DE19919290A1 - Overflow flap weir has a spring drive under the flap mounting to hold the flap in the raised setting and with an automatic overflow action - Google Patents

Abstract

An overflow weir for dumping excess flow from a duct has a flap (5) mounted on one edge of the duct and held in a near vertical setting by a spring system (8, 9) under the flap. The flap is held at an angle of 20 to 30 deg. from the vertical and sloping away from the duct. When the flow level has risen to a preset level the flap drops and dumps the excess flow, after which the spring raises the flap again. The spring system uses simple coil springs.

Description

Rain relief is used in mixed water sewers det when a defined water level is exceeded release the excess water into the body of water. The discharge stungen are in many cases as fixed hold-up thresholds educated.

Flap weirs are already known for improvement, the one allows better use of the available space lichen.

In a known valve weir, a valve is around a hori Central axis pivoted, the overflow edge over a rope that is passed over a roller with a Ge importance is connected. The weight is used to open the flap to prepare (DE 257 804).

A similar valve weir is known in which the valve with communicates with a swimmer in front of the water the flap is applied (DE 33 05 401 A1).

It is also known instead of a swiveling one Flap to use a baffle wall that ver can be formed (US 47 87 774).  

In another known device for controlling a Liquid, especially a water level, is a Flap present in the closed position at an angle of about 30 degrees from the horizontal. she can under the action of the dammed up water against the Effect of a compression spring in an opening position downwards be pivoted. The degree of freedom for the characteristic is only the spring constant of the spring is available. The feather is arranged above the overflow edge of the flap (DE 85 10 517 U).

The invention has for its object a simply up built flap weir without external energy fen that has a flat characteristic, d. H. a big change in Overflow current with a small change in the headwater level and has the lowest possible hysteresis.

To achieve this object, the invention proposes a flap weir with the features of claim 1. Training the invention are the subject of the dependent claims, the Wording as well as the wording of the summary Reference is made to the content of the description.

In the closed position, the flap is oriented so that it forms an overflow threshold. If the water is sufficient rises far, the flap opens due to the water pressure against the action of the compression spring. Then it moves up to a maximum opening position. After sinking the what serspiegel the compression spring puts the flap back into the Closed position back. The compression spring is below the Flap arranged so that no transmission mechanisms like Shafts, rollers, cams, ropes or tie rods are required be a disturbance in the flow of water would mean. With the spring mechanism directly under the  Flap the not inconsiderable forces free of play and run with the shortest possible route. This will Friction and play minimized and the flap reacts very much sensitive and low hysteresis.

In a further development of the invention it can be provided that the In its closed position flap an angle of about 20 to about 30 degrees with the vertical, in public direction deviates from the vertical.

It can also be provided that the flap in its Opening position runs approximately horizontally.

The invention proposes that the pivot angle of the flap can be about 50 degrees. This allows the retention Make optimal use of the space in the building.

According to the invention it can be provided that the compression spring Has spring characteristics of a coil spring. Screw feather have a characteristic, the Hook's law corresponds.

To achieve these spring properties can fiction according to the spring to be a coil spring.

In a further development it can be provided that the Coil spring is arranged approximately vertically.

The invention proposes that the spring on the flap attacks itself.

According to the invention it can be provided that the spring on the Attacks at a point whose distance from the Swivel axis of the flap is significantly smaller than the distance  between the swivel axis and the overflow edge of the flap. In this way, the spring characteristics of the spring can be better can be used to achieve the flat characteristic.

It can be provided that the spring on the flap engages a point that of the pivot axis of the Flap with the line connecting the overflow edge of the flap is downstream.

According to the invention it can be provided that the spring on the Flap and / or an abutment articulated and is secured against buckling. According to Art a spring strut, for example within telescopically guided pipes or arranged around rods be nice.

In a further development of the invention can be provided be that the point of application of the spring closer to the flap a vertical going through the pivot axis of the flap Level is arranged as the counter bearing.

But it is also possible that this point of attack knows is arranged from this vertical plane than the Ge counter bearing. Due to the multitude of possible arrangement points for the counter bearing receives the one proposed by the invention ne flap another degree of freedom to determine the Curve.

Instead of an articulated attachment of the end of the spring can can also be provided that the spring in the area of their each end rigid with the flap and / or the counter bearing or torque-rigid.

If the spring is rigid with the two ends in the area each element is connected, so according to the invention  be provided that the ends of the spring in the opening position of the flap lie in parallel planes.

The invention proposes that the spring be arranged in this way can be that the orientation of one of their attack point connecting line during the movement of the flap changes.

It can also be provided that the spring is attached in this way is ordered that the effective lever arm and / or that Return torque during the movement of the flap only on s maximum value increases and then decreases again. So that will it is possible to open the flap by opening the flap To compensate water load very finely.

The valve according to the invention can also be used as a backflow valve be used. A stop can then be provided for this purpose against which the flap rests when backwater from the underwater he leans close.

Further features, details and advantages of the invention he give a preferred from the following description Embodiment of the invention and with reference to the drawing. Here show:

FIG. 1 is a section through a rain relief structure with a flap weir according to the invention;

Figure 2 is an enlarged section of a section through the flap in its closed state.

Figure 3 is a rear view of a presentation reasons very short flap with spring from the right in Fig. 2.

FIG. 4 shows a representation corresponding to FIG. 2 when a flap is in the fully open position with the lower foot of the spring extended;

Fig. 5 is a representation corresponding to Figure 2 in a second embodiment with retracted lower base of the spring.

Fig. 6 is a representation corresponding to FIGS. 2 and 5 in yet another embodiment with a torque-rigid mounting of both spring ends.

Fig. 1 shows a section through a rain relief construction, which is constructed from concrete walls. In the normal case, the building 1 is traversed in the longitudinal direction, that is, transversely to the plane of the paper. In the rain relief structure 1 there is a threshold 2 which normally separates the passage 3 from an outlet 4 leading to the outside. On the side facing away from the normal passage 3 of the threshold 2 , a flap 5 is articulated on the upper edge, which has a closed position. Fig. 1 shows the lid 5 in its raised at dry weather flow closing position. In the closed position, the overflow edge 6 of the flap has its maximum height. This maximum height of the overflow edge 6 also forms the maximum water level 7 , at which no water flows from the passage 3 to the outlet 4 . In the closed position, the flap 5 is held by a prestressed spring 8 , which is arranged below the flap 5 and acts between the flap 5 and a counter bearing 9 . The counter bearing 9 is fixed to the threshold 2 , but is adjustable if necessary. The flap acts such that when the water exceeds the aforementioned height 7, it folds against the action of the spring 8 under the action of the water to the outlet 14 leading to the body of water, ie it opens. It can be pivoted to a maximum open position, which is shown in dashed lines in FIG. 1 at 5 '. As soon as the water level drops below the water level 7 , the spring 8 raises the flap 5 again.

The flap 5 extends in the longitudinal direction of the threshold 2 between two side walls 10 , against which the flap 5 is sealed, for example by lip seals. The water can therefore only reach the outlet 4 between the two side walls 10 via the overflow edge 6 of the flap 5 .

Fig. 2 shows the structure and attachment of the flap on the threshold 2 in more detail. On the threshold 2 on the side facing the outlet 4, a base bracket 11 is attached in the form of a double-angled plate, for example with the help of dowels. Carriers 12 are attached to the base body and, in the region of their lower end facing away from the threshold 2, form a bearing for an axle 13 to which the spring strut 8 is articulated.

In the upper region of the carrier 12 , the shaft 14 or shaft piece forming the pivot axis of the flap 5 extends.

The flap 5 consists of a hollow box profile, preferably made of stainless steel, which ensures the necessary rigidity of the flap 5 . The flap is reinforced by frames 15 . These Span th 15 are net angeord in the region of the two ends of the flap 5 . In the central region, further frames 16 are attached to the flap, between which shaft bolts 17 extend. These shaft bolts 17 are used for articulated attachment of the suspension strut 8 on the valve body 5 .

The side walls 10 are formed by side plates, which are either connected to the base support 11 or to the walls of the building or to both. L-shaped sliding seals are attached between the ends of the flap 5 and the side shields, which seal these narrow gaps. In the case of flaps that also serve as backflow protection, there is another set of these seals on the front edge of the seal gap.

If you connect the shaft 17 to the shaft 14 , this connecting line includes an angle with the longitudinal axis of the strut that is less than 90 degrees, for example about 70 degrees. If the flap 5 is moved clockwise from the closed position into the open position downwards, this angle increases until it reaches 90 degrees. With further pivoting movement in the opening position shown in FIG. 4, the angle increases beyond 90 degrees. The effective lever arm reaches its maximum at 90 degrees. If this value is exceeded, it decreases again. As a result, the return torque can increase less than it corresponds to the increasing spring force. Depending on the arrangement of the shaft 17 in relation to the shaft 14, it can be determined at which opening angle of the flap the maximum lever arm or the maximum restoring torque is present.

In the embodiment of FIG. 5, the lower articulation point of the spring strut 8 , that is to say the shaft 13 , has moved closer to the threshold 2 . The shock absorber 8 is thus arranged approximately vertically in the closed position of the flap 5 , but vice versa in relation to the arrangement of FIG. 2. Again, the angle between the direction of action of the spring 8 and the shaft 14 and 17 ver binding line changes over an angle of 90 degrees, which corresponds to the maximum effective lever arm. In the embodiment of FIG. 5, the spring force is also at the beginning of the overflow of the flap 5 in an area where it is particularly protected from pollution by overflowing waste water.

In the embodiment of Fig. 6, a spring 18 applies ver, which is a helical compression spring likewise, but which is not designed as a spring strut. The lower end 19 of the spring, which lies in one plane, is screwed to the horizontal lower leg 21 of the base support 1 with a torque stiffness using a clamping plate 20 .

The opposite upper end 22 of the helical spring, which is also in one plane, is braced against a plate 23 , the plane of which is approximately parallel to a plane connecting the shaft 14 to the overflow edge 6 . There, too, the spring 18 is rigidly connected to the flap 5 . When pivoting the flap 5 from its closed position, see Fig. 6, in its maximum open position, the plate 23 comes into a position where it runs approximately parallel to the plane in which the lower end of the spring 18 is arranged.

The flap proposed by the invention is a flooded flap that, as long as it is not a is jammed, is in a prestressed rest position det. When the relief water level is reached, cause the hydrostatic forces of water that the Flap starts to tilt down. The attacking dynami forces and the restoring force of the spring mechanism to a new balance.

If the water level then rises slightly further, tends the flap further down and enlarges the through streamed surface. The discharge characteristic is in this state almost horizontal.  

At full load, the flap lies on a mechanical stop on.

As the drain decreases, the head falls slightly, and the forces on the flap decrease. This moves the flap gradually returns to its rest position.

Claims (16)

1st flap weir, with

• 1. 1.1 an essentially horizontal threshold ( 2 ),
• 2. 1.2 two transverse to the threshold ( 2 ) extending Seitenwän the ( 10 ), the
  • 1. 1.2.1 have a distance in the longitudinal direction of the threshold ( 2 ),
• 3. 1.3 a flap ( 5 ) that
  • 1. 1.3.1 on the threshold ( 2 ) between the two Seitenwän the ( 10 ) about a horizontal axis is pivotally supported and
  • 2. 1.3.2 a closed position and
  • 3. 1.3.3 has an open position, and with
• 4. 1.4 a compression spring ( 8 , 18 ), the
  • 1. 1.4.1 the flap ( 5 ) in its closed position and
  • 2. 1.4.2 is arranged below the flap ( 5 ).

2. flap weir according to claim 1, wherein the flap ( 5 ) in the closed position makes an angle of about 20 degrees to about 30 degrees with the vertical, in the opening direction deviating from this. 3. flap weir according to claim 1 or 2, wherein the flap ( 5 ) extends approximately horizontally in the open position. 4. flap weir according to one of the preceding claims, wherein the pivoting angle of the flap ( 5 ) between the closed position and the open position is approximately 50 degrees. 5. flap weir according to one of the preceding claims, wherein the compression spring ( 8 , 18 ) has the spring characteristics of a helical spring. 6. flap weir according to one of the preceding claims, wherein the compression spring ( 8 , 18 ) is a coil spring. 7. flap weir according to one of the preceding claims, wherein the spring ( 8 , 18 ) is approximately vertical. 8. flap weir according to one of the preceding claims, wherein the spring ( 8 , 18 ) on the flap ( 5 ) engages at a point whose distance from the pivot axis of the flap is significantly smaller than the distance between the axis of rotation of the flap ( 5th ) and the overflow edge ( 6 ) of the flap ( 5 ). 9. flap weir according to one of the preceding claims, in which the spring ( 8 , 18 ) on the flap ( 5 ) engages at a point downstream of a line connecting the axis of rotation with the overflow edge ( 6 ) of the flap ( 5 ) gives way. 10. flap weir according to one of the preceding claims, wherein the spring ( 8 , 18 ) on the flap ( 5 ) and / or a counter bearing is pivotally articulated and secured against buckling ge. 11. Flap weir according to one of the preceding claims, in which the point of application of the spring ( 8 , 18 ) on the flap ( 5 ) is arranged closer to a vertical plane passing through the pivot axis than the counter bearing. 12. flap weir according to one of claims 1 to 10, wherein the point of application of the spring ( 8 , 18 ) on the flap ( 5 ) is arranged farther from a vertical plane passing through the pivot axis than the counter bearing. 13. flap weir according to one of claims 1 to 9 and 11 or 12, wherein the spring ( 18 ) is rigidly connected in the region of its respective end with the flap ( 5 ) and / or the counter bearing. 14. flap weir according to one of the preceding claims, wherein the spring ( 8 , 18 ) is arranged such that the orientation of a line connecting its points of attack changes during the movement of the flap ( 5 ). 15. Flap weir according to one of the preceding claims, in which the spring ( 8 , 18 ) is arranged such that the effective lever arm increases during the movement of the flap ( 5 ) from the closed position into the open position to a maximum value and then decreases again. 16. Valve weir according to one of the preceding claims, in which the spring ( 8 , 18 ) is arranged such that the restoring torque increases during the movement of the flap ( 5 ) from the closed position into the open position to a maximum value and then decreases again.