CN1049207A - Energy dissipation method for soft foundation overflow dam - Google Patents

Abstract

The invention relates to an energy dissipation method for hydraulic engineering, which is suitable for energy dissipation on an overflow weir of irrigation engineering. The overflow weir includes special curved weir face and narrow-slit triangular pier set in the back scoop of the overflow weir, and has the advantages of high energy dissipating effect, long service life of the overflow weir, saving engineering investment by 30-40% and low downstream flushing depth by 70% compared with available underflow energy dissipating engineering structure.

Description

Energy-relief method of soft base spillway dam

The present invention is a kind of energy dissipating method of hydraulic engineering, is applicable to the overflow weir of engineering irrigation.

The method that at present domestic and international irrigation channel water is used to irrigate extensively adopts overfall dam, and its dam length is shorter, overflow height of dam 1-3 rice, head 1-2 rice on the dam, inflow-rate of water turbine 2-8 rice ³Adopt bavin stone overfall dam in Losses in Eastern Mountain Area of Liao Ning/second, and nearly 2,000, its construction is simple, gathers materials on the spot.But delivery period, easily destroy by rush of water, and needs often maintenance, and per thousand of annual maintenance costs reach ten thousand yuans of 300-500.In order to change existing bavin masonry dam is the semipermanent engineering, reduces maintenance cost, adopts the stone masonry overfall dam, and dam facing is a unit cambered surface formula, in the use underwater bed is washed away seriously.In order to reduce to the washing away of downstream, adopt the underflow type hydrostatic power wall method that disappears, but the construction investment height, every meter cost 1200-1400 unit; Also have and adopt the board-like overfall dam method of movable gate, construction investment is lower, but shortcoming is hung the silt faggot when being overflow, influence flood discharge, and the downstream scour depth is also bigger.

Task of the present invention is to propose a kind of energy dissipating method that is used for soft basic overflow weir, to reduce the washing away of downstream, saves construction investment, and can guarantee weir safety, increases the service life.

The object of the present invention is achieved like this: overflow weir is made up of the bailing bucket at weir face and rear portion, the weir face is made a special surface, can adopt two kinds of patterns: (1) four circular curve type, wherein R1=0.5H, R2=0.2H, R3=0.04H, R4=H, H is a head height on the dam.(2) elliptic curve adds a circular curve type, transverse 0.4H wherein, and minor axis 0.2H, the ratio of major and minor axis is 2, arc radius r=H.Connect an anti-circular arc bailing bucket behind overflow weir, uniform narrow slit triangle pier is advisable with isoceles triangle (overlooking) in the bailing bucket, and high and wide ratio is 2, and stitching wide ratio is 0.8-1.2, pastes mutually with the bailing bucket surface curve at the bottom of the pier.

Advantage of the present invention is:

(1), compares saving construction investment 34% with the disspation through hydraudic jimp engineering;

(2), effect of energy dissipation is good, the downstream scour depth alleviates 70%;

(3), dam body safety, the life-span prolongs.Be applicable on the soft basic gravel riverbed.

Below in conjunction with embodiment and accompanying drawing thereof details of the present invention is further described.

Fig. 1 is an overflow weir energy dissipating method general illustration.

Fig. 2 is four circular curve shape schematic diagrames.

Fig. 3 is that elliptic curve adds a circular curve shape schematic diagram.

Fig. 4 is that the triangle pier is arranged schematic diagram.

With reference to the accompanying drawings, H-weir head among the figure, P-weir face height, the ht-downstream water depth, the R-anti-arc radius, the t-scour hole degree of depth, θ-bailing bucket end is chosen the angle.

1-overflow weir curve, bail behind the 3-in 2-narrow slit triangle pier position, 4-imperviousing preventing flushing layer, basis, 5-upstream, basis, downstream, 6-weir, 7-scour hole.

Energy-dissipating structure is made up of weir face 1 and bailing bucket 3, and weir face 1 can be built by laying bricks or stones by sandstone, and its sectional curve 1 is got four arc form, R1=0.5H, R2=0.2H, R3=0.04H, R4=H.Wherein H is a weir head, is generally 1.5-4 rice, and back bailing bucket is anti-circular arc, radius R=1.5 meter, and the bailing bucket end is chosen 30 °-35 ° at angle, and P is a height of weir 1-5 rice.

Evenly arrange triangle pier 2 in bailing bucket, the horizontal projection of pier is an isosceles triangle, and the Breadth Maximum of triangle pier 2 is b, apart from being bo, stitches widely than m=bo/b=0.8-1.2 between two piers, gets m=1 usually.There is infiltration corrosion inhibitor hole 8 two sides of triangle pier to triangle bottom surface, and the bottom surface of triangle pier and bailing bucket face fit.

Use this method site trial, 100 meters of dam lengths, dark 1.2 meters of the favourable opposition in downstream, 80,000 yuan of total investment of engineering are saved 4.2 ten thousand yuan, and effect of energy dissipation is good.

Claims (4)

1, a kind of hydraulic engineering energy dissipating method is characterized in that overflow weir adopts four circular curves, or elliptic curve connects circular curve, connects circular arc bailing bucket at face rear portion, weir, and narrow slit triangle pier evenly is set in the bailing bucket.

2, energy-dissipating structure according to claim 1 is characterized in that said four circular curve shape weir faces, and its radius is that R1=0.5H, R2=0.2H, R3=0.04H, R4=H(H are the high head of going up).

3, energy-dissipating structure according to claim 1 is characterized in that said elliptic curve adds a circular curve shape weir face, and its transverse is 0.4H, and minor axis is 0.2H, and the ratio of major and minor axis is 2, and arc radius is r=H.

4, energy-dissipating structure according to claim 1 is characterized in that triangle pier uniform in the said bailing bucket, is isosceles triangle (overlooking), stitching wide ratio is 0.8-1.2, high and wide ratio is 2, pastes mutually with the bailing bucket surface curve at the bottom of the pier, and there is infiltration corrosion inhibitor hole triangle pier two sides to the bottom surface.

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