AT44121B - Sparmauerdamm. - Google Patents

Description

  

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  Sparmauerdamm.



   It is well known that the usual cross-sections of dam walls have the disadvantage that, especially with greater heights, the air-side edge pressures and the permissible floor pressures soon exceed the officially permissible value and the calculation with regard to possible buoyancy effects of the water does not guarantee the desired degree of safety, and that when switching between fully loaded and emptied basin, the pressure line usually moves within the two extremely possible borderline cases, so that permanent deformations, even cracks in the masonry and foundation can occur, which endanger the stability of the structure.



   The present construction eliminates these inconveniences and allows a clear calculation of the individual construction styles as well as favorable material utilization.



   The principle of the construction is for the cross-sectional shape of the dam
 EMI1.1
 Height of the ideal wall crown) than when the pool is empty, the resultant of the attack forces for each horizontal section goes through the median line of the corresponding horizontal section,
 EMI1.2
 cut is evenly distributed. For the full cross-section z.

   B. This can theoretically be achieved by giving the wall cross-section the shape of an isosceles triangle
 EMI1.3
 high A is equal to the height of the triangle, the resultant of the water pressure at any pressure height as is the symmetry axis of the cross-section at a distance hx from the ideal wall crown, i.e. H. the total water pressure W for the height hx is evenly distributed over the horizontal section in the depth his (see drawing on sheet 1, figure 1.)
Due to the symmetrical wall cross-section, the dead weight pressures are also equal.
 EMI1.4
   Condition.

   The wall can be designed with full cross-section or with recesses. Ste can also be broken up into individual transverse ribs, which can again be stiffened underneath and d) support the closing wall on the water side; the air-side slope can be covered with a structured cross-section or the ribs can be exposed, the water-side slope can be stepped or otherwise deviate from the mathematical form in FIG. 1; Also, the wall cross-section will at least not run out to the theoretical point of Figure 1, but at most be somewhat paved and serve as a bridge for traffic and the like. s. w.

   The factors mentioned will naturally cause a certain shift in the theoretically developed distribution of compressive stresses and, under certain circumstances, also cause a change in the slope of the slope surfaces.



   Figures 2 and 3 represent a schematic cross-section and floor plan of a spar wall dam. The ribs form the support for the water-side shut-off wall, which can be divided into the supporting wall a, the distribution wall b and the protective layer c. The wall itself can be made of brickwork, concrete, reinforced concrete, iron, wood or a combination of these materials.

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Claims (1)

For practical reasons, the ideal case of completely even pressure distribution can of course hardly be achieved and therefore there was also a slight deviation in the patent claim EMI2.1 The registered cross-sectional shape can be used for any height, with particular advantage for very high pressure heights, where the previously common cross-sections give rise to serious concerns with regard to the pressure distribution and the edge stresses increase disproportionately. If the water level does not reach the height of the wall crown, the resultant of the water pressure acts on the water-side half of the associated horizontal section; this eccentric stress, which can occur temporarily, remains below the maximum stress at full load and is not unfavorable because the maximum pressure acts on the water side. In addition to the aforementioned advantages of a favorable pressure distribution and the resulting high level of stability of the structure as well as the uncovered usability for any damming heights, the economy dam in question has the following advantages over the previously common cross-sectional shapes: 1. It is to be used with less stable subsoil because, due to the even pressure distribution, the soil pressure is significantly lower, with the same external force effect, than when the soil pressure is distributed in a trapezoidal or even triangular shape. 2. Buoyancy effects and seepage of the water have no influence on the stability of the structure. 3. In the case of a structured construction, both the supporting structure and the water-side end wall can be made easily accessible, which makes it easier to monitor and repair the structure. 4. If necessary, individual cells or larger sections of the economy dam can be bricked up in the interests of greater security or to close leaks. 5. Structural systems can be accommodated in the recesses in the masonry. PATENT. CLAIM : Sparmauerdamm, characterized in that the embankment surfaces are inclined in such a way that at a water level that reaches up to the ideal weir crest, the resultant of the water pressure for this horizontal section is taken from the resultant of the construction weights for this horizontal section in the named horizontal section, or that for each horizontal section the mean force of the two named resultants hits the corresponding horizontal section at a point whose distance from the median line of the horizontal section is not more than 1/20 of the width of the horizontal section, for the purpose of a pressure distribution that is as even as possible and thus an absolute stability of the To achieve savings dams.