SU1157408A1 - Device for measuring liquid surface tension - Google Patents

Abstract

A DEVICE FOR MEASURING A FLOOR TURNING FLUID, containing a measuring arm with a test ring, a vessel for the test liquid, a unit for moving a motor vessel, an electrical load conversion unit connected to the measuring arm, and a recording unit, characterized in that, in order to measure accuracy and speed, it additionally contains an electromagnetic compensator, one end of which coil is connected to the output of an electrical loads, the second end with a recording device, and a movable core with a measuring lever, and a speed detection unit, a load change, the input of which is connected to (L the second end of the electromagnetic compensator coil, and the output to the control unit connected to the setting motor moved to

Description

The invention relates to a measuring and control technique, namely, devices for measuring surface tension of liquids, including rubbers, latexes and other similar materials with elastic properties and increased elasticity. A device for determining surface tension, containing a vessel with a test liquid, mixture or gel, is known to immerse a ring and a strain gauge of the test substance I in a liquid. However, the device characterizes with insufficient accuracy of measurement and requires a significant investment of time and manual labor of operators to determine the moment of separation of the ring from the surface of the test substance by simultaneous determination of the impulse of the greatest effort that arises. Known du-nui tensiometers with a platinum-iridium ring, containing a force meter with a test ring, which determines the force at the moment when the ring is removed from the test fluid 2. However, tensiometers have low accuracy (no more than 0.5%), low productivity (15 minutes for one measurement) and inconvenient in operation, since they require an individual calibration scale for each measurement. The closest in technical essence to the present invention is a device for measuring the surface tension of a liquid, comprising a measuring lever with a test ring, a vessel for the liquid under investigation, an apparatus for moving a vessel with an electric motor, an electrical load conversion unit connected to the measuring lever, and a registering block . The known device uses a lever suspended on torsions and equipped with a suspension with a test ring, an electrical conversion and recording unit is installed in the form of an inductive four-shoulder Wheatstone bridge unbalanced by a movable flag attached to the lever, with the output of the bridge being fed to the recorder, and an electromechanical carriage with a guide and a photo sensor 3; However, the known device has insufficient accuracy, low speed and narrow range, and zmere- nor the surface tension, since it uses the method of direct measurement of forces on the test ring at the moment of its separation from the test substance. In addition, in the course of the work, the operator must enter corrections for the immersion depth of the ring, the amount of movement of the carriage with the ring, etc. These deficiencies prevent the conduct-. quick and accurate rapid analyzes of latex and rubber parameters, which quickly disappear and lose their qualitative characteristics. The aim of the invention is to increase accuracy and speed. This goal is achieved by the fact that a device for measuring the surface tension of a liquid, containing a measuring arm with a test ring, a vessel for the liquid under study, a device for moving a vessel with an electric motor, an electrical unit for transforming the load value, connected to the measuring tube and a recording unit, additionally contains an electromagnetic compensator, one end of the coil of which is connected to the output of the electrical unit for converting the magnitude of the load, the other end to the register a moving device, and a movable core with a measuring lever, and a unit for recording the rate of change in load, the input of which is connected to the second end of the coil of the electromagnetic compensator, and the output to the control unit connected to the displacement setting motor. Fig, 1 shows a diagram of the proposed device; Fig. 2 is a diagram of the variation in the surface tension force of the test latex as a function of the movement of the ring; Fig. 3 is a diagram of the interaction of latex with a ring. The device contains (phi) -. 1) a load meter with a measuring lever 1- installed with the support 2 and the base 3 and equipped with an end of 31 prism 4 with the suspension 5, and the following system 6 of automatic equal embroidery, which includes a coil 7, the movable core 8, which together with the magnetic system 9 form an electromagnetic compensator 10, and a flag (plate) 11, which, together with the coils 12 and 13, are excited and removed, the electric conversion unit 14. In addition, the load meter is equipped with arresting lugs 15 controlled via cam 16 and shaft 17 from handle 18, and suspension 5 is equipped with a test ring 19 made of anti-corrosive material immersed in vessel 20 with the latex 21 under test, which in turn is mounted on a table 22, lowered by a movement pattern, comprising cams 23 and engine 24, having a uniform rotational speed. The servo system also includes a synchronous detector 25, an excitation generator .26 and an integrator controller 27, and the output signal D Uc of the converter 14 is fed to a synchronous detector 25 fed from the excitation generator 26, where it is converted. The form of the voltage L On enters the integrator controller 27. The output current 1 of the integrator 27 flows through the current of the water to the coil 7 of the electromagnetic compensator 10, and then supplied to the measuring integrator 28 together with the pulses If of the directional current supplied from the electronic switch 29 which The feed is supplied via the buffer device 30 from the source 31 of the reference current. The output signal Un of the comparison measurement integrator 28 is supplied together with the output of the UPN generator 32 of the sawtooth voltage, controlled through the frequency divider 33 from the reference frequency generator 34 in KOMnaipaTop. 35, which in turn controls its output with a UKOM signal with an electronic key 29 and a valve 36. The purpose of blocks 28-36 is to interface the tracking system with inputs 37 and 38 of the recording device 39 and the block 40 for registering the speed and load intensity, since are digital devices. 84 The registering device 39 is provided with a counter 41, a result register 42, a delay unit 43 and a memory register 44 connected to the display unit 45, as well as a taryl register 46 with a tare input button 47 and a subtracting counter 48 connected respectively to result registers 42 and memory 44 of the registering device 39. The block 40 of registering the rate of change of the load is provided with a counter 49, a result register 50, a reversible counter 51, a delay block 52 and a register 53 of the derivative, the output 54 of which is connected to the control block 55 of the engine 24, having, in addition, the button 56 manual stop. The divider 57 serves to supply the frequency, - where K and Kj are the division factors, into result registers 42 and 50 and delay blocks 43 and 52. The device works as follows. In the initial position, the vessel 20 with the test latex 21, mounted on the table 22, is lowered down and the ring 19 is in the bladder. In this case, the lever load meter together with the flag 11 under the influence of the weight P | the ring 19 receives a deviation at the angle of the LP, and the converter 14 generates a signal D Uc, which enters the synchronization detector 25 and further after converting into a signal D U Upazon no ip gmmn tt l iJa rrn-integrator-regulator 27, forming The counterbalancing (compensation current) Iko, which enters the coil 7 of the electromagnetic compensator 10, acts on the movable core 8 and returns the lever 1 to the initial equilibrium position when 0. Simultaneously, the IKO current proportional to P |, after passing through the coil 7, is fed to cf A measuring meter integrator 28, in which, in addition, counter-current Ion pulses are applied, generated by the electronic key 29, the buffer device 30, and the reference current source 31. 5 The output signal Un of the comparing measuring integrator 28 is supplied together with the ramping (linearly) rising voltage of the UPC generated from the generator 32, the comparator 35, which thereby controls the unlocking process of the electronic switch 29 and the valve 36. The linearly increasing voltage pulses UPH have a frequency traces i NIN - determined by the coefficient I to divide the frequency of the divider 33, and the open time of the electric switch 29 and the valve 36 is proportional to the compensation current IKO,,. ,, where IKO is the initial value of the compensation current; RK - the weight of the ring 19 in the air; K,) and C-scale factor The number of pulses Wo with frequency I pf, J missed by valve 36 during the time Ato of its open CONDITION, input to input 37 of recording device 39, proportional to the weight of RC ring 19.,., Where Ke is the scale factor. The registering device 39 through the counter A1, the register 42, the register of the tare register 46, the subtractive counter .48 and the memory register 44 outputs the resulting value of the total number of counted pulses No to the display unit 45. Next, the vessel 20 with the test latex 21 is supplied upwards to the ring 19, which is gripped by the latex 2, and the indications of the display unit 45, proportional to the load P of the lever measurement of the bodies, after a temporary decrease caused by the buoyancy of the ring 19, begin to grow again. readings N will again become equal to readings A / o (weight of ring 19 in air), turn on motor 24, moving vessel, 20 with latex 2 down by means of cam 23, at the same time load P increases and proportional values of compensation current 1k increase and correspond The t N readings of the display unit 43. 8 Simultaneously with the registering device 39, the block 40 of the repetition speed measuring speed of the load through the counter 49, the result register 50, the reversible counter 51 and the derivative register 53 performs the following operations. The number of pulses N in counter 49 proportional to the current load P of the lever meter from the surface tension of the test latex 21 is counted for each tact pulse cyMi apHoe. The output value of divider 57 in register 50 remembers the specified value A. At the beginning of the next measurement cycle, this code is impulsed from the output of delay block 52 into the reversible counter 51. During the next cycle, counter 51 passes through the counter, And pulses. The reversible counter 51 is switched to subtraction mode at the start of a clock cycle. The moment the code is equal to zero in the counter, it switches to the summation mode. At the end of the clock cycle, the code in the counter 51 is -., -% - l N. The number of img (pulses received from the output of the valve 36 on the 1st measurement clock; - the increment of the number of pulses on the 1st clock compared to the previous A code equal to D A / and proportional to the change in load when the vessel 20 is moved with the latex 21 during the measurement cycle is copied to the derivative register 53, impulse output from the divider 57. Since it is known that FIG. 2) when moving the ring 19 relative to Test Latex 21, the surface tension after the Growth section Oh - x. is stabilized (part Xj-x.), and then an unstable state of latex 21 occurs (around the separation point Xf), the measurement and evaluation of surface tension in the newly developed stand is produced exactly in the stabilized state portion of the latex x -X. the time when the current Harpy3KFf LR comprehends

the minimum (part x, - x, and the derivative 4 of the function P {() c1 changes the load P from the displacement reaches zero, 4i; - O, s

the stroke 54 of the derivative register 53 is given a signal to the control unit 55, which stops the engine 24.

At this point, memory register 44 reads / dd ,,. supplied to the display unit 45, which are proportional to the measured surface tension of the latex / subdivision of the test latex21

L / R

 "X 5 I (4)

where is the scale factor. The relative magnitude of the latex latency 2 is determined by the expression

1 max 0 (Myis o)

Stand calibration according to indications W of display unit 45 is carried out immediately in units of force, in newtons or grams-forces, by loading the suspension with 5 weights of a known weight (mass).

The tare register 46 with the tare input button 47 is used for the convenience of the operator by resetting the initial readings of the Wo- display unit 45 to the zero position, for example, when the ring 19 is weighed in air or when it is initially immersed in latex 21,

As shown by preliminary experimental studies and test data of prototypes and models of the proposed device, its use compared with the known can improve the measurement accuracy from 0.5 to 0.05-0.0%, i.e. 5-10 times, and increase the speed from 15 to 5 minutes, i.e. 3 times.

In addition, the proposed device allows one to automate the process of determining the surface tension of the latex and to eliminate to a considerable degree the subjective and methodological errors of the devices and devices currently used for similar purposes.

This advantage is determined by the fact that, in known instruments, the result of measuring the surface tension is taken to be the last reading of a load measuring device in front of the ring from the surface of the latex. With this, the subjective errors of the operator affect the accuracy of the result; premature ring failure can occur due to suspension oscillations with a ring of vibrations of waves on the latex surface. The measurement process has to be performed many times, the process is poorly automated.

In the proposed device, an additional signal is generated in the additional counting unit of the automatic device, which provides for the stopping of the unit of movement. The table 22) of the vessel 20 with latex 21 when reaching the Xj-X4 section of the curve (Fig. 2). The force generated by the surface tension is determined after stopping the engines 24, calming the oscillations of the suspension 5 and the surface of the latex 21.

The proposed device for measuring the surface tension of latex will be widely used in rubber, chemical, oil refining and other industrial sectors as an effective and accurate device for the rapid analysis of the mechanical properties of latex.

Claims (1)

DEVICE FOR MEASURING SURFACE TENSION OF A LIQUID, comprising a measuring lever with a test ring, a vessel for a test liquid, a vessel movement adjuster with an electric motor, an electrical unit for converting a load value connected to the measuring lever, and a recording unit, characterized in that, in order to increase accuracy and speed, it additionally contains an electromagnetic compensator, one end of the coil of which is connected to the output of the electrical unit for converting the magnitude of the load A second end - with a recording device, and the movable core with the measuring lever, and a registration unit skorosti.izmeneniya load, the input of which is connected to the second end of the electromagnetic coil compensator, and the output - to the control unit, connected to the motor displacement setpoint. SU „1157408