PL221371B1 - Piezometric measurement set - Google Patents

Description

The subject of the invention is a piezometric measurement set designed to measure the water level, especially on physical models of water structures.

Measurements of the water level on physical models of water structures, carried out in hydraulic laboratories, are performed using pin water gauges or pressure gauges connected to the model. The measuring impulse is then determined directly at the place of its occurrence - measurement. The actual filling is calculated as the difference between the device indication and the reference value. For mechanical pin gauges, the reference value is usually a fixed level called zero. In electronic pressure gauges, when calculating the water depth, the transmitter indications should be reduced by the value of the current atmospheric pressure. Only electronic meters are used in the automated measurement process when high frequency measurement is required. In cyclic spot measurements, it is preferable to use differential pressure gauges configured in separate measuring sets instead of pressure gauges.

A solution of such a kit is an object of the present invention.

The piezometric measurement set according to the invention comprises two piezometric columns, a high pressure column and a low pressure column - permanently attached to the level control tube, to which is also attached a differential pressure transducer and a linear gauge. A distance gauge is slidably attached to the measure for checking the position of the calibration vessel, which is permanently attached to the gauge. In addition, the kit is equipped with low-level and high-level reference piezometers, which are located on the test bench, and valves. The components of the kit are connected by flexible pressure hoses, the high pressure piezometric column is connected to a balancing valve, drain valve and a differential pressure transducer by means of a shut-off valve, and the low pressure piezometric column is connected to a balancing valve, to a low-level reference piezometer via low pressure valve and direct with differential pressure transmitter. In addition, the kit is equipped with a high-level valve, which is connected to the calibration vessel hose during the calibration procedure, and is connected to the high-level piezometer during the measurement. The set is mounted on a support tube placed on the stabilization base, to which a level adjustment tube is slidably attached. The level-adjusting tube is provided with a means for locating its height on the stabilization tube, preferably a screw.

The valve array is preferably located on the base.

The stabilization tube has recesses in the lower part that cooperate with the screw fixing the height level of the set.

The low-level reference piezometer shall be located at the location and at the depth reference level, and the high-level piezometer shall be built into the test bench, at the fill-measurement site, not lower than the low-level reference piezometer location level.

The use of a support tube and a level control tube in the set allows for measurements at different levels, without changing the measuring range of the differential pressure transmitter. The use of a shift also allows the full use of the length of piezometric columns in the measuring range. The set according to the invention enables measurements and its calibration, as a result of which we obtain the equation of a simple gauge of the system.

The piezometric measuring set is shown in the example in the drawing, in which fig. 1 shows a vertical longitudinal section of the set, fig. 2 - vertical cross-section, fig. 3 - horizontal cross-section through piezometric columns, fig. 4 - horizontal cross-section through the vessel 5 - valve setting diagram for the K0 calibration procedure, fig. 6 - valve setting diagram for the KP calibration procedure, fig. 7 - valve setting diagram for the P0 measurement procedure, fig. 8 - valve setting diagram for the PS static measurement procedure and Fig. 9 is a valve setup diagram for a PD dynamic measurement procedure.

The piezometric measurement set according to the invention is adapted to perform the calibration process and measurements on the test stand. The process is performed according to the procedures described below.

The calibration procedure is used to establish the characteristics of the kit. The calibration tank 9 is connected to the high-level measuring valve 18 by means of a flexible pressure tube. Zeroing of the transducer 6 is performed for the lowest position of the tank 9. We perform the adjustment in the length of the linear gauge. The value of the pressure difference is determined from the length gauge 8, and the corresponding voltage from the indications of the multimeter of the differential pressure transducer 6. The calibration procedure allows to determine the characteristics of the set within the working range of the transducer.

The measurement procedure is carried out while performing the main measurements. A high level measuring piezometer 13 is connected to the high level valve 18. When the set pressures are slowly varying, the measurement is defined as "static measurement". For fast-changing pressures, the measurement is defined as "dynamic measurement". The nature of changes in the measuring impulse affects the setting of the valve positions.

As part of individual procedures, implementation activities related to the configuration and calibration of the set as well as the actual measurement are performed.

In the K calibration procedure, the measuring set is calibrated within the prescribed measuring range. The calibration procedure enables the determination of the characteristics of the differential pressure measuring transducer 6. The procedure is implemented as follows:

KK - the set configuration consists in the fact that the calibration vessel 9 is connected to the gauge 7 with the valve 18 set in the lowest position, by means of a flexible pressure conduit. The valves are positioned according to the position shown in the diagram shown in Fig. 5, and the calibration vessel 9 is positioned in the lower position of the measuring bar 7. The system of interconnecting vessels thus formed is filled with distilled water, so that no water overflows over the edge of the calibration vessel 9. The open through-flow valve 14 allows the water levels in columns 3 and 4 and in the calibration vessel 9 to equalize.

K0 - after the levels stabilize and the water in the vessels is deaerated, the system resets. Deaeration and zeroing of the transmitter should be performed in accordance with the transmitter operating instructions provided by the manufacturer. As part of these activities, it is necessary to vent the measuring chambers of the differential pressure transducer 6 and set the measurement zero. Then, a reading from the position meter 8 is made, marking it H0, and the voltage output V0 of the converter 6 is indicated as a system reset constant. In this way, we obtain a pair of events (H0 = 0, V0).

KP - measurement made for the current position of the calibration vessel. The valves are set according to the diagram shown in Fig. 6. During the measurement, the high-level valve 18 is open and the shut-off valve 16 is closed. The position of the vessel is determined according to the length of the calibration range, so as to obtain the required number of events to statistically establish the calibration line. There should be no less than 10 compartments covering the calibration range of the kit. In determining the position of the calibration vessel, it is allowed to use the principle of constant and any increase in the height of the subsequent vessel extension. In the set position, after blocking the gauge 8 and stabilizing the water table, the readings of the indications of the precision gauge H1 and the indications of the voltage output of the converter V1 are read. From the difference of indications of the precision measure H1 and H0, the excess value of DH1 = H1 - H0 is obtained, corresponding to the pressure difference expressed in m or cm of water column. The obtained DH1 and V1 values indicate another event in the calibration process.

Ki - the next measurement is performed according to the steps of the KP procedure for the next position of the calibration vessel. The height of the calibration vessel 9 increases up to the highest position corresponding to the measuring range. This way, n pairs of events are obtained that define the calibration line for increasing filling values. These events are described by pairs of DHi values for i = 1 to i = n. In order to establish the stability of the calibration line, a series of measurements should be made also for decreasing fillings, by taking measurements while lowering the calibration vessel. This way, a series for decreasing fillings is obtained, with the number of m events described in pairs of values DHj and Vj for j = 1 to j = m.

The K calibration procedure allows to establish a simple calibration of the differential pressure transmitter. For this purpose, using statistical methods, we establish the equation of the calibration line. We estimate the stability of the system by establishing two calibration lines: increasing and decreasing. When the system does not show hysteresis, then the calibration line is determined using all n + m pairs of events. For a system characterized by hysteresis, we set two lines: one for increasing changes, the other for decreasing changes in filling. The calibration line is the basis for estimating the actual fillings during the measurements.

After determining the calibration line, the measuring set can be used to determine the filling in a designated place of the measuring station, during the research process, according to the measurement procedure P. The measuring column should be configured to the requirements

In the test process, the level and location of the low-level reference piezometer 12 should be determined, and the installation site of the high-level measurement piezometer 13. The implementation of the measurement process depends on the dynamics of changes in the high pressure pulse. The measurement procedure includes the following steps:

PK - configuration of the set to the measurement needs of the research process and the construction of the test stand and research model. Using flexible pressure hoses, piezometric columns 3 and 4 are connected with piezometers 12 and 13 built in the indicated places where the filling will be determined. The set level should be selected so that the holes of the piezometers are not below the level of the bottom of the tubular columns of the set.

P0 - zeroing the reference point of the measured filling. The valves are set to the configuration shown in Figure 7 and the system is replenished with enough distilled water to fill columns 3 and 4 to level until water overflows through the openings of the low-level piezometer tube 12 connected to the low-pressure column 4, and through the opening high level piezometer tubes 13. The open globe valve 14 allows the water levels in columns 3 and 4 to equalize to the level determined by the position of the piezometer tube 12.

PS - "static measurement" of the pressure set on the piezometer 13 connected to the high pressure column 3. The valves are set according to the scheme shown in Fig. 8. The set water pressure on the piezometer will cause the water in column 3 to equalize to the measurement level. After determining the water levels in the piezometer 13 connected to the system and in the piezometric column 3, the output voltage of the converter 6 is read in a predetermined time interval, and the current difference in water levels in column 3 in relation to the established reference level in column 4 is calculated according to the calibration straight line. It expresses the charge related to the insertion level of the reference piezometer 12.

PD - "dynamic measurement" of the pressure set on the piezometer connected to the high pressure column 3. Valves are set according to the diagram shown in Fig. 9. Measurements should be performed with a frequency adapted to the required measurement procedure and configuration of the transducer impulse recorder. a pre-determined time interval of the set pressures on the piezometer 13 connected to the set. The actual filling is determined from the equation of the calibration line. They correspond to the excess of the water level on the piezometer 13 in relation to the level of the piezometer 12 or the water level in the column 4.

P r z k ł a d

Basic measurements are carried out with the use of a piezometric measuring set after the calibration procedure has been performed, when the equation of the calibration line is available. The set prepared in this way is connected to the test stand by installing the piezometer 12 at the level for which we will determine the filling. The outlet of the piezometric tube 13 is located at the filling measurement point. The set prepared in this way is topped up with distilled water. The use of distilled water limits the growth of microorganisms that can disturb the recording process and increase the uncertainty of the filling measurement. Air bubbles must be removed from the pressure hoses during filling. Free outflow of water from piezometric tubes is achieved by increasing the water level in the columns. When the piezometric lines are connected to one piezometric tube, the position and insertion level of piezometers 12 and 13 are the same. In this system, the measurement procedures PS and PD are carried out with the valve 17 closed. The valves are set to the positions shown in Fig. 8 when the PS procedure is being performed or shown in Fig. 9 for the PD procedure. The water that appears above the piezometer 13 causes an increase in the transmitter's output voltage. use a properly configured computer system.

Claims (4)

1. Piezometric measuring set, characterized in that it comprises two piezometric columns: a high pressure column (3) and a low pressure column (4), permanently attached to the level control tube (10), to which is also attached a differential pressure transducer ( 6) and a ruler (7), while a distance gauge (8) to the gauge (7) is slidably attached to the Control of the position of the calibration vessel (9), which is permanently attached to the meter (8), and the set is also equipped with a low-level reference piezometer (12) and a high-level piezometer (13), and valves: balancing (14), drain (15), shut-off (16), low level (17) and high level (18), and the components of the assembly are connected by flexible pressure hoses, the high pressure piezometric column (3) being connected to the equalizing valve ( 14), with a drain valve (15) and a differential pressure transducer (6) by means of a shut-off valve (16), and the low pressure piezometric column (4) is connected to the alignment valve (14), with a low-level reference piezometer (12) via the low-level valve (17) and directly to the differential pressure transducer (6), while the high-level valve (18) is connected to the calibration vessel (9) during the calibration procedure, and measurement is connected to a high-level piezometer (13), the assembly being mounted on a stabilizing support tube (2) placed on the base (1), to which a level adjustment tube (10) is slidably attached, which is provided with a retainer its height position on the stabilization tube (2). 2. The kit according to claim A method as claimed in claim 1, characterized in that the valves are arranged on the base (1). 3. The kit according to p. The method of claim 1, characterized in that the stabilizing tube (2) has a recess in the lower part. 4. The kit according to p. The method of claim 1, characterized in that the level adjustment tube (10) is provided with a screw (11).