SU36703A1 - Bathometer - Google Patents

Description

In the issue of the utilization of water forces in recent years in the USSR, considerable attention is paid to the utilization of the energy of mountain rivers.

The hydrological regime of mountain rivers causes the reservoirs to create large reservoirs, for which the sediment depositing them is a great evil, to properly adjust the load of the stations.

For successful control of sediments, their detailed and comprehensive study is necessary under natural flow conditions. Without stopping the existing methods and devices for this, we only note that the most difficult to account for the fraction of bottom sediments are fractions of gravel and coarse sand, which the proposed device is intended to take into account.

The device consists of a cylindrical vessel with inlet and outlet openings for water connected to the Glushchkov device, which takes a sample of the water leaving the vessel. LL better uu-, in a cylindrical vessel of large particles of sand, the vessel is equipped with ribs in the lower part of the slope.

In FIG. i and 2 show the view of the device B of two projections.

The metal cylinder mm has a removable a on each side (499;

Set 1, the inlet of which is ii 12 mm, and on the other side a sealed bottom 5 with an opening 4 at the top mm. The device is lowered to the bottom of the river or some distance from the bottom of the boom 5. Due to the fact that a certain vacuum is formed inside the device, a small suction is obtained in the device, and all 12 mm particles reaching the device’s location (because the velocity is the alignment of the first hole is not less than the flow velocity). As soon as the stream got into the device, a sharp drop in speeds occurs immediately.

since, from where v .. j where r is the flow rate of the inlet, 2 is the speed inside the tube, / is the area of the inlet, F., - the section of the cylinder.

Substituting the numerical values of the field, aday, we find that r / a v.

Due to such a strong drop in velocity, inside the device there occurs a fall of the packed fractions, which are deposited in the lower part of the cylinder into a special box equipped with inclined ribs 13, and the water, along with the smaller particles, goes

through the outlet 4 with a speed fo equal to g, -

 3 f (outlet area 4).

In order to know the turbidity of the water, the output of the gas pump and out of the device, a Glushkov barometer 6 is installed against the outlet 4, which takes a sample of the outgoing water. With a suitable selection of FI and RE, the velocity -v of the outgoing water can be so small that the barometer will fill for quite a long time.

After a certain period of time, having pulled the cord 7, which runs inside the pgga.agi, and pivots 8 (hinges;), 1 prulsins 9 push the Glushkov barometer into the device, so that the rubber stopper 10 closes the outlet 4, and the end of the receiving tube 11 rests in a special rubber cushion 12 and thus protects the water from the tank. After that, the device is turned downstream and taken out to the surface with the inlet upwards, where it is emptied and the samples are processed.

The subject matter of the invention.

A barometer, characterized in that, in order to better retain large particles of sand deposited on the 3 vessel, the vessel 1, 3 is provided in the lower part with inclined ribs 13.