KR20150018009A - Variable hydraulic stopper - Google Patents

Abstract

The present invention relates to a variable hydraulic stopper which can easily control hydraulic pressure. The variable hydraulic stopper for a shock absorber comprises: an inner shell where a working fluid is filled inside a hydraulic chamber therein; passages each penetrating both sides of the inner shell; an outer shell formed by encompassing an external side of the inner shell for an outer chamber to be formed between the inner and outer shells; and a hydraulic pressure controller each installed on both sides of the outer shell to be able to control an area of the passages.

Description

Variable Hydraulic Stopper {VARIABLE HYDRAULIC STOPPER}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hydraulic stopper, and more particularly, to a variable hydraulic stopper capable of easily adjusting the hydraulic pressure.

Generally, the shock absorber includes a cylinder filled with a working fluid, a piston rod having one end located inside the cylinder and the other end located outside the cylinder, and a piston valve mounted on one end of the piston rod and reciprocating in the cylinder do.

The cylinder interior comprises first and second chambers filled with fluid. The first and second chambers are separated by a piston valve.

Such a conventional shock absorber generates damping force by valve means provided on the piston valve when the piston valve mounted at the end of the piston rod reciprocates in a cylinder filled with fluid.

However, when a sudden large shock is applied to the vehicle and the shock absorber described above is extended to the maximum length, the piston rod of the shock absorber is maximally disengaged from the cylinder, and the upper surface of the piston valve may collide with the load guide installed on the upper portion of the cylinder . Therefore, a hydraulic stopper is installed on the piston rod to prevent the piston valve from colliding with the rod guide.

Korean Patent Laid-Open Publication No. 10-2010-0072727 discloses a related art related to a conventional stopper of a shock absorber.

However, such a conventional shock absorber implements a stopper function by generating a hydraulic pressure in a hydraulic chamber. If the hydraulic pressure generated at this time is too large or too small, the abnormal behavior of the vehicle occurs, thereby adversely affecting the ride feeling.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a variable-type hydraulic stopper that can easily adjust a hydraulic pressure in a hydraulic chamber to a simple structure.

A variable hydraulic pressure stopper according to an embodiment of the present invention is a variable hydraulic pressure stopper of a shock absorber, the variable hydraulic pressure stopper comprising: an inner cylinder in which a working fluid is filled in an inner hydraulic chamber; a flow passage passing through both sides of the inner cylinder; An outer cylinder formed to surround the outer cylinder so as to form an outer chamber, and a hydraulic regulator provided on both sides of the outer cylinder to adjust an area of the oil passage.

And an inner tube fitted in the upper side of the inner cylinder and forming the hydraulic chamber therein.

And an inclined surface inclining downwardly from the lower end of the inner tube toward the lower end of the inner tube.

And the flow path penetrates the inner tube and the inner tube together.

Wherein the flow path is formed in a straight line from the inner circumference of the inner tube, the outer end of the inner flow path has an inner flow path whose length is reduced, and an inner flow path continuously extending from the outer end of the inner flow path to the inner flow path, And the inclined outer passage is formed so as to be long.

And the hydraulic regulator is installed so as to be tightened and bolted to the outer cylinder by bolting.

And an end of the oil pressure regulator is formed to correspond to the oil passage so as to be inserted into the oil passage.

As described above, according to the variable-type hydraulic pressure stopper according to the present invention, since the hydraulic pressure regulator capable of adjusting the flow passage area of the hydraulic chamber inside the inner cylinder from the outside of the cylinder can be provided on the outer cylinder to vary the hydraulic pressure, There is an effect that can be adjusted.

As described above, the variable-type hydraulic stopper according to the present invention has an advantage of being easily manufactured with a simple structure.

1 is a schematic view showing a variable-type hydraulic stopper of a shock absorber according to an embodiment of the present invention.
FIG. 2 is a state diagram showing the use of the hydraulic pressure regulator in FIG. 1 to maximize the hydraulic pressure.
FIG. 3 is a state diagram illustrating the use of the oil pressure regulator in FIG. 1 to reduce hydraulic pressure to a minimum.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

1 is a schematic view showing a variable-type hydraulic stopper of a shock absorber according to an embodiment of the present invention.

1, a variable-type hydraulic stopper according to an embodiment of the present invention includes an inner cylinder 100 in which a working fluid is filled in an inner hydraulic chamber H, An outer cylinder 300 formed to surround the inner cylinder 100 so as to form an outer chamber O between the outer cylinder 300 and the inner cylinder 100, And a hydraulic regulator 400 for adjusting the area of the hydraulic cylinder 200.

And an inner tube 110 fitted into the upper side of the inner cylinder 100 to form the hydraulic chamber H therein. The inner tube 110 is formed in such a manner that its inner periphery is in close contact with the outer periphery of the auxiliary piston 11 formed on the outer circumferential surface of the piston rod 10 which passes through the inner tube 110 and is piston- And generates a hydraulic pressure when passing through the inner tube 110 to serve as a stopper. The inner tube 110 is formed with a locking protrusion 111 protruding outward at its upper end so that the locking protrusion 111 is caught on the upper end of the inner tube 100. The inner tube 110 includes an inclined surface 113 which is inclined so that the inner circumferential length of the inner tube 110 becomes lower toward the lower side of the inner circumference of the lower tube 110, thereby preventing the hydraulic pressure from being abruptly increased upon introduction of the auxiliary piston 11. On the other hand, if the hydraulic pressure generated when the auxiliary piston 11 passes through the inner tube 110 is too large or too small, the abnormal behavior of the vehicle is generated and the ride feeling is adversely affected, You need to adjust.

The oil passage 200 as one means for controlling the oil pressure of the inner tube 110 or the hydraulic chamber H is formed to penetrate the inner tube 100 and the inner tube 110, And communicates the hydraulic chamber (H) and the outer chamber (O). 3, the flow path 200 is formed in a straight line from the inner periphery of the inner tube 110 to the outside, and the outer end 211 has an inner flow path 210 in which the length of the inner flow path 210 is reduced, The end 221 is formed to extend continuously from the outer end 211 of the outer end 211 of the body 210 so that the length of the end 221 is longer than the length of the outer end 211, ).

FIG. 2 is an explanatory view showing a state in which the hydraulic pressure is maximized by using a hydraulic pressure regulator in FIG. 1, and FIG. 3 is a state diagram showing a state in which the hydraulic pressure is reduced to a minimum by using a hydraulic regulator in FIG.

2 through 3, the hydraulic regulator 400, which is another means for controlling the hydraulic pressure in the inner tube 110, that is, the hydraulic chamber H, passes through the outer cylinder 300, And may be a bolt that can be tightened and loosened by bolting to the base 300. However, the hydraulic regulator 400 is not limited to a bolt, and may be modified by a person skilled in the art if the hydraulic regulator 400 passes through the outer cylinder 300 and is tightened to the outer cylinder 300. The end 410 of the hydraulic regulator 400 is formed to correspond to the flow path 200 to be inserted into the flow path 200. That is, the end 410 of the hydraulic regulator 400 is inclined so that the length of the outer periphery of the hydraulic regulator 400 is shorter than that of the other end of the hydraulic regulator 400 toward the end 410. When the end portion 410 is inserted into the outer flow path 220, Tight structure. Meanwhile, a sealing process may be performed between the hydraulic regulator 400 and the outer cylinder 300 to prevent the fluid from leaking. 2, when the end 410 of the oil pressure regulator 400 is brought into tight contact with the oil passage 200, the oil pressure regulator 400 is operated so that the oil pressure of the oil pressure chamber H When the end 410 of the hydraulic regulator 400 is released from the flow path 200 by releasing the hydraulic regulator 400 with reference to FIG. 3, The hydraulic chamber H moves to the outer chamber O so that the hydraulic pressure of the hydraulic chamber H is minimized. As the distance between the end 410 of the hydraulic regulator 400 and the flow path 200 is adjusted to adjust the area size of the flow path 200, It is easy to adjust between the minimum hydraulic pressure.

As described above, according to the variable-type hydraulic pressure stopper according to the present invention, since the hydraulic pressure regulator capable of adjusting the flow passage area of the hydraulic chamber inside the inner cylinder from the outside of the cylinder can be provided on the outer cylinder to vary the hydraulic pressure, It has the effect of making it easy to adjust, and it is easy to make it with simple structure.

Although the present invention has been described with reference to the preferred embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the following claims. It can be understood that

10: piston rod 11: auxiliary piston
100: inner tube 110: inner tube
111: Engaging jaw 200: Euro
210: inner side flow path 211: outer side
220: outer flow path 221: end
300: Outer cylinder 400: Hydraulic regulator
410: Tip H: Hydraulic chamber
O: outer chamber

Claims (7)

In the variable-type hydraulic stopper of the shock absorber,
An inner cylinder in which a hydraulic fluid is filled in an inner hydraulic chamber;
An oil passage passing through both sides of the inner cylinder;
An outer tube which is formed to surround an outer side of the inner cylinder so that an outer chamber is formed between the inner passages; And
And a hydraulic regulator provided on both sides of the outer cylinder to adjust the area of the oil passage. The method according to claim 1,
And an inner tube fitted in the upper side of the inner cylinder and forming the hydraulic chamber therein. The method of claim 2,
A protrusion protruding outward from an upper end of the inner tube,
And an inclined surface which is inclined to a length of an inner circumference of the lower portion of the inner tube toward the lower side of the inner tube. The method of claim 2,
And the flow path passes through the inner tube and the inner tube together. [5] The apparatus according to claim 4,
An inner passage formed in a straight line from the inner periphery of the inner tube, the outer end having a reduced width,
And an outer flow path extending from the outer end of the inner flow passage so as to be continuous with the inner flow passage and having a length longer than a width of the outer end of the inner flow passage. The method according to claim 1 or 5,
Wherein the hydraulic pressure regulator is installed so as to be tightened and loosened by bolting to the outer cylinder. The method of claim 6,
And an end of the oil pressure regulator is formed to correspond to the oil passage so as to be inserted into the oil passage.

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