CS198548B1 - Connexion for measuring and record of voltage,current and temperatures by resistent welding - Google Patents

Description

It is an object of the invention to provide an internal wiring of a device for measuring and recording voltage, current and temperature during arc welding.

An analysis of the materials of the prior art by measuring the voltage, current and temperature measurements in arc welding suggests that there is currently no known device for measuring and synchronously recording these quantities over time. Voltage, current and temperature measurements during arc welding and, according to available information, are performed by oacilloscopes, from which the course of the measurement is taken by means of a film camera. Laboratory evaluation of the thus obtained records is very time-consuming and moreover, the determination of the time dependence of the scanned values is inaccurate and has only informative character.

These drawbacks are eliminated by a voltage, current and temperature measurement and recording circuitry formed from a first voltage current sensor, a second temperature sensor, and an electropolygraphic data acquisition unit according to the invention, which consists in a first source and a second source of stabilized voltage of the first sensor are connected in parallel to the isolation transformer, the supply of the branches of the resistive divider of the first calibrator are connected to the first source

198 548

198 548 pre-calibration of the aapStia · second calibrator for calibrating the current outputs, which are connected together and with the first aapStia aa and a second circuit for the current and input of the first switch, which is aa connected and a second source and output connected to the first and second the power supply unit of the aa third and fourth inputs, which is also connected to the second price sensor by the outputs of the unidirectional amplifier n of the marker, wherein the unidirectional amplifier is connected aa the fourth source of stabilized aapStia which is connected to the transformer separator parallel and third source stabilized aapfitia a second switch aa the input of which the output aapBtia of the tsrmocléakev is fed and the output of which the aa of the marker is connected and the output of the input circuits are measured without stepping and the input of the unidirectional amplifier.

The advantage of measuring and storing the current, current and temperature of the arc welding according to the present invention is that it enables the capture and registration of instantaneous welding current, temperature and temperature sweeps without affecting the process data. . When performing demanding welds, records of measured vomiting parameters can be made with this device, which allows documenting the quality of the weld for co-control purposes. It is also suitable for the stage of the arc welding process and the rapid and efficient control of the failure of production failures and for the design of measures for the immediate failure of defects.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary wiring diagram for measuring and soaking the current, current and temperature of the arc welding apparatus of the present invention, wherein FIG. 1 is a general circuit diagram, and FIG. 2 is a schematic diagram of the aperture of the first pickup aa measuring the aapStla and current, and FIG. 3 jo fuakčaá diagram aapojeaia second sensor aa meraaie tepfit.

Connections for metering and switching aapStia, current and heat at arc welding It is made up of the first sensor 2 for current and aapStia, from the second sensor 2 for the heating of the heat and the electrapels of the graphic unit 2 · Power supply from the first source and a second source of stabilized a? stia, which are connected in parallel to the transformer 21. The first sources 22 are connected and connected to the branches of the resistive divider of the first calibrator 20 to calibrate the aapStia and the second calibrator 2% to calibrate the current. The outputs of the first calibrator and the second calibrator as well as the outputs of the first and second circuit 28 and the second and current circuit 28 are connected and the input of the first switch 26, which is connected to the second address 22. The output of the first switch 26 is connected, and The second input of the electro-trefoil unit is on the track and the fourth input of the electro-palegraph unit 2 is an irpeactive second safener 2 and outputs the unidirectional amplifier 36 of the marker 22. The unidirectional amplifier 21 is connected to the fourth source 22 aapStia connected to the decoupling transformer 2i. On the other hand, the power supply 22 J2 is a second switch 22 which allows the connection of aa three or aa soap valves. That it measures without stepping, and that of a single meter

188 548 amplifier 34.

The ECG KARDITES - 4 electropolygraph unit 1 was used to record the voltage, current and temperature sensed by the first sensor 2 and the second sensor i. The ECG has a very sensitive preamplifier capable of transmitting a frequency range from 0.3 to 120 Hz. The preamplifiers have capacitance coupling to the input of the end amplifiers and cannot be used to amplify individual voltages. However, the design of the device is designed so that the built-in preamplifier needed for sensing bio-currents using ECG in human medicine can be disconnected. The amplifier and the output stages are unidirectionally coupled to allow the use of the ECG recording stage for printing work. The first scan 2 and the second scan 2 are designed so as not to interfere with the inlet ECG electronics, meaning that their outputs are impendently adapted to the input circuit of the electropolygraphic ECG unit. To ensure safety against accidental contact voltages, the metering system of the first sensor 2 and the second sensor 1 is separated from the slider 40 by the circuit of the transformer 21 which supplies the necessary voltage for the first source 22 and second source 23 of the first sensor 2 and third source 32. and the fourth source 33 of the second sensor 6. The first power supply 22 of the first sensor 2 supplies the circuits of the first calibrator 24 for the calibration of aapfitl and the second calibrator 24 for the calibration of the current with + 5V DC. The circuit of the first calibrator 24 is a calibrated voltage 0-40V and the second calibrator 2 calibrated current values of 0-400 A. The output values of the first calibrator 26 and the second calibrator 25 are applied to the input of the first switch 26, whereby the switching device is fed to the recording portion of the electropolygraphic unit 1. before recording measured or calibrated values. The first inlet 41 supplies the voltage of the arc through the first voltage sensing circuit 27 to the input of the first switch 26 where it is impendently adapted to the level needed over the recording portion of the electropolygraphic unit 1. The voltage generated by the current flowing through the barge is connected to the current circuit of the welding system. 42 through the second current sensing circuit 28 to the input of the first switch 26, where it is impendently adapted to the level required over the recording stack of the electropolygraphic unit 1. The second scanner operates such that the output voltage from the third source 32 is fed to the second switch 22. it feeds the shift register circuitry and the output voltage from the fourth source 22 e and feeds it to a unidirectional amplifier 21 ' where it supplies the circuit to the measurement amplifier. The sensed voltage from the thermocouple is fed through the third inlet 43 through the input circuits 36 for directing without stepping to the input of the unidirectional amplifier 34 and thereafter after amplification to the recording path of the electropolygraphic unit 1. Output voltage from the first to the sixth thermocouple 22, where the switching device system reaches the unidirectional amplifier 34. To make the recording clear even when sensing the temperature using two to six thermocouples, the first input of the second switch 37 forms an auxiliary signal, which is processed in the marker 22 to the required level and fed to the recording part of the electropolygraphic unit 1, where in the record it indicates the position of the first thermocouple.

Claims (1)

Connection of measurement and recording of voltage, current and temperature during arc welding created by the back voltage and yoke sensor, from the second temperature sensor and from the electropolygraphic unit for recording the measured values, characterized by the fact that on the separating transformer connected a first source (22) and a second source (23) of a stabilized voltage of the first sensor (2), wherein the supply branches of the resistor dividers of the first calibrator (24) for calibrating the voltage and the second calibrator (25) are connected to the first sources the outputs of which are connected together with the first voltage sensing circuit (27) and with the second circuit (28) to receive current at the input of the first switch (26) which is connected to the second source (23) and the output of which is connected to the first and second vatup electropolygraphic unit (1) on the third and fourth input, which is also connected to the second sensor a tracer (3) via the outputs of the unidirectional amplifier (34) and the marker (35), the unidirectional amplifier (34) being connected to a fourth stabilized voltage source (33) connected to a decoupling transformer (21) parallel to the third source (32) stabilized voltage, to which the second switch (37) is connected to the input where the output voltages from the thermocouples are connected through the inlets (44) and the outlet which is connected to the marker input (35) and together with 8 output circuits output (36) to the input of the unidirectional amplifier (34). J drawings