SU731287A1 - Hydrostatic level system - Google Patents

Description

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The invention relates to the field of geodetic measurements, namely, devices for determining elevations by means of communicating vessels from ships filled with a homogeneous current-carrying fluid and can be used to systematically measure the sediment of civilian industrial and special structures, JQ

  - “Hydronic levers are known, containing-; Communicating vessels with liquid level electrodes located in them, a device for measuring the level of liquid in vessels and an information processing unit 1, 2 and 3.

Closest to the proposed technical essence and the achieved result is a device containing measuring and communicating vessels with electrodes, a control panel and a lifting mechanism of a measuring vessel, the electrodes and a lifting mechanism being electrically 25 connected to the control panel 4.

In this device, in the process of continuous lifting of fluid in all vessels of the system, the measurement (count) of a level in a particular vessel is

B is produced by the general measure of the nominal vessel from the moment the liquid begins to move in the system until it is in contact with the stationary axial upper contact electrode of the or -ORIO vessel. This contact is made in the form of a needle rod fixed in the upper part of the vessel and set along the axis of symmetry.

A device that implements the method of hydrodynamic leveling has a number of features and quantities that are difficult to take into account in the final determination of the exceedances. To such features when fluid flows from the measuring (pressure) vessel, at the moment it is lifted. These are: piezometric line, energy line, hydraulic and piezometric slope, hydraulic resistance, head loss along the length, local resistance in sensors, suspended particles (heterogeneity) of conductive liquid, precipitation of liquid from the liquid and change due to the latter, volumes of communicating vessels. All of the above does not allow for monitoring the uniformity of filling with the liquid of the entire system of communicating vessels, and, thus, does not allow monitoring the performance of the hydrodynamic leveling system.

The purpose of the invention is to improve the accuracy of monitoring the state of the vascular system of the hygromagnetic level and speeding up the process of control.

The goal is achieved by the fact that the hydrodynamic level control panel is equipped with a control unit made in the form of a time counter, a threshold element and a switching unit, and a system of communicating vessels at the fluid inlet is supplemented with an initial sensor, the inputs of the switching unit being connected to each sensor of the communicating vessels; the output is connected to the input of the threshold element, the second input of the threshold element is connected to the initial vessel of the vessel system, and the output of the threshold element is connected to the end ROLL unit.

The drawing shows a diagram of a hydrodynamic leveling system. The system contains a stabilizing device 1 of the rotation speed of an electric motor of a lifting mechanism 2, measuring vessel 3,. control panel 4, in which there are n channels consisting of an electronic amplifier 5 for passing signals, and counters 6 pulses. In the system of communicating p vessels, each sensor vessel is equipped with an electrode 7 placed in the sensor vessel 8. The system also includes an initial 9 sensor of the system of communicating vessels, a switching unit 10, a threshold element 11, and a control unit 12 configured as a time counter.

The control unit of each channel a, b, ... receives information about the presence or absence of contact with the liquid of the electrode 7 of the corresponding vessel-sensor 8.

The system operates as follows.

, In the initial state, the electrically conducting fluid is entirely in the pressure vessel, and is absent in the sensors.

When the stabilizer 1 is turned on, the lifting device 2 starts up, which lifts the measuring vessel 3. At the same time, the lifting device 2, equipped with a code disk (conditionally not shown), pulses simultaneously to all channels of the control panel 4, these pulses are amplified by an electronic amplifier 5 and served on counters- 6

pulses. The liquid from the measuring vessel 3. Begins to flow into the system of collective pressure vessels and closes the initial electrode 9, which supplies a pulse to the threshold device 11, including the control device 12, in the form of a time counter. Next, the liquid enters the measuring vessels 8, fill them and close the corresponding electrodes 7. The signals from the electrodes 7 are fed simultaneously to the amplifiers 5 and the switching device 10. On entering the amplifier 5, the signal is amplified by them and interrupts the pulse count of the corresponding channel 6. From the electrode 7 through the switching unit 10, the signal is sent to the threshold device 11 and then to the time counter 12 in the form of a inhibitory signal, which stops the counting of time. The final electrode, combined with the electrode of the sensor 7, is placed on the peripheral portion of the system.

Thus, knowing the liquid filling time of the associated vessels of the previous measurement, control the working capacity of the hydrodynamic leveling system according to the stability of the readings of the subsequent time measurements of the selected area.

So, if there is fluid leakage in the system at several or in one area, then it can be detected only when measuring the time of fluid propagation between adjacent electrodags, Since the control unit has an electronic recorder of the time of fluid propagation with an accuracy of fixing it to 0.1 s. and can practically check any area between the electrodes, it thereby increases the efficiency of detecting a leak in the system.

The system of hydrodynamic leveling is expediently used in the system of long-term control in hydraulic dams, moorings, synchrophasatrons and on other objects.

Claims (1)

The invention of a hydrodynamic leveling system comprising a measuring vessel with a conducting fluid, communicating vessels with electrodes and a measuring vessel lifting mechanism / connected to a control panel, characterized in that, in order to improve the accuracy of monitoring the internal state of the system of hydrodynamic leveling vessels and acceleration of the control process, the control panel is equipped with a control unit, made in the form of a time counter, a threshold element and a collating unit, and the system is ayu1sh-1hs vessels entering the liquid therefrom