SU1453543A1 - Electromagnetic vibrator - Google Patents

Abstract

The invention relates to electrical engineering and can be used to drive vibrotools and other devices using vibration. The purpose of the invention is to increase efficiency and working force. The device contains an H-shaped magnetic core 1 with an alternating current winding 2 and additional magnetic systems 3 and 4 with direct current windings 5 and 6. The poles 7 are rigidly interconnected by a connecting jumper 8, which is connected to the elastic element 9 from both sides. One The DC winding is turned on in accordance with the AC winding 2, and the other is opposite. When power is applied to the AC winding and DC winding 5 and 6 in the first half-period, repelling the lower poles 7 and in the second half-period upper poles 7. energy for one cycle of oscillation. 1 il. (L

Description

The invention relates to electrical engineering and can be used to drive vibration tools, in stands for testing the reliability of instruments and materials for vibration resistance and vibration resistance, in other devices using vibration.

The purpose of the invention is improving efficiency and working effort.

The drawing shows the design of an electromagnetic vibrator.

The electromagnetic vibrator contains an H-shaped charge magnetic circuit 1 with an alternating current winding 2; additional magnetic systems 3 and 4 with direct current windings 5 and 6. The movable elements are the poles 7, rigidly interconnected by a connecting jumper 8, which is connected to the elastic element 9 from two sides. One DC winding 5 is connected in accordance with the alternating current winding 2, and the other is opposite.

Work2 Permanent30

An electromagnetic vibrator is as follows.

We supply power to the valuable current winding and windings 4 and 5

Total current. Let winding 5 be included in the first half-cycle according to winding 2. Then the flows generated by Windings 2 and 5 pass through the charge — magnetic core 1, variable air gap, pole 7, constant air gap, additional magnetic system 4, constant air gap, pole 7, the variable air working gap closes, since in the upper working gaps the flow directions. Created by the windings 2 and 5 coincide, then the upper poles are attracted.

At the same time, the windings 2 and 6 are turned on in the opposite direction and in the lower working air gaps, the flows created by the windings 2 and 6 are directed in the opposite direction, and the loops 7 are repelled from the lower magnetic circuit 1.

In the next half-cycle, the alternating current winding 2 is connected in accordance with the direct current winding 6 and the ss counter to the constant-current winding 5 and the lower poles are attracted and the upper poles repelled 7. Subsequently, the vibrator is repeated in a similar manner.

The implementation of the movable elements in the form of poles 7 of soft magnetic material located with a gap between-! D5 ’a motionless additional magnetic system, allows to increase the mobility of the movable element and ·. .d-} to reduce the inertia of the oscillating parts by eliminating the oscillations of the additional magnetic system, which leads to a reduction in energy consumption per oscillation cycle and, consequently, to an increase in the efficiency and productivity of a linear electromagnetic vibrator compared to the known one. In addition, the installation of DC windings on an additional stationary magnetic system leads to the fact that every half period, in addition to electromagnetic forces of attraction, for example, the upper poles to the H-shaped magnetic system, there are electromagnetic forces pushing the lower poles away from the H-shaped magnetic system, which leads to an increase in the resulting force and an increase in efficiency due to the use of electromagnetic forces pushing the poles away from the H-shaped magnetic system.

Claims (1)

Claim An electromagnetic vibrator containing a magnetic system made in the form of an H-shaped magnetic circuit, an alternating current winding located on the middle core of the magnetic circuit, two direct current windings, with one direct current winding turned on, and the other according to the alternating current winding, movable ferromagnetic elements material rigidly interconnected and elastically fixed in the housing, characterized in that, in order to increase efficiency and working effort, it is equipped with an additional magnetic system, ennoy .dvuh in the form of plates of a soft magnetic material, disposed between the ends of the angles of H-shaped magnetic core, the DC coil placed on the plates, and movable members arranged in the clearances between the plates and the ends of the H-shaped magnetic circuit.