length of the gallery is filled with a continuous pressure movement of water, which improves the pressure drop in the outlet pipe (channel), accordingly, increases the throughput of water passing through the gallery, and also reduces the total length of the section of the outlet pipe connected to the open channel ( no damper well is required), for interfacing with the open part of the outlet channel; improves the hydraulic operating mode of the structure.

The analysis of the prior art, including a search by patent and scientific and technical sources of information and the identification of sources containing information about analogues of the claimed invention, made it possible to establish the absence of a technical solution in sources characterized by signs, identical features of the proposed invention. The determination from the list of identified analogues, the closest in the totality of the characteristics of the analogue, allowed us to establish the set of essential distinguishing features in relation to the technical result perceived in the claimed water outlet from the channel with a large slope set forth in the claims.

Therefore, the claimed invention meets the condition of "novelty."

The results of the search for known solutions showed that the claimed invention does not contain features that match the distinctive features of the claimed water outlet from the prototype.

Therefore, the claimed invention does not follow for specialists explicitly from the prior art, is the result of the creative work of the inventors.

Therefore, the claimed invention meets the condition of "inventive step".

The claimed invention is illustrated by drawings, where in FIG. 1 shows a water outlet from a channel with a large slope, plan; in FIG. 2 is a section AA in FIG. one.

The water outlet of the channel with a large slope consists of a supply channel 1, the initial cross section of which coincides with the bottom slot 2 in the bottom of the transit channel 3, blocked by a vibrating grating 4 with an inclined towards the flow, the inlet of the bottom slot 2 has a first chamber 5 with decreasing linear dimensions in plan view side of the gallery 6, which is made in the form of a truncated cone, and the small base with the output section is mated with the extension with the walls of the gallery 6, and the output section of the gallery is mated rectilinearly with the large base a cross-sectional cone of the second chamber 7, the exit of which with a small base is matched by the expansion of the walls with the transition section in the form of a knee 8 rounded in plan, and the radius of curvature of the knee 8 is selected so as to ensure a smooth transition from the vertical orientation of the knee 8 to an orientation close to horizontal with a narrow exit cross section, but with a slope, providing transport of the wash water flow with all extraneous inclusions passing between the rods of the vibrating grid 4, while the elbow 8 at the end of its transition of the first section is connected with a diffuser 9 connected to a discharge pipe 10 with a shutter 11.

The narrowed parts of the chambers 5 and 7, the cavities of which through the openings in the walls of the chambers 5 and 7, are connected to the pipeline 12 and to the cavity of the knee 8, rounded in plan view from the side of the convex face for water intake and filling it to the full volume of the knee 8 cross section.

The water outlet from the channel with a large slope works as follows.

The water flow passes through the useful clearance of the vibrating grating 4, the bottom slot 2 in the bottom of the transit channel 3 (the initial section of the supply channel 1), enters through the first chamber 5 and moves along it with compression of the flow due to its execution in the form of a truncated cone towards the initial expanding section gallery 6. Here, the flow again expands in the gallery and moves rectilinearly towards the large base of the second chamber 7, made in the form of a truncated cone. Then, the flow is repeatedly compressed in the cross section of the second chamber 7, passes through the rounded bend 8 with a narrowed transition part and enters the diffuser 9. In this case, by filling the chambers 5 and 7 with water in the cross section, an increase in the flow pressure on the surface of the gallery walls 6 is created. which eliminates the appearance of air accumulation in the gallery 6. The flow of water through the rounded transitional section of the knee 8 through the diffuser 9 is fully restored and enters the outlet pipe 10, blocked by a shutter 11. In this case, the zones and the vacuum from the side of the convex face of the knee 8 is connected to the cavities of the chambers 5 and 7 with the outlet openings in their walls using the pipe 12, and is filled with a certain component velocity, which increases the filling of the entire volume of the cross section of the knee 8 with water before entering the diffuser 9, installed further in a uniform stream of water through a diffuser 9, which is connected to a discharge pipe 10.

The air in the zone of the convex face of the knee 8 mixes with water, does not create the energy density of pulsations in the vacuum region, but destroys on bending and the higher the pressure of the water in the knee 9, the more efficient the work of the outlet pipe 10, which further mates with the open channel (does not shown).

The structural elements of the chambers 5 and 7, placed at some distance from each other along the gallery 6 with a conjugated rounded portion in plan of the knee 8 with a diffuser 9, provide the opportunity to significantly facilitate the construction of the downstream end at the end of the discharge pipe, and protects the open discharge channel from erosion and splashes over the side of the channel, i.e. in close proximity to the outlet pipe. It should be noted that cameras 5 and 7 are installed along the length of gallery 6 at a certain distance from each other downstream in the form of truncated cones and their noticeable resistance. The type of local resistance, as well as the shape of all elements of the structure, is selected depending on the specific task and is determined by its geometric dimensions.

Thus, based on the interconnection and interdependence of the main elements of the water outlet from the canal with a large slope, it provides an increase in the flow rate of water passing through the gallery, simplifies the design and increases the pressure inside the gallery, which, in turn, leads to the fulfillment of the task of optimal water intake and improved hydraulic mode of operation of the structure.

Claims (2)

1. The water outlet from the channel with a large slope, containing the inlet, transit and outlet channels, the regulating shutter, a water intake gallery having in the upper part a water intake opening blocked by a grill, characterized in that the water intake opening is made by a bottom slot of a rectangular cross section across the transit channel, under the bottom which is a gallery, conjugated at the entrance and exit by cameras with decreasing linear dimensions in plan in the form of truncated cones from the first to the next row, installed by a small base m at the beginning and a large picture in the base end of the gallery, arranged along its length, and is formed with a transition portion in a rounded knee in respect with the tapered transition portion associated with the end portion of the diffuser, connected to the discharge line. 2. The outlet according to claim 1, characterized in that the transitional narrow sections of the truncated cones are interconnected by discharge pipes and with the knee cavity from the side of the convex face.

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