SU860143A2 - Device for automatic regulation of microwire linear resistance in a plant for microwire casting - Google Patents

Description

The invention relates to cable technology, namely, equipment for the manufacture of molded microwires in glass insulation.

According to the main author. St. No. 611258, a device is known for automatically controlling the linear resistance of a microwire in a casting installation, which includes a high-frequency tube oscillator for melting metal with a lamp glow transformer, a unit for regulating lamp operating conditions, a sensor for the current (measured) sensor and a setpoint for nominal (set) linear resistance values connected to the comparison element, which is connected to the high-frequency oscillator through the unit for regulating lamp operating modes, and an adder, one input of which e, of the connections to the reference element through the differential amplifier. The device also contains an integrating amplifier, the input of which is connected to t <

¹ 2 ' ^ϋ ?' · ·.

a comparison element, and the output with another input of the adder ·, and a proportional amplifier, the input of which is connected to the comparison element, and the output is the third input of the adder. The mode control unit ⁵ in the known device is made in the form of counter-parallel thyristors with a control pulse generation unit, the input of which is connected to the output of the sum ^{0 of the} matron, and the thyristors are included in the primary circuit of the lamp transformer D].

However, when using the known device, the quality of the manufactured ⁵ microwire turns out to be low due to the inaccuracy of adjusting the linear resistance, in addition, the device has a complex structure.

The purpose of the invention is to simplify the design of a device for automatically controlling the linear resistance of a microwire in a casting installation and to improve the quality of the resulting microwire.

This goal is achieved by the fact that in the device for automatically controlling the linear resistance of the microwire in the installation for its casting, the control pulse generating unit is equipped with a matching transformer with at least two secondary windings, each of which is connected to one of the counter-parallel thyristors, for example, through current-limiting chains, a power transformer, a half-wave rectifier and a voltage regulator. In this case, the primary winding of the power transformer is connected in parallel to the circuit, including the primary winding of the lamp transformer and thyristors, the secondary winding of the power transformer is connected to the input of a half-wave rectifier · whose output is connected through the voltage regulator to the primary winding of the matching transformer, and the voltage regulator input is connected to the output of the adder .

The drawing shows a block diagram of the proposed device.

The device contains a sensor (meter) 1 of the current and a setter 2 of the nominal 'linear resistance values of the microwire connected to the comparison element 3. The output of the comparison element 3 is connected to the inputs of the proportional 4, differential 5 and integrating 6 amplifiers, the outputs of which are connected to the inputs of the adder 7. The output of the latter is connected to the control pulse generation unit 8, namely, the voltage regulator 9 included in this unit, for example, based on a transistor amplifier. The forming unit 8 contains a power transformer 10, the secondary winding of which is connected to the input of a half-wave rectifier 11-, the output of which through the voltage regulator 9 is connected to the primary winding of the matching transformer 12 with two (at least) secondary windings. The secondary windings of the transformer 12 are connected through current-limiting chains 13 (consisting, for example, of a diode and a resistor each) to the control electrodes of the thyristors 14, connected counter-parallel to the circuit (powered from the network) of the primary winding of the transformer 15 of the lamp of the oscillator for melting metal installation 16 for casting microwire. The primary winding ₅ B lovogo transformer 10 is connected in parallel circuit consisting of the primary winding of transformer 15 and incandescence lamp thyristors oscillator 14.

О The device operates as follows.

From the sensor 1, a signal proportional to the measured current value of the linear resistance of the microwire ₁₅ 'yes, obtained at the installation 16, is sent to the comparison element 3, where it is compared with the reference signal from the setpoint 2 of the nominal value of the linear · resistance of the microwire. When the current value of the measured linear resistance deviates from the set in the entire controlled frequency range (10 “^ - 10 ^ Hz), the output control signal ^{25 is} generated in the comparison device 3, correlated with the deviation (mismatch).

The output signal from the comparison element 3 is fed to the inputs of ³⁰ portioned 4, differential 5 and integrating 6 amplifiers, the outputs of which respectively converted signals are fed to the inputs of adder 7. From the output of adder 7, the signal is fed to the input of voltage regulator 9 (for example, to the base of the transistor on the basis of which this regulator can be made). In accordance with this signal 40, the amplitude value of the ripple voltage on the primary winding of the matching transformer 12 changes, coming from the output of a half-wave rectifier 11, fed from the mains voltage through the transformer 10 .. The frequency of the ripple voltage ^ becomes equal to 100 Hz. The secondary windings of the matching transformer are turned on · 50 so that the control signals pass through current-limiting circuits 13 and are fed with positive polarity to the control electrodes of the thyristors 14 with a frequency of ₅₅ matching the doubled current frequency of the supply network.

As a result, the thyristor opens to which the direct voltage of the supply network is applied. As a result, with a significant simplification of the design, in particular when replacing two separate thyristor control channels in the control pulse generation unit with one and excluding its individual nodes, the coordination of thyristor operation increases. Depending on the magnitude of the signal coming from the output of the adder -7, the unlocking angle of the thyristors 14 changes and, accordingly, the effective value of the voltage supplying the primary winding of the filament transformer 15 of the lamp of the oscillator of the microwire casting unit 16 is regulated. Accordingly, the glow voltage of the oscillator lamp changes, which leads to a change in 860143 6 to improve the quality of the resulting microwire.

The use of the proposed device in the production of cast micro ₅ wires from resistive alloys can reduce rejects during casting and subsequent use of the resulting microwire more than 1.5 times.

Claims (1)

pouring it and improving the quality of the microwire. This goal is achieved by the fact that in the device for automatic control of the linear resistance of the microwire in the installation to cast it, the control pulse shaping unit is equipped with a matching transformer with at least two secondary windings, each of which is connected to one of the opposite-parallel thyristors, for example, through current-limiting circuits, a power transformer, a full-wave rectifier and a voltage regulator. In this case, the primary winding of the power transformer is connected in parallel to the circuit, including the primary winding of the lamp filament transformer and thyristors, the secondary winding of the power transformer is connected to the full-wave rectifier input, and the output through the voltage regulator is connected to the primary winding of the matching transformer, and the output of the adder is the input of a voltage regulator. The drawing shows a block diagram of the proposed device. The device contains a sensor meter 1 current and unit 2 nominal values of the linear resistance of the microwire connected to the element 3 of the comparison. The output of the comparison element 3 is connected to the inputs of proportional 4, differential 5 and integrating 6 amplifiers, the outputs of which are connected to the inputs of the adder 7. The output of the latter is connected to the control pulse shaping unit 8, namely the voltage regulator 9 entering this block , for example, based on a transistor amplifier. The forming unit 8 contains a power transformer 10, the secondary winding of which is connected to the input of two half-period rectifier 11-, the output of which is connected to the primary winding of the matching transformer 12 with two (at least) secondary windings through the voltage regulator 9. The secondary windings of transformer 12 are connected through current-limiting circuits 13 1, each, from a diode and resistor each) to the control electrodes of the thyristors 14, connected in parallel to the circuit (4) of the primary winding of the transformer 15 of the auto-oscillator lamp for melting metal installation 16 for casting microwires. The primary winding of the power transformer 10 is connected in parallel to the circuit, including the primary winding of the transformer 15 of the lamp of the auto-oscillator and the thyristors 14. The device operates as follows. From sensor 1, a signal proportional to the measured current value of the linear resistance of the microwire, obtained at the installation 16, is fed to the comparison element 3, where it is compared with the reference signal from the setting unit 2 of the nominal resistance of the microwire. When the current measured resistance value deviates from the given over the entire monitored frequency range {lO -10 Hz), the output device 3 generates an output control signal correlated with the deviation value (mismatch). The output signal from the comparison element 3 is fed to the inputs of a proportional 4, a differential 5 and an integrating 6 amplifiers, from the outputs of which, respectively, the converted signals are fed to the inputs of the adder 7. From the output of the adder 7, the signal goes to the input of the voltage regulator 9 (for example, on the basis of which this regulator can be implemented). In accordance with this signal, the amplitude value of the pulsating voltage on the primary winding of the transformer of the transformer 1 2 changes from the output of the full-wave rectifier 11 fed from the mains through the transformer 10 .. The pulse voltage frequency is 100 Hz, The secondary windings of the matching transformer are connected in such a way that the control signals pass through the current-limiting circuit 13 and are applied positively to the control electrode Thyristors are 14 seconds, often the same as the double frequency of the mains supply current. As a result, the thyristor is opened alternately, to which the 5 direct voltage of the supply voltage is applied. As a result, with a significant simplification of the structure, in particular, when two separate thyristor control channels are replaced in the control pulse shaping unit by one and excluding its individual nodes, the consistency of the thyristors operation increases. Depending on the magnitude of the signal coming from the output of the adder -7, the unlocking angle of the thyristors 14 varies and, accordingly, the effective value of the voltage supplying the primary winding of the transformer 15 of the lamp of the autogenerator of the installation 16 for the microwire is controlled. The voltage of the lamp of the autogenerator changes accordingly, which leads to a change in the voltage at the high-frequency inductor and a change in the temperature of the micron, which means a change in the diameter and linear resistance of the microwire. The device is designed in such a way that as the current measured value of the linear resistance decreases in comparison with the specified nominal value, the voltage on the inductor increases. The voltage change occurs until the current value of the linear resistance of the microwire becomes equal to the specified nominal value of the linear resistance and in the running signal of the comparison element 3 becomes zero. In addition to significantly simplifying the design of the device, it significantly increases the consistency of the thyristors, which eliminates, in particular, the constant component of the voltage falling in the known device to the primary winding of the lamp filament transformer, and adjusts the depth of adjustment. This leads to more accurate control and, accordingly, to 6 improvements in the quality of the microwire. The use of the proposed device in the production of cast microwires from resistive alloys allows reducing scrap in the casting process and subsequent use of the microwire obtained by more than 1.5 times. The invention The device for automatic control of the linear resistance of a microwire in an installation for casting it according to aut. St. No. 611258, characterized in that, in order to simplify the design and improve the quality of the microwire produced, the control pulses are formed using a matching transformer with at least two secondary windings, a power transformer, a full-wave voltage regulator and a voltage regulator, the primary winding of the power transformer connected in parallel to the circuit, including the primary winding of the lamp transformer and thyristors, the secondary winding of the power transformer is connected to the full-wave output A capacitor whose output through a voltage regulator is connected to the primary winding of a matching transformer, each secondary winding of which is connected to one of the counter-parallel thyristors, for example, through current-limiting circuits, and the voltage regulator input is connected to the output of the adder. Sources of information taken into account in the examination 1. USSR author's certificate b11258, cl. H 01 H 13/06.