SU859897A1 - Polarograph - Google Patents

Description

one

The invention of ognosigs to electrochemical, analytical, and physicochemical measurements can be used in various branches of the national economy to automate technological processes and control the environment.

Similar devices are known that use a sensor with a mercury or other dripping electrode and an auxiliary elecrpoax. The sensor contains an indifferent ephegrod (background) of high xycentration (0, О1-1М), in which the detected impurity with the concentration is dissolved. In order to reduce the oscillation on the current-curve, the current-voltage curve is applied to the touch mode, in which the connection of the recording device to the measuring circuit and the current are recorded in a short time before the opening of the drop, at the moment when the drop reaches almost the maximum size. . Tastrezhim compared with the continuous mode - without eliminating oscillation allows

increase somewhat the sensation of a known substance concentration in the l 1,

In order to perform a scan, it is necessary to synchronize the operation of the sensor and the instrument, in which it is necessary to have a high-frequency generator connected to the sensor and bypassing it. At the time of the drop, the shunting of the generator is sharply reduced, it is excited, and the delay pulse formation and switching circuits in the instruments control the operation of the recording device in the process of recording the current curve.

This method of synchronizing instrument and sensor operation is very widely used in polar, constant, alternating, high-frequency, pulsed, and other types of current.

Claims (2)

The closest to (offered is a domestic permanent and variable PTC-1 polygraph, containing a field voltage generator, connected via an Adder and a power supply with a regup mountain of chuvsgvatelnosgi, with a sensor fitted with a dripping electric cable), which is connected to the toKa amplifier connected through a coherent torque.or, key, memory block and switch- ing gel with a self-recording device, automation unit and synchronization pulse shaper. Disadvantages of the 5fs graph PPT-.1 and the listed devices, use sensor and device with the help of high-frequency oscillator, is the impossibility of working with poorly conductive and non-aqueous media, the reliability of the cross-linking and its dependence on the solution resistance, and the fact that it is difficult to choose the delay time for current registration at tearing off 1spli, therefore the maximum electrode surface is not used (in PPT-1, the delay time is recommended to choose 0.50, 7 dripping period) .. Additional bypassing the sensor with a high-frequency generator leads to an increase in full-time current, which reduces the sensitivity and accuracy of polarographs. The purpose of the invention is to increase the sensitivity and accuracy of measuring small concentrations of substances in a solution, to increase the reliability of synchronization of work on each program with a dripping electrode, and to work with poorly conducting media. The decree goal is achieved by the fact that a polarograph containing a polarization voltage generator, connected through a summatf and a power amplifier with a sensitivity control, with a sensor equipped with a dripping electrode, which is connected to a current amplifier connected through a coherent detector, a key, a memory block and a switch with a self-recording device, an automation unit and a pulse shaper (life cycle, equipped with an additional memory unit, when the output of the current amplifier is connected to the input of the synchronizer pulse generator, the output to The key is connected to the key and the key inlet is connected to the output of the additional memory block. The drawing shows the graph and block diagram. The floor of the Eograph contains the generator 1 of polarizing voltages whose output is connected to the input of the adder 2 and the code of the adder 2 is connected to the input of the power amplifier and with the regulator TF 3 sensitivity, which is connected to the sensor 4 with a dripping electrode and the current amplifier 5. The output of the current amplifier 5 is connected to a coherent detector 6, a pulse shaper 7. The second input of the coherent detector 6 receives the voltage of the generator 1 of polarizing voltages. The output of the coherent detector is connected to the second memory block 8 and through the switch 9, the first memory block 1O and the switch 11 is connected to the input of the self-recording instrument 12. The control automation unit 13 The operation of the generator 1 polarizing voltages and the recorder 12. The device operates as follows. The electrodes of the sensor 4, containing an indifferent electrolyte and a detectable substance., Are polarized by the voltage from generator 1 of polarizing voltages through the adder 2 and the power amplifier with the sensitivity regulator 3. The sensor current is amplified by the current amplifier 5 and fed to the input of the coherent detector 6 and to the input of the pulse shaper 7. When the automatics unit 13 is turned on, the latter switches on the generator of polarizing voltages 1 and the recorder 1fnbor 12. From the output of the coherent detector, a signal (current) is fed to the second memory unit 8. In 8 memories, the signal is stored for a time somewhat longer than the time it takes for the drop to fall off. The signal amplitude in memory block 8 is always equal to the maximum value for the dripping period, which is reached only in ms of the drop ribbons, when the latter has the maximum possible and minimally changing surface. At the moment of dropping the drop, the pulse former 7 generates a pulse that opens the key 9 and the signal from the second memory block 8 is read into the first memory block 1O. The memory time of block 10 is selected based on the maximum possible drift. During this time, a horizontal line rotates on the tape of the recorder 12. As soon as the key 9 is opened, the signal from the second memory block 8 through the key 9, the first memory block 10 and the switch 11 changes the position of the pen of the self-detecting instrument 12 during the pulse duration of the pulse former 7. The pen will draw a nearly vertical line. Then the pen will write a horizontal lvniya, etc. The memory time of the second memory 8 is significantly less than the memory time of the first memory block 10 and is determined by the moments of the drop and the beginning of its growth, the inertia of the device 12, x 6 "running out of gauge and 6 and has a value of about 0, 3 sec. The pulse duration of the pulse shaper 7 is 0.03-0.1 s. The device can work with dripping electro it. the dripping period of which varies from 0.1 to 30 seconds or more. The lower limit of the dripping period is limited by the electrode itself (the capillary) and the conversion of the droplet into a jet. The upper limit has no restrictions. The use of the second memory unit and the new connection between the current amplifier and the synchronization pulse forwarder favorably distinguishes the proposed polarograph from the well-known one, as the reliability increases. the synchronization of the instrument and the sensor, it is possible to work with poorly conducting and non-aqueous media with the elimination of sensor bypass and residual current. As a result, the sensitivity is increased and the error in measuring small concentrations of a substance in a solution is reduced with significant background resistances, which expands the field of application of the L5 5 graphograph and eliminates the need for the use of special expensive reagents. Claims of invention A polarograph containing a polarizing voltage generator, connected via an adder and a power amplifier with p. sensitivity sensor, with a sensor equipped with a dripping electrode, a cat. connected to an amplifier connected through a coherent detector, a key, a memory unit, to a switch with a self-recording device, an autolocation unit and a sync pulse downconverter, characterized in that, in order to increase the sensitivity of measuring small x-center substances in a solution, reliable synchronization of a polarograph with a dripping electrode, possibility of working with poorly conducting media, oi with an abzh additional memory block, the output of the current amplifier is connected to the pulse generator and synchronized, the output of the switch is connected to the key, and the input of the key to the output of the additional memory block. Sources of information protection. taken into account when exporter 1.Brook B.S. Polographic methods. M., Energie, 1972. 2. Malinina R. D. Salihdzhanova R. FM. Paul Rohfaf AC PPT-1 ..- Factory Lab, 1971, 37, No. 9, p. 1154 (prototype).