SU153142A1 - - Google Patents

Description

Low-frequency vibroresonance viscometers are known, consisting of a vibrator, a vibration meter, a vibration measuring element. However, they are unsuitable for controlling stationary or convection moving liquids.

The proposed vibroresonant viscometer of colloidal liquids differs from the known ones in that its measuring element is made in the form of an elastic rod clamped at one end, the vibrator and vibro-meter are located in a controlled fluid. Due to this design, the BH6pope30iHaHCHbm low frequency method of measuring the viscosity of liquids can be applied to measure the viscosity of immobile liquids.

The design scheme of the proposed viscometer is shown in the drawing.

The viscometer is made in the form of a circular base screwed into the pipeline or reservoir with the measured liquid. A vibroresonating measuring element 2, made of a circular composite elastic rod clamped at one end, is screwed into the base. In this part of the rod is made of non-ferromagnetic material (brass, duralumin); Part b - from ferromagnetic steel.

The nut 3 is screwed to the lower end of the vibro element, by moving it produces a rough change in the natural vibration frequency of the vibro element 2. The exact variation in the natural vibration frequency of the vibro element is carried out by screwing the vibro element into the base and unscrewing from it (the stiffness of vibration 153142 changes

element). For this, the upper part of the vibroelement extending beyond the base is made for convenience of rotation thickened.

Racks 4 are rigidly attached to the base 1, on which the electromagnetic vibrator 5 and the vibration meter 6 are also rigidly fixed. The vibrator and the vibration meter are sealed, which is achieved by pressing them. The conductive ends of the vibrator and the vibration meter are brought out through the base /. The gland 7 serves to prevent the passage of fluid through the screw connection. The vibrator and vibration meter are 2-3 mm away from the vibrocell, due to which the vibrocell can oscillate in the plane of the action of the electromagnetic forces of the vibrator on the ferromagnetic part of the vibrocell. To absorb electromagnetic interference from the floor of the vibrator on the vibration meter, the middle part of the vibroelement is made non-ferromagnetic. The vibrocell, vibrator, vibration meter and stanchions in working condition are washed by the measured liquid.

The scale of the vibration meter 6 is graduated in units of viscosity or of any technological parameter dependent on it. The vibrator 5 is powered by a stabilized industrial electrical network with a frequency of 50 Hz.

The principle of operation of the proposed viscometer is based on the relationship between the amplitude of oscillations of a fluid continuously resonating in a body fluid and the viscosity of the fluid in which it oscillates.

In the proposed viscometer, such an oscillating body is liquid washed by measuring element 2. When the viscosity of a liquid changes, its viscous resistance changes, the damping factor of element 2 changes, and consequently, the readings of the vibration meter, based on which the viscosity is measured. The highest sensitivity of the viscometer will be at the vibrocell resonance. In resonance, by moving the nut 3 and rotating the measuring element 2, the vibrocell is tuned to liquids with a known viscosity, the readings taken as initial are taken. Thus, a change in the viscosity of the working fluid washing the vibroresonating element changes the voltage of the vibration meter, according to the indications of which the viscosity is visually judged.

Subject invention

A low-frequency vibroresonance viscometer consisting of a vibrator, a vibration meter and a vibroresonating measuring element, characterized in that, in order to use it for measuring the viscosity of stationary and convection moving liquids, its measuring element is made in the form of an elastic sterol p clamped at one end and a vibrator vibration meter is located in a controlled fluid.