SU1659775A1 - Densimeter - Google Patents

Abstract

The invention relates to the field of instrumentation, namely, devices for measuring the density of liquid media, and can be used in the petroleum industry to continuously measure the density of drilling fluids, slurries, and oil. The purpose of the invention is to improve the measurement accuracy by eliminating the influence of temperature. The device comprises an engine, a measuring capacitance with inlet and outlet channels, mounted vertically on the axis of the engine, a strain gauge and a measuring device. The discharge channels are made in the form of tubes pivotally connected to the measuring capacitance. The lower ends of the tubes are mounted with the possibility of radial movement relative to the axis of the engine and connected to the strain gauge. 1 il.

Description

Yo

The invention relates to the measurement of the physicochemical properties of liquid media and can be used, for example, in the petroleum industry to continuously measure the density of drilling fluids, slurries, and oil.

The purpose of the invention is to improve the measurement accuracy by eliminating the influence of temperature.

The drawing shows the density meter, the cross section.

The densitometer consists of a synchronous motor 1 mounted vertically on the spindle 2 of the measuring tank 3 with the inlet channel 4 and outlet channels made in the form of tubes 5. The upper ends of the tubes 5 have a spherical shape and are sealed by the seals 6, which ensures the radial movement of the lower ends of the tubes 5 relative to the axis of the motor. The lower ends of the tubes 5 are kinematically connected by the slider 7 to the piezoelectric transducer 8, the signal from which goes to the amplifier 9 and further to the indicator 10 and the registering device 11. Spindle 2 of the measuring capacitance 3 is in the bearings of low friction 12. The liquid coming out of the tubes 5 enters the drainage tank 13. The constant contact of the slider 7 with the transducer 8 is provided by a compression spring 14.

The device works as follows.

At a constant rotational speed of the rotor of the electric motor 1, the measured liquid is supplied to the inlet channel 4 and its flow passes through the measuring capacitance 3 into the discharge tubes 5 and further into the drainage capacitance 13. When the spindle 2 rotates under centrifugal force, the lower ends of the tubes 5 are mcme

ate about vi ate

stand in the radial direction relative to the axis of rotation. At the same time, the slider 7, which moves upward, compresses the spring 14 and decreases the pressure on the piezoelectric transducer 8. The signal from the latter through the amplifier 9 is transmitted to the indicator 10 and the recording device 11.

When the fluid density changes and at a constant rotational speed of the spindle 2, the magnitude of the centrifugal force acting on the rotating system changes, which leads to a change in the pressure of the slide 7 on the piezoelectric transducer 8, which supplies the corresponding signal to the amplifier 9, the indicator 10 and the recording device 11.

Making the discharge channels in the form of tubes allows them to be made of a material that does not respond to changes in the temperature of the fluid flowing through them.

Claims (1)

Hinging with the possibility of radial movement of the lower ends allows them to be kinematically connected with the sensor. Moreover, the temperature of the measured liquid does not directly or indirectly affect the accuracy of the density measurement. DETAILED DESCRIPTION OF THE INVENTION A densitometer comprising an engine, a measuring capacitance with inlet and outlet channels, mounted vertically on an engine axis, a strain gauge and a measuring instrument, characterized in that, in order to improve the measurement accuracy by eliminating the influence of temperature, The channels are made in the form of tubes pivotally connected to the measuring capacitance, while the lower ends of the tubes are mounted with the possibility of radial movement relative to the axis of the engine and connected to the strain gauge.