RU1800018C - Electrodynamic action striking mechanism - Google Patents

Abstract

Usage: as a hand tool. SUMMARY OF THE INVENTION: in a percussion mechanism comprising a working tool, a casing concentrically placed in the casing with axial movement of the core and a reactor inhibited with an inert mass, damping means to limit the working stroke of the reactor, damping means to limit the working stroke of the core between the cortex and the casing an additional damping element is placed to limit the return stroke of the core, and the core has a hammer for interacting with the impact surface of the working tool and is placed in the cavity eaktora, wherein the damping means to limit the stroke of the reactor taken between the armature and the inner flange of the reactor. 1 ill. (L C

Description

The invention relates to an electrodynamic shock mechanism used in mining, for example, for crushing oversized pieces of rock, concrete, boulders, old foundations.

The aim of the invention is to reduce dynamic loads on the housing, to improve the overall dimensions of the impact mechanism of electrodynamic action and to enable its use in manual mode.

The drawing shows the proposed shock mechanism of electrodynamic action in the initial position.

The percussion mechanism comprises a housing 1, in which the reactor and measles are fixed with the possibility of axial movement. The reactor is located on the inner surface of the inert mass 2 and contains a lined magnetic core 3 having grooves into which

the power winding is laid 4. The anchor is placed on the outer surface of the pipe 5 and contains a lined magnetic circuit 6 having grooves into which the power winding 7 is connected.

A working tool is placed at the lower end of the housing 1 .8, the tail part with the impact surface of which is inserted into the central hole made in the lower housing cover 9 and provided with a locking collar 10. A spring 11 is placed between the lower housing cover 9 and the locking collar 10. As a damping means for restricting the working stroke of the core, the measles from the side of the working tool 8 is equipped with a striker 12 with an upper shoulder fastened to the core by means of a vertical central bolt 13. The lower part of the striker 12 has a large diameter than the tail of the working tool 8. On the inner surface

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a reactor sleeve 14 is made of non-magnetic material, which is in sliding contact with the outer surface of the core. The lower end of the sleeve 14, protruding relative to the reactor, is provided with an inner flange 15 with an upwardly directed protrusion, and a damping ring gasket 16. A spring 17 is inserted between the flange 1-5 and the upper shoulder of the striker 12, and a spring 17 is inserted between the flange 1-5 and the upper shoulder of the striker 12, and between the upper end cover 18 of the core and the upper cover 19 of the housing 1 - the spring 20. The damping ring gasket 16 and the spring 17 serve as damping means to limit the working stroke of the reactor, and the spring 20 as a damping a measuring element for limiting the reverse stroke of the core. A damping ring gasket 21 is fixed on a portion of the housing 1 opposite the lower end surface of the inert mass 2.

In the drawing, the proposed impact mechanism is in its initial position, while the coils of the power windings 7 and 4 core and the reactor are shifted by half a pole division relative to each other, and the springs 17 and 20 hold the striker 12 at a predetermined distance from the impact end surface of the working tool 8.

The shock mechanism of electrodynamic action works as follows:

The working tool by pressing on the housing 1 (by manipulator or manually) is pressed against the destroyed material. When an electric pulse is supplied from a generator (not shown) to the power windings 4 and 7 of the reactor and the core, an electrodynamic force arises between them. At the same time, compressing the spring 17, the reactor with an inert mass 2 and the measles with the striker 12, moving away from the covers of the casing, begin to move towards each other: the reactor moves up, and the measles - down, and due to the significant weight of the reactor with an inert mass they only limited movement, and measles travels a long segment of the path, accumulating significant kinetic energy, and at the end of the stroke strikes the shock end surface of the working tool 8. The working tool, compressing the spring 11, moves forward, destroying the mother l. After striking the working tool, the inert mass reactor 2 continues, further compressing the spring 17, moving upward until the protrusion of the flange 15 with the end surface of the hammer 12 is impacted through the damping ring 16. Some of the energy of the reactor is quenched, the reactor and measles move together for some time. after which the springs 17 and 20 return the measles and the reactor to its original position. In this case, partial

mutual compensation of the application of loads to the upper and lower ends of the housing 1. In addition, the presence of a gasket 21 and a spring 20 eliminates the impact of the reactor and core, respectively, on the housing 1. To this

In time, the spring 11 also expands and the working tool takes its initial position in the housing. The cycle of work is repeated.

Thus, the hammer body 1 is completely unloaded from. forces created during electrodynamic interaction. Due to the presence of the gasket 21 and the spring 20, the forces on the casing are mainly damped and during the reverse stroke, as well as taking into account their opposite direction, the casing does not perform any movements at this moment either. All this makes it possible to reduce the mass of the casing, to exclude its recoil, which makes it possible to use a percussion mechanism. As a hand tool. When the percussion mechanism operates with a base machine (not shown), this reduces the mass of the boom (not shown) and improves the reliability of the base machine.

Claims (1)

SUMMARY OF THE INVENTION Impact mechanism, electrodynamic action, comprising a housing, concentrically arranged in the housing with the possibility of axial movement of mutually opposite directions of the measles with an electric winding, connected to an electric pulse generator, and a reactor with an electric winding connected to an inert mass, connected to the generator electrical pulses damping means for the limitations of the working stroke of the reactor and the core, the working tool, are distinguished, and - with the fact that, in order to improve working conditions by reducing dynamic loads on the mechanism body, reduce its mass and dimensions and the expansion of functionality due to its use as a hand tool, the measles has a striker for interacting with the impact surface of the working tool and is placed in the cavity of the reactor, which is made with an inner flange, while damping means to limit the working stroke of the reactor is located between core and the inner flange of the reactor, and a damping device to limit the working stroke of the core is placed between the housing and made on the tool shoulder, and for limited return stroke, the latter is spring-loaded relative to the housing by means of an additional damping element