ENERGY CHARACTERISTICS OF THE ELECTROMAGNETIC VIBRATION DRIVE WITH PULSE POWER SUPPLY OF VIBRATOR COILS

Q3 Energy

Technical Electrodynamics Pub Date : 2023-02-23 DOI:10.15407/techned2023.02.053

O. Cherno, A. Hurov, A. V. Ivanov

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Abstract

Vibrating equipment provides various technological processes, such as transportation, separation, compaction of mixtures. The electromagnetic drive is usually used in vibrating conveyors, feeders and other devices where vibration parameters are automatically controlled. Increasing the energy efficiency of such devices is an important task. The paper examines the influence of the power supply voltage on the energy characteristics of the electromagnetic vibration drive and determines the most effective voltage form. To do this, an analysis of factors affecting the efficiency of the drive was carried out. It was found that one of the factors is the time interval between the maximum current and the minimum value of the air gap, and increasing the efficiency is possible by reducing this interval by forming bipolar rectangular voltage pulses with maximum amplitude, which create narrow sharp pulses of the vibrator coil current. As a result of the numerical modeling of the processes in the drive, it was found that with increasing power, current pulses cause short-term deep saturation of steel, which leads to increased losses and reduced efficiency. Therefore, a zero voltage interval was added between the positive and negative voltage pulses, which limits the peak current values. The simulation of the processes in the vibration drive with the voltage supply of the proposed form was carried out, its energy characteristics were calculated: the dependence of the efficiency on the frequency at different load values, the dependence of the maximum values of the efficiency on the power. It was established that the use of pulsed power supply makes it possible to increase the efficiency of the drive up to 80% in the power range from 0.25 of the nominal value to the nominal one, which is on average 10% more compared to sinusoidal voltage. The dependences of frequency and zero voltage interval optimal values (according to the criterion of maximum efficiency) on power, which can be used in automatic control of the drive, have been obtained. References 10, figures 9, tables 2.

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振动器线圈脉冲供电电磁振动驱动的能量特性

振动设备提供各种工艺流程，如混合物的运输、分离、压实。电磁驱动通常用于振动输送机、给料机和其他自动控制振动参数的设备。提高这种装置的能源效率是一项重要任务。本文研究了电源电压对电磁振动驱动器能量特性的影响，确定了最有效的电压形式，并对影响驱动器效率的因素进行了分析。已经发现，其中一个因素是气隙的最大电流和最小值之间的时间间隔，并且可以通过形成具有最大振幅的双极矩形电压脉冲来减小该间隔来提高效率，该双极矩形电压脉动产生振动线圈电流的窄尖脉冲。通过对驱动过程的数值模拟，发现随着功率的增加，电流脉冲会导致钢的短期深度饱和，从而导致损耗增加和效率降低。因此，在正电压脉冲和负电压脉冲之间增加了零电压间隔，这限制了峰值电流值。对所提出形式的电压源振动驱动过程进行了仿真，计算了其能量特性：在不同负载值下，效率对频率的依赖性，效率最大值对功率的依赖性。已经确定，脉冲电源的使用使得可以在从标称值的0.25到标称值的功率范围内将驱动器的效率提高到80%，与正弦电压相比，这平均高出10%。得到了频率和零电压区间最优值（根据最大效率准则）与功率的关系，可用于驱动器的自动控制。参考文献10，图9，表2。

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