SU629484A1 - Conductometer sensor - Google Patents

Description

The invention relates to physico-chemical studies. The device can be used to measure the electrical conductivity of liquids in process piping to control the composition of electrically conductive solutions and suspensions, for example, in potash production. Known immersible sensor conductometer containing primary transformer type. The known sensor has low accuracy when measuring on the stream. The closest technical solution may be a sensor containing a primary transducer with a measuring channel enclosed in a pipe. The drawback of the device is low measurement accuracy due to the fact that when installing the sensor in a pipeline that has an incomplete filling of the test medium, an error occurs due to the change in conductor cross-section, which is the test medium. The purpose of the invention is to improve the measurement accuracy. This is achieved by installing an insulating partition along the pipe axis, forming a gap with a pipe, and the converter is mounted on the partition so that the measuring channel is perpendicular to the plane of the partition. FIG. 1 shows a conductivity meter sensor, a section along the pipe axis; in fig. 2 - gauge, section, perpendicular to the pipe axis. The sensor contains a pipe 1, a measuring cell 2 with a measuring channel 3 and an insulating partition 4, a gap 5. The partition 4 is fixed in the upper part of the pipe 1, forming a tight connection with it. In the partition, a sensor cell 2 is installed so that the channel 3 cells are perpendicular to the plane of the partition. The partition 4 forms; with the lower wall of the pipe 1, a gap 5. In FIG. 2 shows (dashed lines) liquid coil lines. If, in the known performance of the sensor, the liquid coil lines evenly cover the measuring cell, in the invention, in the invention, the lines only cover the lower part of the cell, the passage through the gap formed by the rod and the bottom wall of the pipe. In the upper part of the cell, the current line of the liquid coil does not pass, because the insulation partition is reinforced

close to the upper wall of the pipe and interrupts the liquid coil lines. Those. practically in the upper part of the cell (see fig. 2, area A) there is no liquid coil. Liquid coil passes only through the lower part of the cell (see Fig. 2, area B). This change in the level of fluid in area A will not cause a change in the cross-sectional area of the fluid coil and will not affect the result of measuring the conductivity.

Thus, the sensor design allows the level of the monitored fluid in the pipeline to change to the level of the upper edge of the measuring channel. Depending on the location of the cell and the diameter of the pipeline, level fluctuations can exceed 1/3 of the diameter of the pipeline.

The invention makes it possible to increase the accuracy of measuring the concentration of the test medium in industrial measurements in the stream.

Claims (1)

Invention Formula A conductivity meter sensor containing a transducer with a measuring channel enclosed in a pipe, is characterized in that, in order to improve measurement accuracy in pipelines that have an incomplete filling, an insulating partition is formed along the pipe axis, forming a gap with the pipe, and the transducer is installed on the partition so that the measuring channel is perpendicular to the plane of the partition.