SU748184A1 - Suspended-substance concentration weight-type meter - Google Patents

Description

This invention relates to measurment. technical equipment, namely, automatic electronic weighing equipment designed for continuous measurement of the concentration of various substances such as suspensions in the production line.

A device containing 10 scales with a suspension, an automatic balancing system and a mass recorder on the scale plate Ij are known.

The known device does not provide the required accuracy of measurement and j does not allow for continuous measurement and subsequent regulation of the concentration of suspended fluids in the process line.

The closest in technical essence to the proposed invention is a device for measuring concentration, containing a box, a support unit, a measuring vessel, a suspension unit for a deposited substance, an imbalance converter, a balancing amplifier and a compensator. Its lack consists in the low accuracy of measuring the concentration of suspended matter in the flow 2 .30

The purpose of the invention is to improve the accuracy of measuring the concentration of suspended substances in the stream.

The goal is achieved by the fact that the load-receiving cup is made in the form of a horizontally extended tray, the meter is equipped with valves for inlet and outlet of the test liquid, a unit for measuring the velocity of the increment of the deposited mass, which is an electronic differentiating unit, the input of which is connected through a large-scale converter with the transmitter. balancing amplifier. The recorder input is connected to a unit for measuring the velocity of the deposited mass. The recorder is made up of a bias signal source, a recording potentiometer, a control unit and a power amplifier, we accept the input of a potentiometer connected to a source of a bias signal, and the output is connected to a control unit and a power amplifier.

The drawing shows a functional diagram of the weight concentration meter.

Claims (2)

Corner (sensing element) 1, otgshovlennoe using opschrnogo node (prism) 2 on the base 3, have | adjusting nut 4 sensitivity settings, calibration nuts 5, end prism 6, suspension and unbalance indicator (check box) 8, On suspension 7 installed coil 9, interacting with magnet 10 and forming together with it a compensator 11, Power is supplied to coil 9 through non-momentary current pods 12 ". Besides, on the suspension 7 by means of a hook 13 there is a horizontal nb-extended tray 14 lowered into a measuring vessel 15 dl researching second liquid containing suspended matter concentration C which is measured with a. The vessel 15 contains a valve 16 for intake of the test liquid, located mainly above the tray 14, and a valve 17 for discharging liquid, located mainly outside the tray 14. The liquid is injected and discharged using taps 18, 19, and the regulation is performed using the system stabilization (pump) 20, which sets the required flow rate Q of the liquid under study coming from the process line 21, a section of which is shown in the drawing. Converter 22 has broken: the NSA, which interacts with the flag 8, when changing the angular position of the corticle 1, gives a non-compensation signal D U to the input 23 of the balancing amplifier 24, from the output 25 of which after Greobouzovanie and amplifying the decree; ,: with: through the reference resistor 26 and the scale converter (for example, resistor) 27 enters the form of a compensation current 1 into the coil 9 of the compensator 11, creating a balancing force FP. The input 28 of the electronic differentiating device 29 is connected to a large-scale converter 27, which together with it forms the block 30 for measuring the velocity of the accumulated mass increment, having an output. The concentration recorder 31 is composed of a signal bias source 32, a recording potentiometer 33, a control unit 34, and a power amplifier 35, the potentiometer input 33 being connected to a bias signal source and an output of a unit for measuring the velocity of the increment of the deposited mass. The output of the potentiometer 33 through the control unit 34 and the power amplifier 35 is connected to the control devices 36 of the process line 21. The output device 37 serves to count the mass of the precipitated substance. Weight meter concentration of suspended substances works as follows. The analyzed (tested) liquid flows from the process line 21 through the stabilization system 20, the flow rate Q, the inlet valve 18 and the fan 16 into the vessel 15. During the movement of the fluid to the valve 17, the suspended substance drops as sediment in the horizontal stretched tray 14, the stabilization system creates required flow rate Q at any given time. „Лгл-л /“ - Г --const, (1) where Дm - the mass of the liquid that passed through the valve 17; At is the time interval corresponding to the passage of the mass of the Current concentration C of the suspended matter in a liquid at a given time t is V dgpz (2) where d mgjg is the mass of suspended matter contained in the specified mass of Lt of the liquid passing through the measuring vessel 15. Thus, with a sufficiently complete loss of vacuum (at low flow rates) in the sediment during the passage of fluid over tray 14, the concentration t C, taking into account expressions (1) and (2), is Ame ,, J. where l niy is the massb of the substance precipitated in the tray 14, Expression (3) pT5 indicates that the current concentration of suspended matter C is determined by the rate of sediment deposition of the substance in tray 14. When substance is deposited in the tray 14, korolislo 1 deviates at an angle D9, the imbalance converter 22 and the amplifier 24 provide a compensation current 3 | entering the coil 9 and creating a balancing force F ,, reducing the imbalance (), moreover, or for Mass time interval 1, oc-g where K is the coefficient of proportionality; LL - current J for the time interval. The output voltage and, taken from the scale converter 27, proportional to the compensation current Jj, UK Kjl (where Kg is the proportionality coefficient) is fed to the input 28 of the electronic differentiating device 29, the output of which receives the signal of the first derivative AUt / Ai Taking into account expressions (1) - (5) the output signal of the device 29 is proportional to the current concentration j .1. Miii, J КЛ Ч ,,, 4Q At in V-AtQ е ZiTt 0к where Кр is the coefficient of proportionality. The current concentration Ct is read by a recording potentiometer 33, to which the input voltage U is supplied from the bias source 32 for the required initial level to be displayed. The control unit 34 and the power amplifier 35 maintain C at a predetermined level by adjusting Cj in the technical line 21. After tray 14 is filled with precipitated substance, for example, for a day, shift, week, etc. the tray is replaced with a clean. or prophylactic cleaning. Claim 1. Weight meter measuring concentration of suspended substances, rocker contents, support elements, suspension with a cup installed in a vessel, an imbalance converter connected to a recording device and an urge-hang amplifier, inverse converter connected to a suspension and a compensation amplifier connected to the suspension and A compensation amplifier connected to an inverter, characterized in that, in order to improve the accuracy of measuring the concentration in the stream, made in the form of a horizontally extended tray, the meter is equipped with valves for the inlet and outlet of the test liquid, a unit for measuring the velocity of the increment of the deposited mass, made in the form of an electronic differentiating unit, the input of which is connected through a large-scale converter with the output of the balancing amplifier with a unit for measuring the velocity of the increment of the deposited mass. 2. The meter according to claim 1, characterized in that the recorder is made as a source of a bias signal, a recording potentiometer, a control unit and a power amplifier, the input of the potentiometer being connected to a source of a bias signal / and output with a control unit and a power amplifier. Sources of information taken into account in the examination 1. The author's certificate of the USSR 410258, cl. G 01 g 7/04, 1970. 2. USSR author's certificate number 582462, cl. G 01 G 23/36, 1975 (prototype). " five