SU1293567A1 - Liquid densimeter - Google Patents

Abstract

The invention relates to instruments used to measure the density of liquids, slurries and suspensions. The aim of the invention is to simplify the device while at the same time improving the measurement accuracy. The fluid through the pipeline enters the jet former, the axis of which intersects the axis of the hinge, and acts on the plate, creating a torque relative to the hinge of the plate, which is measured by the load cell. I il. (Ls

Description

The invention relates to devices used to measure the density of a liquid, and can be used in the building materials industry, chemical, food and other industrial circuits to measure the density of liquids, slurries and suspensions.

The aim of the invention is to simplify the device while simultaneously improving the measurement accuracy,

The drawing shows the density meter of the liquid, the overall appearance.

The device contains a vertical hinged plate, the jet former 2, the load cell 3, the hinge 4,

Densitometer works as follows.

The fluid enters the jet-forming unit through the pipeline, and then the free liquid jet that is formed from it hits the plate 1 and acts on it with some force, creating a torque around the axis of the hinge 4 of the plate. This moment is balanced by the moment of force of the reaction of the force-measuring device 3, which is recorded by the secondary device. At the same time, the reaction force of the force meter is proportional to the density of the liquid and does not depend on the fluctuations of its flow rate.

We show that this is true. The time for which the liquid passes from the jet-forming device to the plates is equal to

t 5.f 1}

 -h-h h /

gt

Vpcosc

V

, tsinci + - atgod.

(2)

de t - time of flight of the front of the jet to contact with the plate; the distance from the axis of the hinge to the point of contact of the jet with the plate;

the distance from the axis of the hinge to the end of the jet-forming unit; initial jet speed; the angle of inclination of the axis of the jet former to the horizon; free fall acceleration.

I. a Vo

06

Substituting formula (1) into formula (2), we obtain

2

sign

t. V,

but. sinoi

 V.

2Vl with

-, -

ga

(3)

-Further we have

F,

P

.

(four)

where F, is the force of the jet action on the plate;

fluid density; the cross-sectional area of the output end of the jet-forming unit,

R

S

20

Then

five

 l-.

.ll Ji§E2:

2l cos l

(five)

 - g - g where F is the reaction force of the force measuring device;

1 is the distance from the axis of the force meter to the point of application of force.

Thus, the force acting 30 on the load cell is proportional to the density of the liquid and does not depend on the velocity of the liquid flowing out, which increases the accuracy of the density measurement of the liquid. In addition, there is no need to keep the fluid velocity constant by special technical means, which simplifies the design,

40 Formula of invention

A fluid meter containing a pipe mass for supplying the analyzed liquid, connected to the jet 45 by the former, and a vertical plate mounted on a hinge that contacts the load cell, characterized in that, in order to simplify the device

50 simultaneous precision

measurement, the jet former is placed so that its axis intersects the axis of the hinge.

Compiled by V. Ksenzov Editor N. Slobod nick Tehred I. Popovich

376/45

Circulation 777 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab, 4/5

Production and printing company, Uzhgorod, Projecto st., 4

Proofreader G. Reshetnik

Claims (1)

40 Formulas of Invention ’ A liquid densitometer containing a conduit for supplying the analyzed liquid connected to the jet45 by a former and a vertical plate mounted on a hinge that is in contact with a force meter, characterized in that, in order to simplify the device at 5Q while increasing the accuracy of measurement, the jet former is placed so that it the axis crosses the hinge axis.