DE3102544C2 - Control device for flexible weir bodies - Google Patents

Abstract

This control device is designed for at least one weir body (1) consisting of a flexible and essentially liquid-tight material, which is intended for damming liquid flows with a free surface and the interior of which can be arched up via at least one feed line (6) with the upper water (5) of the liquid flow. In this control device, for emptying the weir body (1) during high water, at least one control tube (8) through which a predetermined headwater level can flow and into which a line (6) communicating with the interior of the weir body (1) opens. The control device has the advantage that it works completely automatically without external energy and without moving parts.

Description

F i g. I and 2 sectional side views of a control device of the flexible weir body, which in different Buckling states is shown,

3 and 4 on the one hand a sectional side view the control device according to FIG. 1 and, on the other hand, a graphical representation of the FIGS the associated flexible weir body flowing amount of water at different water levels and

F i g. 5 to 7 are schematic representations of other embodiments the control device.

The in the F i g. 1 and 2 shown flexible weir body 1 is arranged in a weir channel having two parallel side walls and has an essentially rectangular membrane 2. The membrane 2 is made of a tensile, plastic-coated technical fabric. The two edges of the membrane 2 running transversely to the direction of flow .4 are essentially liquid-proof. Bottom of the weir channel, ie attached to a base plate 3 provided there by means of clamping rails 4 in such a way that the membrane 2 forms a laterally open loop; which is essentially closed laterally by the channel side walls, not shown in the drawing, but without being sealed. The interior of the membrane loop is connected to the upper water 5 via a line 6 which is embedded in the base plate 3 in a substantially vertical and in the flow direction a of fluid flow extending in or parallel to the plane of the drawing plane, it extends in this direction of flow a at an angle from bottom to top and has two respective horizontally extending end sections 9,10 which the inlet and form the exit end of the control tube 8.

The lower horizontally running end section 9, which is arranged just above the bottom of the channel or the like of the control tube 8, which forms the inlet end of the control tube 8, is at one in the F i g. 1 and 2 schematically frame 11 shown attached. This is in turn attached to a base plate 3 ', which with the aforementioned Base plate 3 can be formed in one piece (not shown).

The upper end portion 10 of the control tube 8, which forms the outlet end of the control tube 8, is arranged so that it runs at low water NNW (see. Fig. 3) or normal water NW above and at high water HW below the water level.

The end of the inlet pipe 6 facing the underwater 14 is also bent upwards and opens into the interior of the weir body 1 in the area of its lower water-side end, ie shortly before the second clamping rail 4 as seen in the flow direction A there.

At normal water level NW part of the liquid stream flows through the lower, horizontally extending end section 9 of the control tube 8 but not through its high end section 10, but via the bend 7 and the line 6 into the interior of the membrane loop, with the result that the membrane loop is bulged and opposes the rest of the liquid flow as a weir body that can be flowed over. Part of the liquid flowing into the membrane loop interior flows through the gap delimited by the membrane edges and the channel side walls to the underwater 14, but is - without pressure loss - supplemented by the liquid that flows in through the line 6, so that This leakage of liquid from the membrane scbJaufe caused by the aforementioned gap does not have a detrimental effect on the

Membrane bulge and thus on the damming effect

of the weir body 1 has the effect of the weir body 1 has the possibility of being in a known manner to adapt automatically to the changing conditions in the upper water 5.

The membrane 2 remains with constant water

stood arched and retains its damming effect as long as there is a sufficient amount of water through the

End section 9 and the line 6 in the weir body 1

flows

This is the case in FIG. 1 then shown state

the case when the normal water level is below NW of the end section 10 of the control tube 8 is located. The water level in the control tube 8 corresponds essentially the water level of the headwater 5, but it can be due to the kinetic energy of the in the direction

the water flowing into the opening of the end section 9 are also slightly higher. If the Upper water level then becomes the pressure on the entrance of the end section 9 is correspondingly smaller, so that the weir body 1 is lowered favors that at the side boundaries of the weir body 1 water can drain.

This sinking can go so far with falling water level that the weir body 1 is completely deposits on the ground Since the line 6 opens into the weir body 1 in the area of the downstream end of the weir body 1, the weir body 1 can easily be filled when the water level rises again, so that erecting and The weir body 1 is lowered automatically.

In the case of the FIG. The state shown in FIG. 2 is at the headwater level reaches the high water level, which is at the level of the end section 10 of the control tube or slightly lies above it. This makes it possible for the water to flow through the control tube 8. As a result of Flow through the control tube 8 lowers the dynamic pressure exerted on the line 6, so that the drain from the weir body 1 is larger than that due to its lateral openings in the area of the boundary walls Inflow through the line 6. This leads to the fact that the weir body 1 lowers and lies down and so the upper water S no longer presents an obstacle so that it can flow away freely. Lowers itself through this reinforced Drainage of the level of the upper water below the level of the end section 10 of the control tube 8, then the

so flow in the control tube 8 is interrupted and it becomes again a dynamic pressure exerted on the line 6, so that again water flows into the weir body 1 and this fills.

As shown in Figs. 1 and 2, the connection is

fitting parts between the line 6 and the control tube 8 preferably designed in the manner of a Venturi tube, d. H. the inlet pipe opens essentially vertically to the direction of flow in the control tube 8 at a point where it is narrowed. This will result in the Flowing through the control tube 8 even generates a negative pressure in the inflow tube 6, so that the weir body 1 literally is sucked empty. The control designed according to the invention works very quickly and is only operated by the water that flows around the control device anyway.

The F i g. 3 and 4 each show schematically the drainage behavior as a function of the water level Wim Control tube 8 and thus in a certain way the pressure

Conditions in the weir body 1. When the lowest low water NNW is reached , the weir body begins to fill until it reaches its maximum fill level shortly before reaching the high water HW. When the high water level HW is reached, the control device has already come into operation, so that here the weir body 1 empties again, which is indicated by the negative values of the flow rate Q (VnVs) until the weir body 1 is completely emptied. The flood HW and the highest flood HHW can then flow away unhindered.

As the F i g. 5 to 7 show, the control tube 8 ', 8 "and 8'" and the line 6 'do not need to be connected to one another to be. The connection between the control tube 8 ', 8 "and 8'" and the weir body 1 'can also be via a special line 12 take place, which is shown only schematically in FIGS. In the embodiments according to the F i g. 5 to 7, however, it is necessary that the influence of the control current on the interior of the weir body Γ is stronger than the influence of the water flowing through the line 6 '. This can by appropriate cross-sectional dimensioning and alignment of the inflow openings relative to the direction of flow of the water. By appropriate position and guidance of the control tube 8 ', 8 "and 8 '"can be the beginning of the control function on the one hand and the termination of the control function on the other hand depending on can be made variable by the height of the headwater, which is due to the fact that the control function only begins when the water level in the head tube has reached the highest section and the The control function is always terminated when the upper water level is below the inlet opening (end section 9 ', 9 ", 9'") of the control tube 8 ', 8 ", 8'" drops

In the embodiment according to FIG. 5, the control tube 8 'is arranged horizontally and straight on the other hand the control tube 8 ″ of the embodiment according to FIG. 6 has a middle section 13 which is the highest The control function only begins when the upper water reaches this highest point In contrast, the control function ends due to the lifting effect of the control tube 8 ″ only when the The upper water level has dropped below the inlet opening (end section 9 ") of the control tube 8"

The control member of the embodiment according to FIG. 7 essentially represents an inversion of the control member according to the F i g. 1 to 3, since the inlet opening (end section 9 '") of the control tube 8'" is now higher as its exit end (end section 10 '"). The start and end of the control are thus determined by the ratio of the Determined head water level to the height of the inlet opening (end section 9 '")

Of course, in embodiments of the invention, a control device can be used simultaneously for several Weir body is provided. Conversely, however, it is also conceivable to have several at different heights to provide gradually starting control devices for one or more weir bodies at the same time. As a rule, the inflow opening of the control tube is arranged directly in front of the weir body, i. H. depending on the respective construction at a distance of up to 5 m.

For this purpose 3 sheets of drawings

65

Claims (8)

1 2 tune (6.6 ') of the weir body (1) in the control tube (8) claims: in the transition area between the horizontally ver running lower end portion (9) and the 1. Control device for at least one, from fle- adjoining, obliquely upwardly running, essentially liquid-tight material s the section of the control tube (8) opens, existing weir body, which is intended for damming liquid flows with a free surface and
its interior with at least one supply line ^ ÄmmditSStmSivÄ, o The invention relates to a. Control for weir bodies for the upper inlet opening for at least one flexible weir body, consisting of at least partially impermeable material in the secular, flowing water, which is directed in the opposite direction to the liquid flow and which is used to damming liquid flows with free upper and lower water bodies Flood before determined and its interior can be bulged over at least cmc n ^ ndesenTSnem a predetermined water "supply line with the headwater of the Fluss.gkeitsstromes ™ andTonToberwasser flows through" the control tube, where ™ ^nd « ^l f ⁿ >""7" J? ' ^? / is provided, in which an inlet opening for the upper WeKpSr communicating with the interior of the weir body opens, water at least partially counteracts the flow inclination of the at least liquid flow thereby characterized and / For boarding section of the control tube (8,8 ', 8 », β"') at the height of 20 emptying of the weir body ^. Flood mmdesua »of the flood level (HW) is arranged, with a from a predetermined water level from the upper ^ LuervorWngfüUs ^^ water flow through control *; V ^ J ^ J * ™ water begins, and that with the interior of the one with the interior of the weir body communt weir body (1,1 ') communicating line (6,6' decorative line opens. and 12) essentially perpendicularly into the control tube 25. A weir body of the type described above, η (P. 8 '8 "8"' ϊ leads to the German Offenlegungsschnft 28 37 .88 beschne 2 Control device according to claim 1, characterized ben. Such a weir body is found in rivers, especially characterized in that the inlet opening of the control but in channels, especially those of the water pipe (8,8 ', 8 ", 8'") also serve as an inlet port for tion, used. This is e.nen the supply of upstream water into the interior of the weir body around which the water flows, its upwelling weir body (1,1 ') provided and essentially exercise, d. H. Height, in each case from the level of the headwater is dependent in the lowest area of the liquid flow. When the headwater rises, it approaches the defense structure is rigid within the scope of its possibilities. 3 control device according to one of the predecessors. whereas it results from sinking headwater pending claims, characterized in that 35 of the decreasing kinetic and static pressure in the cross-section of the supply line with the interior of the weir body decreases. pers (1, 1 ') communicating line (6, 6', 7, 12) The one from the German Offenlegungsschnft 28 37 788 is smaller than the cross section of the control tube (8,8 ', known weir body has the advantage that it is gJ / g »,) without mechanical control levers, d. H. 4. Control device according to one of the previous 40 that the raising and lowering of the weir is automatic pending claims, characterized in that the table as a function of the. Conditions in the upper adjusts the control tube (8, 8 ', 8 ", 8'") in the area of the water immediately in front of the Wenrkorper. 60- with the interior of the weir body (1, 1 ') soon a certain internal pressure in the weir body communicating line (6,6 ', 12) in the manner of a step, s.ch opens a Vent.l in the riser. VentTi pipe is narrowed in cross section. 45 so that the weir body sinks and the high water 5 control device according to one that can be removed beforehand. Be. of the device for meshing claims, characterized in that the internal pressure is resolved and the valve is s.ch the control tube (8) in a substantially vertical part where damage occurs over time and in the direction of flow (A ) of the liquid can, so that the functionality of the Slcuervorkeitsstromes level is arranged and so direction is not guaranteed in the long run. in this flow direction obliquely from the bottom down. It is therefore the object of the invention to provide a control device The direction above is to create flexible weir bodies through which 6 control device according to claim 5, characterized not only the raising and lowering of the weir body, that the angle of inclination of the steering wheel is also not subject to rapid lowering at high tide errohres (8) between 40 ° and 50 °, preferably 45 ° 55 the use of mechanical control units ei heträet is possible. 7. Control device according to one of the preceding claims, characterized in that a section of the control tube at the height of the flood the control tube (8, 8 ') is arranged at least one preferably serspiegel .st, be the control operation horizontally extending end portion (9, 9 ') up 60 begins the-lowering flood, and that the points, of the inlet and outlet end of the tax with the interior of the weir body * ° ™ ~ ^ _{errohres (8f8} -) _bi l _det line substantially perpendicular to the Slcucrrohi 8. Control device according to claim 7, characterized in that it opens. characterized in that the exit end of the tax Advantageous embodiments are the subject of the tube (8.8 ') in its end section a funnel conveyor. has moderate expansion. The invention is based on several Ausungsbc.- I control device according to claim 7 or 8. play in the following Besehrc.bung im /.usany characterized in that the upstream water supply is described in more detail with the drawing, t-.s / e-