SU1534707A2 - Device for control of testing electromagnetic vibration bench - Google Patents

Abstract

The invention relates to electrical engineering and can be used in electromechanical devices for creating harmonic oscillations, for example, vibrating tables. The purpose of the invention is to increase the efficiency of the vibrating stand by providing a mode of mechanical resonance in the entire range of operating frequencies. The device consists of a controlled rectifier 1, to the output of which is connected a series circuit of diode 2, vibrator coil 3, diode 6 and capacitor 7. The thyristor 8 is connected to the cathode of diode 2 by the cathode and diode 6 between the anode of diode 6 and the output of the capacitor 7, connected to the rectifier 1, includes a valve switch. Unit 5 controls switch 4 and thyristor 8. The device is additionally equipped with a chain consisting of bias winding 9 and variable resistor 10 connected in series. Said device execution allows to create additional magnetic flux, which causes an electromagnet pull force, imitating additional mass. This mass varies depending on the change in the oscillation frequency of the vibrator by varying the resistance value of the resistor 10. This ensures that the sinusoidal oscillations of the moving part of the vibrator with the load are obtained. 2 Il.

Description

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The invention relates to systems for controlling mechanisms with an electromagnetic drive and can be used in electromechanical devices for creating harmonic oscillatory - vibrostands for testing the resistance of various products with significant weight and size Indicators, and is an improvement (the device according to auth. No. 1415388.

The purpose of the invention is to increase the efficiency of the vibrating stand by ensuring the provision of a mechanical resonance mode over the entire operating frequency range.

The drawing is a diagram of the device.

The device consists of rectifier 1, to the first output of which through diode 2 the first output of the vibrator coil 3 is connected, to the second output of which the valve switch 4 with control unit 5 is connected and through diode 6 to the first output of the capacitor 7 and to the anode of the controlled thyristor 8, the cathode of which is connected to the first output of the vibrator coil 3. The first output of the rectifier 1 is connected to the first output of the additional biasing coil 9, the second output of which is connected to one of the terminals of the variable resistor 10. The second output of the resistor 10 Ste with I second output of the switch valve 4 and the second output of the capacitor are connected to the second output of the outlet 1

The device works as follows.

The pulsed-phase control unit 5 sets the frequency of the forced vibrations of the vibrator. The control pulses enter the valve switch 4 and the current pulses through the vibrator coil from the rectifier 1 through the diode 2. The frequency of the current pulses corresponds to the oscillation frequency of the vibrator, and the current amplitude corresponds to the required value

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The amplitude of movement of the moving part of the vibrator with a load, which is required for testing. The energy accumulated in the coil after locking the valve switch 4 is discharged through diode 6 into a storage capacitor 7, from which energy at the beginning of the next oscillation period enters the vibrator coil through the controlled thyristor 8.

The introduction of an additional bias coil and a variable resistor, connected in the above manner, to a DC source, makes it possible to create an additional magnetic flux, which creates an electromagnet pull force, imitating additional mass, which varies depending on the oscillation frequency of the vibrator by changing the value resistance of resistor 10.

The proposed technical solution ensures the operation of the electromagnetic vibrostand in the mode of mechanical resonance in the whole range of operating frequencies, which is characterized, firstly, by the sinusoidal form of movement of the moving part of the electromagnet with the load and, secondly, by the small amount of operating current pulses used to provide the necessary amplitudes movement of the test load.

Claims (1)

Invention Formula The control device of the electromagnetic test bench on auth.St. No. 1415388, characterized in that, in order to increase the efficiency of the shaker by providing mechanical resonance in the entire operating frequency range, a chain is additionally introduced, consisting of series-connected bias coil and variable resistor and connected in parallel to the output of the rectifier.