SU303506A1 - - Google Patents

Description

The invention relates to the field of geodetic engineering and is intended to determine / exceed the on-site hydrostatic conditions.

The known hydrostatic levels containing pressure sensors with a lever-measuring device (maimeters), connected by a hose and filled with liquid, have the disadvantage that air bubbles and containers of liquid appear in the upper gauge, while the range of the device is limited, since 1 exceeding 1–8 m in the system results in the release of dissolved air from the liquid and vaporization. THAT leads to significant errors and then to the device failure. In addition, such a system is closed, which leads to inconsistency of the scale when the temperature or the volume of the fluid changes (when the hose bends).

In order to increase the accuracy and speed up the process, pressure sensors (gauges) of the proposed hydrostatic level located at opposite ends of the hose contain redistributive devices for automatically redistributing fluid pressure from one pressure sensor (upper) to another (lower) when changing the sign of the terrain slope. Each rail device is an additional capacity, which has a double wall with a small gap, the inner wall being made in the form of a thin elastic shell, and externally in the form of a small rigid mesh.

The drawing shows the proposed nivelnr.

A hydrostatic level consists of two identical measuring units 1 connected by a hose 2. Each blank contains a pressure sensor (pressure gauge) 3 connected by means of an auxiliary hose 4 to a redistribution device in the form of an additional tank 5 having a double wall with a small adjustable clearance. The inner wall is made in the form of a thin elastic sheath 6, and the outer wall is made in the form of a fine rigid mesh 7 fixed in an adjusting sleeve 8. The entire system is filled with liquid.

Hydrostatic n pveler works as follows.

To measure anxiety between two

adjacent points and the instrument is arranged in such a way that one of the measuring

blocks was on one point, the second - on

other and the connecting hose is prot zero

Neither the liquid elastic sheath 6 is tightly attached to the grid 7, remaining in this position (regardless of the magnitude of the excess) until 1pcp, this block will be located below the second.

The fine mesh serves as a rigid support for the elastic shell, restricts its course in one direction only, and at the same time provides the opportunity for the fluid to absorb atmospheric pressure through the shell. Now the fluid pressure is transferred from the tank 5 through the auxiliary hose 4 to the pressure gauge 3. At the same time, the fluid pressure in the tank 5 of the upper unit to the elastic sheath 6 stops and it departs from the grid 7, not following the level of the fluid. The fluid pressure in the manometer of the upper unit will be determined by the height of the liquid column bounded by the elastic sheath. The difference of the readings corrected by the necessary amendments on the first and second gauges corresponds to the desired overshoot. In this case, the counting but the upper gauge corresponds to the position of the zero level at the time of measurement.

Subject invention

A hydrostatic level containing two measuring manometric sensors connected by a hose and filled with liquid, characterized in that, in order to increase the accuracy and speed up the work process,

in it, each measuring sensor is equipped with a redistributing device, made in the form of a container with an elastic sheath, enveloped outside by a restrictive metal mesh.