KR102038410B1 - Apparatus for absorbing impact - Google Patents

Abstract

Disclosed is a shock absorber capable of simultaneously obtaining a shock absorption due to a repulsive force of a magnet and a damping effect due to consumption of electrical energy. The shock absorbing device has a first and second magnets facing each other, a cylindrical holder fixed to the first magnet and fixed to the second magnet and slidably inserted into the holder. And a coil wound in the longitudinal direction of the plunger and having a load connected to both ends thereof, wherein electrical energy is generated in the coil by the plunger sliding in the holder and consumed at the load.

Description

Shock absorber {Apparatus for absorbing impact}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shock absorber, and more particularly, to a technique capable of simultaneously obtaining a shock absorbing force due to a repulsive force of a magnetic plate and a damping effect due to consumption of electrical energy.

Background Art [0002] In general, there are various kinds of apparatuses for absorbing and cushioning shocks and vibrations, utilizing spring elasticity or air compressibility such as air mats.

For example, Korean Patent Publication No. 2001-077535 proposes a buffer vibration absorber using magnetic force. The buffer vibration absorber is installed in a case with a compressible force and is installed inside the case so that the same poles face each other. It comprises two magnets which are excluded from each other by and form a compressible space therebetween, and are configured to obtain a buffered vibration absorption effect with such a configuration.

In this way, a device that absorbs and cushions shock and vibration by using the repulsive force of a magnet is used in shoes, chairs, or automobile bumpers.

According to such a conventional shock absorber, the applied shock is absorbed to some extent by the repulsive force of the magnet, while the repulsive force corresponding to the repulsive force is fed back to the object to which the shock is applied.

For example, when the shock absorber using the repulsive force of the magnet is mounted on the sole of the shoe, when the shock of the wearer's weight is applied to the shock absorber, the shock is absorbed by the repulsive force of the magnet and the corresponding repulsive force is transmitted through the shoe. There is a problem that the shock is applied to the wearer rather than delivered to the wearer.

In addition, most shock absorbers utilize the repulsive force of the magnet, and when the magnet itself is distorted by the repulsive force, the magnetic force line is also distorted. In order to prevent this, it is structurally complicated because a case for fixing the magnet must be provided. There is a problem that the manufacturing cost is high.

SUMMARY OF THE INVENTION An object of the present invention is to provide a shock absorbing device capable of quickly absorbing a shock by the repulsive force of a magnetic plate and at the same time removing the repulsive force corresponding to the repulsive force.

Another object of the present invention is to provide a shock absorber having a simple structure and low manufacturing cost since it is not provided with a separate case for fixing the magnet plate.

According to an aspect of the invention, the first and second magnets facing each other; A cylindrical holder fitted to the first magnet and fixed to the first magnet; A pillar-shaped plunger inserted into the second magnet and fixed to the second magnet and movably inserted into the holder; And a coil wound in a longitudinal direction of the plunger or the holder and having a load connected to both ends thereof, wherein the induced electromotive force generated in the coil is consumed at the load by relatively moving the plunger or the holder. An absorber is provided.

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Preferably, the inlet of the holder is provided with a separation prevention member, the separation prevention unit, the body is formed in the through-hole corresponding to the inlet of the holder to surround the inlet, the receiving groove is formed in the interior of the holder is formed ; And a locking protrusion fitted into the receiving groove via a spring and having an end portion elastically protruding into the holder, and a notch in which the locking protrusion is inserted in the plunger.

Preferably, the induced electromotive force generated in the coil is consumed as heat energy or light energy at the load.

According to the above configuration, the damping effect can be obtained by converting the repulsive force due to the repulsive force into electrical energy while rapidly absorbing the external impact with the repulsive force of the magnet, and then quickly dissipating it by thermal energy or light energy.

In addition, since a pair of magnets subjected to repulsive force by the repulsive force is supported by the combination of the holder and the plunger, a separate case is not required to avoid twisting due to the repulsive force, so the structure is simple and the manufacturing cost is low.

1 shows a shock absorber according to the present invention.
2 shows the operation of the shock absorber according to the present invention.

Technical terms used in the present invention are merely used to describe specific embodiments, it should be noted that it is not intended to limit the present invention. In addition, the technical terms used in the present invention should be interpreted as meanings generally understood by those skilled in the art unless the present invention has a special meaning defined in the present invention, and is excessively comprehensive. It should not be interpreted in the sense of or in the sense of being excessively reduced. In addition, when a technical term used in the present invention is an incorrect technical term that does not accurately express the spirit of the present invention, it should be replaced with a technical term that can be properly understood by those skilled in the art. In addition, the general terms used in the present invention should be interpreted as defined in the dictionary or according to the context before and after, and should not be interpreted in an excessively reduced sense.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 shows a shock absorber according to the present invention.

The shock absorber is configured by combining two separate units 100 and 200, at least one of which is slidably coupled to the other.

The magnet plates 110 and 210 of the units 100 and 200 are positioned so that the same polarities face each other so that repulsive force is generated so that an external shock applied from either side is absorbed by the repulsive force.

A through hole 111 is formed in the center of the magnet plate 110, and a cylindrical holder 120 is fitted into the through hole 111 and fixed by, for example, an E-ring 112.

The holder 120 has openings formed at both ends in a cylindrical shape such as a cylinder, and as described later, the plunger 220 of another unit 200 is fitted through the lower opening.

In this embodiment, the cylindrical shape is open at both ends, but the present invention is not limited thereto, but may have a cylindrical shape having an inlet formed on one side and a bottom formed on the other side.

An entrance preventing member 130 may be installed at an inlet of the holder 120 to prevent the plunger 220 inserted into the holder 120 from being separated.

For example, the detachment preventing member 130 may include a through hole 131b corresponding to an inlet of the holder 120, and a body 131 having an accommodation groove 131a open inwardly of the holder 120. And a locking protrusion 132 inserted into the accommodation groove 131a via a spring 133 and an end of which is elastically protruded into the holder 120.

Here, the locking protrusion 132 is formed in a wedge shape having an inclined surface on the inlet side of the holder 120, so that the plunger 220 of the other unit 200 can be easily introduced as described later.

A pillar-shaped plunger 220 is fitted into the through hole 211 formed in the center of the magnet plate 210 and fixed by, for example, an E-ring 212.

An end portion of the plunger 220 may be formed in a dome shape, for example, to be easily fitted into the holder 120.

At a position adjacent to the end of the plunger 220, a notch 222 is formed in which the locking projection 132 of the separation preventing member 130 is accommodated.

At least one of the holder 120 and the plunger 220 may be made of an electrically conductive material such as aluminum to quickly remove the repulsive force generated in response to the repulsive force of the magnet plates 110 and 210.

Specifically, according to Fleming's right hand law, induced electromotive force is generated when a conductor such as holder 120 or plunger 220 moves in a magnetic field, and the induced electromotive force is consumed by, for example, thermal energy, so that the magnetic plates 110 and 210 are moved. The repulsive force generated in response to the repulsive force is removed.

In this embodiment, it is assumed that the holder 120 and the plunger 220 are made of an insulating material such as plastic, and the coil 232 is wound in the longitudinal direction on the outer circumference of the plunger 220, and on both ends of the coil 232. The load 234 is connected to the load 234 by applying a resistor or an LED lamp to consume the induced electromotive force as heat energy or light energy in the load 234 to correspond to the repulsive force of the magnet plates 110 and 210. It is possible to quickly remove the repulsion generated.

Unlike this embodiment, the same effect can be obtained even when the coil 232 is wound around the outer circumferential surface of the holder 120.

1 illustrates a coil 232 and a load 234 in a form for convenience of description, and the actual coil 232 is wound on the outer circumferential surface of the plunger 220 to close the upper opening of the holder 120, and the like. Both ends of the coil 232 may be drawn out so that the coil 232 does not interfere with the slide of the plunger 220. In addition, as the load 234, for example, an accommodating groove may be formed on an outer surface of the holder 120, and an LED lamp connected to the coil 232 may be installed therein to consume electric energy by lighting the lamp.

According to the structure as described above, since the pair of magnet plates subjected to the repulsive force by the repulsive force is supported by the combination of the holder and the plunger, there is no need for a separate case to avoid twisting by the repulsive force, so the structure is simple and the manufacturing cost is low. Do.

In addition, the induced electromotive force generated by the repulsive force before or upon receiving the repulsive force, that is, generated by the coil 232 moving in the magnetic field according to Fleming's right hand law, causes heat or light energy at the load 234. As it is consumed by, it is hardly affected by repulsive force.

Hereinafter, the operation of the shock absorber having the above structure will be described with reference to FIGS. 1 and 2.

2 shows the operation of the shock absorber according to the present invention.

Referring to FIG. 2A, the dome-shaped end of the plunger 220 of the unit 200 is fitted from the inlet of the holder 120.

At this time, when the end of the plunger 220 is pushed while pushing the locking projection 132 of the separation prevention member 130, as described above, because the inclined surface of the locking projection 132 receives a force, the locking projection 132 is a spring ( Pushed inward while pressing 131a, the end of plunger 220 enters into holder 120.

Subsequently, when the position of the notch 222 formed on the plunger 220 is parallel with the locking protrusion 132, the notch 222 may be accommodated in the notch 222 while protruding by the restoring force of the spring 132 applied to the locking protrusion 132. It achieves the same state as 2 (a).

In this state, it is assumed that the unit 100 is pressed downward by, for example, an external impact applied from the top of the unit 100.

As the unit 100 is pressed, the magnetic plates 110 and 210 are closer to each other, and the repulsive force acts on each other to absorb external shocks.

In addition, since the movement of the holder 120 is relatively the same as the movement of the plunger 220, the induced electromotive force excited by the coil 232 wound on the outer circumferential surface of the plunger 220 is installed at the end of the coil 232. Consumed through load 234.

In other words, induced electromotive force is generated when the coil 232 moves in the magnetic field between the magnetic plates 110 and 210 according to Fleming's right hand law, and the induced electromotive force is consumed as heat energy or light energy at the load 234, Damping is performed to quickly remove the repulsive force generated in response to the repulsive force of the plate (110, 210).

By using this damping effect, for example, a shock absorber is installed on the heel side of the sole of the shoe to absorb the impact of the wearer's weight into the repulsive force of the magnetic plate, converting the repulsive force due to the repulsive force into electrical energy, and then By quickly consuming energy, a damping effect can be obtained, preventing the repulsive force from being transmitted to the wearer.

In the above description, the embodiment of the present invention has been described, but various changes can be made at the level of those skilled in the art. Therefore, the scope of the present invention should not be construed as limited to the above embodiment, but should be construed by the claims described below.

100, 200: unit
110, 210: magnetic plate
120: holder
130: separation prevention member
131: body
132: jamming
220: plunger
222: notch
232: coil
234: load

Claims (4)

delete First and second magnetic plates each having a through hole and facing each other;
A cylindrical holder having one end fixed to the through hole of the first magnetic plate;
A pillar-shaped plunger whose one end is fitted into the through hole of the second magnetic plate and is movably inserted into the holder;
A coil extending in a longitudinal direction to an outer surface of the plunger or an inner surface of the holder, the load being connected at both ends; And
It includes a separation preventing member is installed at the other end inlet of the holder,
The separation preventing member,
A body having a through hole corresponding to the inlet of the other end of the holder to surround the inlet and having an accommodation groove opened inwardly of the holder; And
It is composed of a locking projection which is inserted through the spring in the receiving groove and the end is elastically projected into the holder,
Shock absorber, characterized in that the plunger is formed with a notch in which the engaging projection is fitted. delete In claim 2,
Induced electromotive force generated in the coil is a shock absorber, characterized in that consumed as heat energy or light energy in the load.

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