RU1798827C - Method for measuring electric parameters of foil and pickup for method implementation - Google Patents

Abstract

Purpose: The invention relates to a control and measurement technique and can be used to measure in electrolytes the electrical parameters of a foil intended for the manufacture of electrolytic capacitors. SUBSTANCE: in order to reduce the power consumption of at least one electrode of an electrode measuring system, two volumes of electrolyte are formed in a part of the method, the first volume of electrolyte being formed between the electrode measuring system located on the sensor and the foil and separating it from the rest. the volume of the electrolyte, the second volume of the electrolyte, which is formed between the protruding parts of the sensor and the foil, while giving it a thin profile along the foil. New in the sensor for measuring the electrical parameters of the foil, containing an electrode system placed on flat dielectric bases made in a circuit with a protruding shoulder, is that the end face of the shoulder is made flat, the shoulder is provided with at least two support rollers whose axes are parallel between themselves and the flange end planes, the support rollers protruding beyond the flange end plane, and the size of the protruding part of the rollers determines the gap between the flange plane and the measured foil. 2 sec and 1 z.p. f-ly. 2 ill.

Description

The invention relates to the field of measurement technology and can be used to measure in electrolytes the electrical parameters of a foil intended for the manufacture of electrolytic capacitors.

The purpose of the invention is to reduce the power consumed by the measuring system by concentrating the electric field in the volume of the electrolyte between the electrode system and the foil and thereby eliminate the influence of the processing electrodes.

In FIG. 1 illustrates a sensor installation for measuring electrical parameters of a foil on processing electrodes of a foil processing unit; figure 2 is a sensor, a view from the side of the electrodes.

The proposed method can be implemented, for example, as follows.

Symmetrically on both sides of the foil, which in the unit is pulled in the electrolyte between the processing electrodes XJ

About 00

with

m VI

we install measuring flat electrodes in the form of disks and surround them with flat ring electrodes (guard electrodes), placing them in the plane of the measuring electrodes, i.e. two electrode systems are created which are usually placed 1.5-3 cm from the foil to prevent accidental contact of the foil with these electrodes, since the foil can deviate from its average position to 1 cm during movement.

Appropriate electrodes of the measuring system are electrically connected. The processing voltage source is connected to the foil and processing electrodes; a measuring device (for example, a device for measuring the capacitance and loss tangent) is connected to the foil and measuring electrodes, and the foil and protective electrodes are connected to a device that maintains the potential of the protective electrodes equal to the potential of the measuring electrodes during measurement (as such a device, you can use a unit-gain amplifier with a powerful output stage, one input of which is connected to the foil, the other to measuring electrodes, and the output to security electrodes).

Install two dielectric bases with flat ends in such a way as to create a foil on each side

two volumes of processing electrolyte. One volume of electrolyte is created between the measuring electrodes and the foil and separated from the rest of the electrolyte by a second volume of electrolyte located between the ends of the dielectric bases and. foil. This second volume is imparted with a thin flat profile along the foil. The thickness of this electrolyte volume minimizes the need for free movement of the foil, for example, 0.5-1 mm, and its width is such as to provide the necessary weakening of the electrical connection through the volume of the processing electrolyte between the guard electrode and the processing electrodes and unchangeable part of the foil.

Thus, due to the resistance of the second electrolyte volume, the electric field is concentrated in the electrolyte volume between the electrode measuring system and the foil. The value of power consumption is estimated by the resistance value of the second volume of electrolyte, comparing it with

resistance of the electrolyte volume, through which the electric field lines from the guard electrode are closed to an unmeasured portion of the foil and the processing electrodes in the absence of the dielectric bases of the sensor, or determined experimentally.

In principle, it is possible to place one measuring electrode with one guard on one side of the foil,.

The method is implemented using at least one sensor to measure the electrical parameters of the foil of the proposed design and the corresponding

its installation on the processing electrode of the foil. .

The dielectric base 1 of the sensor (not indicated) for implementing the method on which the electrode system is placed,

consisting, for example, of electrodes 2 (guard electrode) and 3 (measuring electrode), is installed in a special groove of the processing electrode 4 of the foil processing unit and pressed against the foil 5

elastic tape 6, which is attached to the processing electrode 4 by screws 7. Support rollers 8 are mounted on a protruding collar (not indicated) of the dielectric base 1, and the axis of the support

rollers-8 are parallel to each other and to the plane of the dielectric base 1, and the support rollers 8 themselves partially protrude beyond the plane of the end face of the bead and are in contact with the foil 5.

The processing of the foil 5 and the measurement of its electrical parameters are carried out respectively in the processing electrolyte 9. This design of the sensor allows you to create a flat, extended along

foil 5 volume of electrolyte.

The conclusions from the electrodes 2 and 3 in figure 1 are not shown.

The sensor is advisable to install on the processing electrodes of the unit

foil processing. The dielectric base 1 may have additional elements (protrusions, grooves, etc.) that provide its sliding fit into the grooves of the processing electrode, but excluding it

loss during operation. The electrode system can be any, i.e. contain any number of electrodes, depending on the principle used to measure the electrical parameters of the foil. The electrodes can be mounted on the flat part of the dielectric base 1 (see figures 1 and 2), and, if necessary, use a protruding shoulder,

. The application of the proposed method and

devices for measuring electrical

parameters of the foil reduces the power consumption along the supply circuit of the electrodes of the measuring system, and in some cases also increases the accuracy of the measurement, since it reduces the branching of the current from the measuring electrode to the unmeasured portion of the foil and the processing electrodes. An experimental study showed that there is a decrease in power consumption along the guard electrode circuit by about an order of magnitude. Formula of the invention t. A method for measuring the electrical parameters of a foil, including stretching the foil between the processing electrodes of the foil processing unit located in the electrolyte connected to the source of the processing voltage and the electrodes of the measuring system connected to the source of the measuring voltage located on the dielectric bases of the sensor for measuring electrical parameters and parallel to both sides of the foil, followed by control of electrical parameters by the magnitude of the current between e the electrodes of the measuring system and the foil, characterized in that, in order to reduce the power consumption, the electrodes of the measuring system are placed near the foil with the formation of the first cavity between the surfaces of the electrodes and the foil filled with electrolyte and separated from the total volume of the electrolyte of the electrolytic processing unit of the foil by a second cavity, formed by the internal surfaces of the sensor and foil, also filled with electrolyte.

2. A sensor for measuring the electrical parameters of the foil, comprising electrodes of the measuring system located on the inner sides of two flat mirror-mounted dielectric bases, characterized in that, in order to reduce the power consumed by the measuring system, each dielectric base is provided with two support rollers with parallel axis with diametrically opposite opposites, the rollers protruding beyond the plane of the base and are arranged to allow foil to pass between them.

3. The sensor according to claim 2, characterized in that each dielectric base is provided with a shoulder with a flat end located at its periphery with the electrodes of the measuring system spanning, and the support rollers protruding beyond the plane of the shoulder end.

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