KR20100129243A - Solenoid permanent magnets shock absorber - Google Patents

Abstract

PURPOSE: A solenoid permanent magnet shock absorber, which can be semi-permanently used at a low cost, is provided to improve damping efficiency by the magnetic force of a solenoid magnet and the repulsion of a permanent magnet without any other energy. CONSTITUTION: A solenoid permanent magnet shock absorber comprises a solenoid(12), a permanent magnet(13) and a piston(9). The permanent magnet is inserted in the inner bore core of the solenoid. The piston is fixed to a cylinder(6) and a permanent magnet supporting plate(2). The permanent magnet is installed on the top of the piston.

Description

Solenoid Permanent Magnets Shock Absorber

The present invention relates to a solenoid permanent magnet shock absorber, and more particularly

When the same pole is close together without any energy supply, the repulsive force of the permanent magnet that pushes itself out and the momentary strong magnetic force of the solenoid electromagnet by direct current electric current are pushed the same pole by constructing the solenoid pole in the same way as the permanent magnet pole. It consists of a repulsive force effect, and the lower one direction relates to a solenoid permanent magnet shock absorber that cushions the impact by suppressing the intersection of the cylinder and the piston by using a magnetic force effect that attracts magnetizable materials such as iron.

 In the past, the shock absorber was developed from a single cylinder type into which an oil was inserted, and a double cylinder type, and has been changed from oil, gas, and air.

However, the problem is that the bubble phenomenon (vaporization), which is a disadvantage of the conventional double tube type twin tube shock absorber, occurs frequently, and thus the continuous damping pressure cannot be maintained.

Single-cylinder <MONO TUBE> gas shock absorber has good performance, but the price is high, so there is a problem that it is not applicable to low-cost general vehicles, and it is necessary to replace it with gas leakage due to aging of piston.

Existing shock absorbers such as oil and gas should be replaced due to unexpected momentary pressure, overload, etc.

It is urgent to develop alternatives that do not require finite resources of oil and gas.

The problem to be solved by the present invention is to meet the required force by using the magnetic force of the solenoid electromagnet generating instantaneous strong magnetic force by applying the repulsive force of the permanent magnet to push itself and direct current when the same pole close close without any energy supply The aim is to provide a solenoid permanent magnet shock absorber with a shock-absorbing system.

Absorption type <TWIN TUBE> The shortcomings of the shock absorber, bubble phenomenon occurs frequently, which prevents the continuous damping pressure from being maintained. To provide the same effect and softness as the continuous damping pressure.

Single cylinder type <MONO TUBE> gas shock absorber has good performance, but the price is high and the price is low and the application rate of general vehicles is low, and it is necessary to replace it with oil and gas leaks due to the aging of the piston, but the present invention is low price It is applicable to general automobiles and various fields, and also provides effects that can be used semi-permanently.

Another problem to be solved of the present invention is that it is possible to use semi-permanently by using the permanent magnet repulsive force generated by the proximity of two permanent magnets without using finite energy without using the existing finite energy oil, gas, etc. To provide.

By applying the solenoid electromagnet, it is possible to easily adjust the strength of the repulsive force, and to apply it to various parts according to the required shock absorbing applications.

Means to be solved of the present invention is that the opposite surface between the two permanent magnets are composed of the same pole so that the upper permanent magnet and the permanent magnet in the lower close proximity when the piston and the cylinder serving as the piston crosses by impact When it is pushed by repulsing force to cushion the shock and when a stronger repulsion force is required due to a sudden big shock or a large force, one of the two directions of the solenoid is applied by applying electricity by induction to the solenoid composed of the same pole as the permanent magnet. The magnetic force of the solenoid electromagnet generates the same repulsive force as the permanent magnet, and the magnetic force in the other direction holds the inner cylinder and the piston under the influence of the magnetic force, thereby suppressing the intersection of the cylinder and the piston, and the solenoid is adjusted as required. This is possible to achieve the effect of shock absorption as required

The solenoid permanent magnet shock absorber of the present invention is equipped with a cylinder made of iron on the outside of the solenoid to block the magnetic force of the internal permanent magnet in order to shield the internal magnetic force so as not to be affected by the external magnetic material.

To set the pole of the solenoid magnetic force and the pole of the solenoid magnetic force and the permanent magnet in the same direction can be set the same as the pole of the permanent magnet by changing the + and-of the direct current applied to the solenoid.

The solenoid permanent magnet shock absorber of the present invention is nature-friendly and requires no energy and uses the repulsive force of the permanent magnet that pushes itself when the same pole is in close proximity, and applies the direct electric current to the solenoid when a greater force is required. Magnetic force is generated from the solenoid electromagnet that can adjust the force of the force, and it is effective to generate the repulsion force as required by the more powerful repulsive force.The solenoid is calculated and manufactured by the required force.

It does not use finite energy to use the repulsive force of the permanent magnet that pushes itself when the same pole is close without needing any energy, and it is very innovative useful that can be used semi-permanently for energy saving, nature-friendly, environmental protection, and low production cost It is an invention

It has a wide range of applications for shock absorbers, and can be used from small to large and can be used worldwide.

Substituting finite energy can save considerable cost in various areas

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The detailed description for the practice of the present invention will be described with reference to the accompanying drawings.
Figure 1 is an exploded view showing the configuration of the solenoid permanent magnet shock absorber of the present invention
Figure 2 is a rear view of the solenoid permanent magnet shock absorber of the present invention
Figure 3 is a perspective view of the solenoid permanent magnet shock absorber of the present invention
Figure 4 is a front view of the solenoid permanent magnet shock absorber of the present invention
5 is a plan view of the solenoid permanent magnet shock absorber of the present invention
Figure 6 is a left side of the solenoid permanent magnet shock absorber of the present invention
7 is a right side view of the solenoid permanent magnet shock absorber of the present invention.

Existing general shock absorber buffers the shock using oil, gas, etc. However, the present invention solenoid permanent magnet shock absorber does not use any finite energy and does not require any energy, the permanent magnet that pushes itself when the same pole is near (11) , (13) It is characterized by the excellent solution to the resource saving required for the general shock absorber by using the repulsive force of the permanent magnet without the use of additional energy due to the repulsive force.

The present invention does not maintain the continuous damping pressure because the bubble phenomenon (vaporization), which is a disadvantage of the abdominal pain type <TWIN TUBE> shock absorber, occurs from time to time, but the permanent magnet of (11) and (13) It is characterized by its excellent cushioning method, which is composed of a breakthrough method that creates softness by the elasticity of magnetic force as well as the effect of continuous damping pressure by the repulsive action of repulsive elasticity.

According to the present invention, unlike the general shock absorber, the long piston (9) capable of reciprocating the piston rod and the piston function without using the piston of the short contact type inside the cylinder is large by reciprocating the inside of the cylinder (6-1). Even if the force is transmitted or the solenoid permanent magnet shock absorber of the present invention is inclined, the reciprocating motion is perfectly performed without twisting or tilting.

The present invention adds softness with little impact absorption with additional repulsion by the permanent magnet 17 at the bottom of the piston 9 and the permanent magnet 17-1 at the lower end of the insertion part of the cylinder 6-1.

In the present invention, the effect of the magnetic force of the solenoid (12) electromagnets occurs at the same time two effects are very useful, one of the upper direction of the two solenoid (12) is composed of the same pole as the (11) (13) permanent magnet The repulsive force is generated and the repulsive force of the permanent magnet 13 is added to the repulsive force generated by the solenoid 12 to buffer a stronger impact. The magnetic force in the other direction below the solenoid 12 is the cylinder 6 and the cylinder ( 6) The effect of holding the piston (9) inserted into the effect of the magnetic force to reduce the intersection distance between the cylinder (6) and the piston (9) is an excellent method with two effects to enable strong shock absorption to be

(11), (13) Permanent magnet's elasticity, unlike spring, has good elasticity due to the repulsive force of repulsive force.

Therefore, there is a cost to make energy such as oil and gas, which is a finite energy used for the existing shock absorber, and there are various kinds of rear effects generated in the existing shock absorber such as environmental pollution, such as waste water and air pollution. It solves the following problems and developed a permanent magnet shock absorber using solenoid repulsive force and solenoid which pushes self-extracted permanent magnet when close to the same pole without using finite energy and without any energy.

The configuration of the present invention is composed of a cylinder housing, a cylinder, a solenoid, a piston rod and a piston serving as a piston, a permanent magnet, a magnetic shield cylinder, a spring and the like.

 In the solenoid permanent magnet shock absorber shown in Figs. 1 to 7 of the present invention,

 Permanent magnets (11) and permanent magnets (13) are the same as the poles of the surface facing each other

 The permanent magnet 13 is inserted into the solenoid 12 and the upper magnetic pole of the permanent magnet 13 and the upper magnetic force of the solenoid 12 are configured to be the same pole.

 In the solenoid permanent magnet shock absorber of the present invention, when the piston 9, which serves as a piston rod and the piston, and the cylinder 6 cross each other by being impacted from the outside, the primary shock is received by the outer spring 1 and at this time, the outer spring 1 (11), (13) When the repulsion between permanent magnets occurs, the repulsive force of the permanent magnet absorbs the shock, and the solenoid (12) In order to shield the magnetic force of the strong permanent magnets of (11) and (13), iron 16 is constructed and mounted outside the solenoid 12.

The permanent magnet (17) is installed at the bottom end of the piston (9), which serves as a piston rod and the piston, and the same side facing the permanent magnet (17-1) is installed at the bottom of the cylinder (6-1) and the piston (9). The second additional repulsion is generated to absorb and cushion the small impact, and the magnetic shielding is configured by the cylinder housing 4.

Narrower spacing of the return springs 15 and the piston 9 and the cylinder 6 to absorb shocks of greater force than those of the permanent magnets of (11) and (13) combined, or to absorb sudden strong shocks. By applying electricity to the solenoid 12 by sensing the sensor 14 mounted on the return spring 15 that senses the speed at which the crosses each other, the magnetic force is generated to generate a strong repulsive force with the permanent magnet 11 of the upper part. To absorb

The return spring 15 helps to return the distance between the piston rod and the piston 9 and the cylinder 6 which cross the piston to the original position.

By forming the upper fixing part (7) and the lower fixing part (5) for fixing the solenoid permanent magnet shock absorber of the present invention, it is possible to mount the present invention solenoid permanent magnet shock absorber in the part that needs shock mitigation.

The external spring (1) is mounted between the upper fixing plate (8) and the outer fixing plate (1) and the lower fixing plate (3) so as to absorb shocks.

1: external spring
2,10: permanent magnet fixing plate
3: lower spring fixing plate 8: upper spring fixing plate
4: cylinder housing
5: Shock absorber lower fixing holder 7: Shock absorber upper fixing part bolt
6: Cylinder 6-1: Piston insertion hole inside cylinder
9: piston with piston rod and piston
11: upper permanent magnet 13: lower permanent magnet
12: solenoid
14: Steamed
15: return spring
16: magnetic shield cylinder
17: permanent magnet 17-1: permanent magnet

Claims (3)

In the solenoid permanent magnet shock absorber that can absorb stronger impacts by the repulsive force of (11) and (13) permanent magnets and the solenoid (12) electromagnets that push themselves when the same pole is close together without any energy.
Insert the permanent magnet (13) into the solenoid (12) the inner core and the solenoid (12) electromagnet magnetic force of the upper and lower directions of the upper magnetic pole and the permanent magnet (13) of the upper surface of the pole composed of the same pole (6) ) And the permanent magnet support plate (2), and the permanent magnet (11) consisting of the same pole facing the lower permanent magnet (13) mounted on the piston (9), (11), (13) The return spring 15 is installed between the permanent magnets of the piston to help return the distance between the piston 9 and the cylinder 6-1 to their original positions. The permanent magnet is mounted at the lower end of the piston 9. (17) and the permanent magnet (17-1) mounted to the lower portion of the inner cylinder 6-1 to form a second repulsive force to further cushion the small impact, the outer cylinder housing (4) (17), (17-1) It is composed of the magnetic shielding effect of the permanent magnet, and the magnetic shielding cylinder 16 made of iron is mounted outside the solenoid 12. (11), (13) A solenoid characterized by the function that the permanent magnet magnetic shock absorber is shielded from the outside to protect the outside of the permanent magnet shock absorber from magnetic force, and the shock is absorbed by the repulsive force of the permanent magnet and the solenoid electromagnet magnetic force. Permanent Magnet Shock Absorber
Claim 1
When the piston (9) and the cylinder (6-1) rapidly cross the shock-absorbing environment, which requires more force than the self-pushing permanent magnet's own repulsion when the same pole is in close proximity without any energy, When the repulsive force required for stronger shock dampening is required, a signal of the sensor 14 response mounted on the return spring 15 which senses the speed and the distance is applied to the solenoid 12 composed of the same pole as the permanent magnet 13. When the magnetic force is generated, the upper direction of the solenoid (12) two directions of the magnetism of the solenoid (12) and the upper permanent magnet (11) and the repulsive force generated and the solenoid (12) downward magnetic force to the pole magnetic The effect of suppressing the intersection of the cylinder (6) and the piston (9) by the effect of pulling by the magnetic force irrespective of the impact of a large force that requires a larger force repulsion than the repulsion of the permanent magnet itself Of the permanent magnet solenoid shock absorber
In claim 1
The permanent magnet (17) is mounted at the lower end of the piston (9), and the permanent magnet (17-1) at the bottom of the cylinder insertion hole (6-1) faces the permanent magnet (17) at the bottom of the piston (9). Solenoid Permanent Magnet Shock Absorber, constructed with identical poles and provides a soft secondary shock buffer with second repulsion

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