SU1601708A1 - Electromagnetic hammer - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to increase reliability in operation. The device consists of a working coil 1, roma 2, poles 3, 4 pipes 5. In the cavity of pipe 5 placed measles 6, kinematically connected to the pusher 10, which transmits force to the piston with the rod 11. After striking the shank of the working tool 16, the piston 11 returns back under the action of a spring 18. Ensuring unaccented operation of the core 6 increases the reliability of the device. 1 hp ff, 1 ill.

Description

The invention relates to electrical engineering, in particular to the field of electrical engineering.

The aim of the invention is to increase reliability by reducing dynamic and thermal loads in the working elements.

The drawing shows an electromagnetic hammer, a cut.

The electromagnetic hammer contains a working coil 1, yoke 2, poles 3 and 4 and a guide pipe 5. An anchor 6 is movable in the cavity of the pipe 5. At one end of the pipe, a cylinder 7 is mounted coaxially with it, in the cavity of which a sleeve 8 is located. In the latter, a longitudinal hole 9 is made, in which a pusher 10 is placed with the possibility of movement in the axial direction. In addition, in the cavity of the cylinder 7 there is a piston 11 with a rod that separates this cavity into chambers 12 and 13, which are in communication with the atmosphere through corresponding channels 14 and 15, made in the side wall of the cylinder T. A tool is installed in front of the cylinder 7

16. The anchor 6 is kinematically connected with the piston 11 using a pusher 10. In this case, the pusher 10 is made of non-magnetic material. To fix the position of the anchor 6 from the end of the hammer opposite to its end with the cylinder 7 is a cover 17. In the chamber 12 of the cylinder 7 is placed a spring 18.

The hammer operates as follows. Coil 1 is supplied with short current pulses. Let the piston 11 with the rod, the pusher 10 and the anchor 6 is in the extreme positions shown in the drawing. When a current pulse is applied to the winding of the coil 1 under the action of an emerging electromagnetic force, the armature 6 begins to move to the right to the pole 3 and moves the piston 11 with the rod to the right with the help of a pusher 10. The armature 6, moving accelerated to the right, communicates the kinetic energy reserve to the piston 11 with the rod by means of a pusher 10, which kinematically connects the armature itself and the piston along the length of the armature stroke. Having chosen a short working air gap, the anchor 6 occupies the position of magnetic equilibrium and stops. The piston 11, due to the stored kinetic energy, is moved to the right (according to the drawing) and at the same time compressing the spring 18, makes a working stroke. The chamber 13 is in communication at this time with the atmosphere of the channel 15. The stroke of the piston 11 ends with a blow to the shank of the tool 16.

The elastic force of the spring 18 acting on the piston 11 is selected from the condition that the piston returns to its original position for any orientation of the longitudinal axis of the engine in space and the piston, pusher and armature come into contact with each other in their leftmost (according to the drawing) position.

After hitting the shank of the tool 16, the piston bounces and under the action of the elastic force of the spring 18 in the chamber 12 moves to the left (according to the drawing), i.e., a reverse stroke. The chamber 13 until the piston 11 closes the channel 15 is in communication with the atmosphere and there is no resistance to the movement of the piston from the side of this chamber.

After the piston 11 reaches the pusher 10, it moves the anchor 6 to its initial extreme left position by means of the pusher 10, which kinematically connects the piston 11 with the anchor 6 in the last segment of the reverse stroke of the piston 11, kinematically connecting the piston 11 with the arm 6. The cover 17 fixes the leftmost position of the armature 6. After closing the channel 15 with the piston 11 under the influence of air pressure in the chamber 13, it is inhibited. At this moment, a short current pulse is again applied to the winding of the coil 1 and, under the influence of electromagnetic force, the armature 6 moves to the right (according to the drawing) and moves the piston 11 using the pusher 10. A new cycle of the engine starts.

The pusher 10 is made of non-magnetic material to eliminate the possible closure of the magnetic field lines through it.

Since during the movement of the armature 6 there is no impact between the armature, the piston and the pusher, since the kinetic energy is transmitted to the armature by the piston when the kinematic connection is made between them by means of the pusher on a short length of the piston stroke, the armature can be made of soft magnetic material, for example, charged with electrical steel.

The invention allows to reduce dynamic shock loads on the anchor and heat loss in the elements of the magnetic circuit and the working coil, which leads to increased reliability of the engine.

Claims (2)

Claim 1. An electromagnetic hammer containing a cylindrical magnetic circuit with a yoke and poles, in the cavity of which there is a working coil covering the tubular guide, as well as a hammer made in the form of a piston with a rod, placed in a pipe with air exchange channels and a working tool, movably fixed at the end of the pipe characterized in that, in order to increase reliability, it is equipped with an anchor, a pusher, a sleeve and a return spring, the anchor is placed in the guide in the cavity of the coil, the sleeve is placed between the guide and the pipe, thick atel placed in the sleeve and at one end rests against the anchor, the other - a firing pin, a return spring positioned in the tube with the possibility OJEC baking retraction of the striker, wherein the size of the clearance between the striker and the working tool exceeds the gap between the armature and the sleeve. 2. The electromagnetic hammer according to π. 1, characterized in that the anchor is made of laden material.