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FORGING EQUIPMENT WITH A LINEAR ELECTROMAGNETIC MOTOR

FOR THE MECHANIZATION OF PROCESSES OF IMPACT ASSEMBLY

AND STAMPING SMALL PARTS

Aksyutin V.A.,

Ph.D. (Engineering), Associate Professor, e-mail:

awal@ngs.ru

Neyman L.A.

, Ph.D. (Engineering), Associate Professor, e-mail:

neyman@ngs.ru

Neyman

V.Yu

.

,

D.Sc.

(Engineering), Professor, e-mail:

nv.nstu@ngs.ru

Scotnikov A.A.,

Assistant, e-mail:

anrew-871@mail.ru

Novosibirsk State Technical University, 20 Prospect K. Marksa, Novosibirsk, 630073, Russian

Federation

Abstract

Linear electromagnetic motors are advantageous for use in the drive of press equipment for

stamping, pressing, riveting, marking, etc. at an action frequency of 10 Hz. The principle of

electromagnetic motor operation is based on the interaction of the winding magnetic field with

ferromagnetic core. The equipment of this class converts electric energy into the kinetic energy of

the operating unit rectilinear motion with no additional transmissions. Electromagnetic presses

stand out as being much more advantageous than other equipment due to the absence of mechanical

transmissions, precisely manufactured parts, a simple structure, and wide possibilities to improve

reliability and increase their service life, a feasibility to control their force and frequency in a wide

range of values, a possibility of automation, an easy control of their operation, and the absence of

overloads. Analysis of the presses converting electric energy into useful mechanical work made it

possible to significantly improve electromagnetic press force and energy parameters by providing

new operating cycles to accumulate magnetic energy in the inductances under static and dynamic

conditions by developing effective magnetic systems and designs of electromagnetic motors.

Keywords

electromagnetic press, linear electromagnetic actuator, frequency and impact energy,

mechanization of technological processes, shock assembly and stamping