Authors :
Rusudan Bitsadze; Simon Bitsadze
Volume/Issue :
Volume 10 - 2025, Issue 4 - April
Google Scholar :
https://tinyurl.com/bde6eyxa
Scribd :
https://tinyurl.com/yy82sxhx
DOI :
https://doi.org/10.38124/ijisrt/25apr766
Google Scholar
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Abstract :
The work offers a new original design of the membrane magneto hydraulic pusher, which includes the body
performed in the form of interconnected hydrocylinders of different diameters. A piston rod placed in the small-diameter
hydrocylinder is performed with an opportunity of connection with actuating mechanism, while electromagnet armature
placed in the large-diameter hydrocylynder located inside the direct current electromagnet coil is rigidly coupled with a
rigidly fixed membrane. The space above membrane is connected with an under-piston area of the rod through armature
and core holes, at that an above-piston rod area is connected with the area under membrane by pipe and regulating valve.
The above-membrane area is connected by unilateral valve with the above-piston area of the rod and under-membrane area.
The upper part of the armature is ended by mutually perpendicular projections with an opportunity of adjoining the
electromagnet core that provides implementation of the conclusion drawn using mathematical modeling – the reasonability
of reduction of adjoining area between armature and core for improvement of dynamic characteristics.
Keywords :
Membrane, Magneto Hydraulic Pusher, Armature, Core, Power Fluid.
References :
- O.S. Ezikashvili and S.G. Bitsadze. Magneto hydraulic pusher. Authorship certificate №582188, USSR, 1977.
- R. Bitsadze and S. Bitsadze. Determination of some dynamic characteristics of membrane magneto hydraulic pushers using mathematical modeling, International Journal of Innovative Science and Research Technology, vol.10, Issue 2, India, 2025, pp.1901-1904.
- Bitsadze and R. Bitsadze. Magneto hydraulic pusher. Patent of invention P2022 7337B, National Intellectual Property of Georgia, 20-10-2022.
The work offers a new original design of the membrane magneto hydraulic pusher, which includes the body
performed in the form of interconnected hydrocylinders of different diameters. A piston rod placed in the small-diameter
hydrocylinder is performed with an opportunity of connection with actuating mechanism, while electromagnet armature
placed in the large-diameter hydrocylynder located inside the direct current electromagnet coil is rigidly coupled with a
rigidly fixed membrane. The space above membrane is connected with an under-piston area of the rod through armature
and core holes, at that an above-piston rod area is connected with the area under membrane by pipe and regulating valve.
The above-membrane area is connected by unilateral valve with the above-piston area of the rod and under-membrane area.
The upper part of the armature is ended by mutually perpendicular projections with an opportunity of adjoining the
electromagnet core that provides implementation of the conclusion drawn using mathematical modeling – the reasonability
of reduction of adjoining area between armature and core for improvement of dynamic characteristics.
Keywords :
Membrane, Magneto Hydraulic Pusher, Armature, Core, Power Fluid.
