SU1018060A1 - Device for checking collector-type electrical machine armature - Google Patents

Abstract

DEVICE FOR CONTROL OF ANCHORS COLLECTOR ELECTRIC MACHINES, containing a mechanism for rotating the test object, a power source, a high-frequency current generator, the output of which is connected to the terminals of two probes and the input of the comparison unit, the output of which is connected to the amplifiers; amplitude, type of defect indicator, | This means that, in order to increase the accuracy of control and device performance, a second comparison unit, a second signal amplitude driver, two selection and delay units, a second defect type indicator, an OR element are entered into it. , the memory block, wherein the high-frequency current generator outputs are connected to the inputs of the second comparator unit, the output of which is connected to the input of the amplitude generator of the signal, the output of which and the output of the first generator of the amp; ttu fy of the signal are connected to input 1 of the corresponding blocks aderzhki selection and whose outputs are connected to inputs of the respective defect types of indicators and the corresponding inputs of the OR gate, whose output is connected to the input of the memory unit coupled to, the object rotation control mechanism. 00 about cx

Description

The invention relates to electric machines, namely, devices for detecting defects in the windings of Korean collector electric machines, and can be used in the production process.

A device is known to monitor a DC motor for a break, containing a high-duty pulse generator, expander, indication control trigger, display circuit, key threshold circuit from a reference diode, a transistor switch, and a filter connected in parallel to the measuring element in the form of a resistor. The motor under test is connected between the pulse expander and the key threshold circuit, the output of which is connected to the zero input of the trigger, the single input of which is connected to the DJ pulse generator. The disadvantage of this device is the inability to determine the location of the core winding, as the control of the core is assembled.

The closest in technical essence to the present invention is a device for calibrating koreas of direct current machines, comprising a mechanism for rotating a core of a higher frequency current generator connected to an electromagnet and an electronic control unit, a breaker, a defect type indicator and two probes superimposed on adjacent collector plates. cor. The electronic control unit consists of a signal conditioner, made in the form of a thyratron relay and a comparison unit, made in the form of two differentially connected transformers, sub-. included in the grid chain of a thyratron. relay. The primary winding of the first transformer is connected to a high-frequency current generator, which is a source of reference voltage. The primary winding of the second transformer is connected to the probes. The breaker rotates in synchronism with the core and is connected to the anode circuit of the thyratron relay.

A disadvantage of the known device is the impossibility of accurately fixing the location of the detected defect in the winding of the core, since after the operation of the thyratron relay, due to the inertia of the rotation mechanism

core, the location of the defect core will be shifted relative to the probes. In addition, in the known device it is necessary in the initial position to orient the test subject relative to the probes, which requires either a large number of preparatory operations or additional orienting devices. Thus, a disadvantage of the known device is the low accuracy of monitoring the location of the core defect and low productivity.

The purpose of the invention is to improve the accuracy of monitoring the location of the defect and the performance of the device.

The goal is achieved by the fact that the device for controlling Korean collector electric machines, contains a mechanism for rotating an object of control, a power source, a generator of increased frequency, the output of which is connected to the terminals of two probes and the input of the comparator unit, the output of which is connected to the driver of the signal amplitude, indicator type of defect, a second comparison unit, a second signal amplitude driver, two selection and delay units, a second defect type indicator, an OR element, a memory block, and a generator output The increased frequency is connected to the inputs of the second comparison unit, the output of which is connected to the input of the second signal amplitude generator, the output of which and the output of the first signal amplitude generator are connected to the inputs of the respective selection and delay blocks, the outputs of which are connected to the inputs of the corresponding defect type indicators and the corresponding inputs of the OR element, the output of which is connected to the input of the memory block connected to the mechanism of rotation of the control object.

The drawing shows an electrical block diagram of the device ..

The device contains the mechanism 1 of rotation of the test core 2, two contact probes 3, a generator of high-frequency current k, blocks 5 and 6 of comparison, let us take the level of the reference voltage in the comparison unit 5 above the level of the reference voltage in block 6, the signal amplifiers 7 and 8 shaper 7 converts the input signal into a logical signal 1 only when the amplitude of the input signal of the reference voltage of the comparison unit 5 is exceeded, shaper 8 converts the input signal into a logical signal 1 only at amplitudes lower than the reference voltage block, 6 comparisons), blocks 9 and 10 of selection and delay (the delay time in blocks 9 and to is set equal to twice the duration of the passage of insulating gaps under the probes of the defect type indicator 11, OR element 12, defect type indicator 13, location AND memory block defect, which is connected (mechanically or electromechanically) with the rotation mechanism 1. The device also contains a power supply unit 15, which both binds the voltage supply to all electronic units and the rotation mechanism 1, Before checking the device, the device is tuned. Power supply unit 15 is turned on. A defect-free measles 2 is installed on the rotation mechanism 1, and probes 3 are superimposed on the collector bar p 2. Turns on the rotation mechanism 1, and the measles 2 begin to rotate at a constant angular velocity. When core 2 rotates on probes 3, a successive alternation of the following pulse packets occurs: 1 - short duration pulses with large amplitude, arising when insulating gaps pass through the probes, 2 higher duration pulses with an amplitude proportional to the number of turns in the winding sections of the core, arising when passing under the probes of the collector plates. The duration of these pulses is 4–5 times ji previous, since the collector plates are wide of insulating gaps. The pulses entering the comparison unit 5 are compared with the reference voltage, which is set so that the output of the former 7 generates a logic signal 1 when the insulating gaps pass, and when the collector plates pass the logical signal O, The duration of the logic signals is equal to the duration of the input pulses . The pulses entering the comparison unit 6 are compared with the reference voltage, which is set so that the output of the imaging unit 8 is logical both during the passage of the signals from the gaps and during the passage of the collector plates. The pa6otaeT device is as follows. The test bark 2 is installed in the rotation mechanism 1 and probes 3 are superimposed on the collector core 2 and the rotation mechanism 1 is turned on and a high-frequency voltage is applied to the probes 3 from the generator. If there is a winding break in the test core 2, a defective section occurs under the probes 3 impulse voltage of long duration and large amplitude, as in the case of the resistance of the winding is comparable with the resistance of the insulating gap. The resulting pulse arrives at the blocks of selection and comparison 5 and 6, but since the comparison unit 6 converts the signal i with a small amplitude, then the output of the imaging unit 8 will be a logical signal O, and the output of the imaging unit 7 will receive a logical signal 1 of a longer duration. Since the duration of logic signal 1 is significantly longer than the delay time of block 9, logical block 1 also appears at the output of block 9, which is supplied to indicator 11, and after passing through logic element 12 OR it turns on block 1 associated with the rotation mechanism. At block 1, the location of the defective section of the winding of the core 2 will be fixed, for example, the angle of rotation of the core when the defective section is located under the probes. If in the test core 2 there is an interturn winding closure, then when passing the defective section under the probes 3 a voltage pulse of long duration and small amplitude occurs, due to the fact that the resistance of the defective section is much less than the defect-free resistance. The resulting impulse goes to blocks 5 and 6 of comparison as block 5 Comparison converts signals with a large amplitude, then at the input of the driver. 7 there will be a logical signal O, and at the output of the driver B, a logical signal 1 of a longer duration is generated. Since the duration of logic signal 1 is much longer than the delay time of block 10, 51 block of signal 10 appears at the output of block 10, which goes to indicator 13 and after passing through logic element 12 OR turns on block I, which will fix the location of the defective section. The use of the proposed device for monitoring Korean collector electric machines provides an accurate determination of the location of the most common types of defects in the windings, regardless of the orientation of the core installation in the control. This allows the device to be built into automatic manufacturing and control lines for Korea. In addition, the proposed device improves the performance and quality control when replacing the subjective control manually.

Claims (1)

· '(5M DEVICE FOR CONTROL OF ANCHORS OF COLLECTOR ELECTRIC MACHINES, Containing the rotation mechanism of the test object, power supply, high-frequency current generator, the output of which is connected to the terminals of two probes and; the input of the comparison unit, the output of which is connected to the driver; indicator of the type of defect, characterized in that,! and device performance, a second comparison unit, a second signal amplitude driver, two selection and delay units, a second defect type indicator, an OR element, a memory unit are introduced into it, and the outputs of the high-frequency current generator are connected to the inputs of the second comparison unit, the output of which is connected with the input of the driver of the signal amplitude, the output of which and the output of the first driver-amplitude of the signal are connected to the inputs of the corresponding delay and selection units, the outputs of which are connected to the inputs of the corresponding dictators of the type of defect and with the corresponding inputs of the OR element, the output of which is connected to. the input of the memory unit connected to the rotation mechanism of the object