KR20090043278A - Damper device - Google Patents

Abstract

The present invention relates to a damper device, and even if the damping speed is constant, the damping force is generated according to the magnitude of the amplitude, so that the damping range can be extended widely and widely applied, and the structure is simple and simple to manufacture. In addition, the size of the gap with the orifice hole is variable according to the magnitude of the amplitude applied to the piston in which the plurality of orifice holes are formed so as to be inexpensively configured, and a control plate for adjusting the total area of the orifice hole is provided.

Throttle, orifice hole, spring

Description

Damper device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a damper device, and more particularly, to a damper device capable of appropriately adjusting the damping force by varying the flow rate of the damping fluid passing through the orifice hole according to the magnitude of the amplitude applied to the damper device.

In general, damper devices are widely used to appropriately absorb and reduce vibrations and shocks in vehicle suspension systems.

1 shows a cross section of a damper device according to the prior art, in which an inner cylinder cylinder 2 having a diameter smaller than that of the outer cylinder cylinder is inserted into the outer cylinder cylinder 1, and a piston 3 is inserted into the inner cylinder cylinder 2. The piston rod 4 is integrally connected to one end of the piston 3 while the other end of the piston rod 4 is connected to the inner cylinder and the outer cylinder. It penetrates and protrudes outward.

In addition, a damping fluid 5 is filled in the inner cylinder cylinder 2, and a chamber is formed between the inner cylinder cylinder and the outer cylinder, and the piston 3 includes a plurality of orifice holes having a predetermined diameter. When the piston moves up and down inside the inner cylinder, the damping fluid passes through the orifice holes and absorbs and reduces vibration and shock appropriately with the damping force generated at that time.

By the way, the conventional damper device as described above is generated so that the damping force is proportional to the damper speed, but has a characteristic independent of the magnitude of the amplitude. That is, when the damping speed is constant, a constant damping force is generated regardless of the amplitude, so that there is a drawback of a narrow attenuation range.

Accordingly, the present invention has been made in view of the above circumstances, and even though the damping speed is constant, the damping force is generated differently according to the magnitude of the amplitude, so that the damping range can be extended and applied widely and widely, and the structure is simple. The purpose is to provide a damper device that can be easily manufactured as well as low cost configuration.

The present invention for achieving the above object, the size of the gap with the orifice hole is variable according to the magnitude of the amplitude applied to the piston having a plurality of orifice holes is provided with a control plate for adjusting the total area of the orifice hole have.

Preferably the piston is installed on the outer circumferential surface of the piston rod so as to be movable along the longitudinal direction of the piston rod, the control plate is fitted to the outer circumference of the piston rod so as to be located above and below the piston, between the control plate and the piston A second spring ring is interposed.

Two spring seats are integrally formed in the piston rod at predetermined intervals, and a first spring having a spring stiffness smaller than the spring stiffness of the first spring is interposed between the spring seat and the adjustment plate.

As described above, according to the damper device according to the present invention, when the magnitude of the amplitude applied to the damper device is small, the area of the orifice hole is increased to generate a small damping force, and when the magnitude of the amplitude is large, the area of the orifice hole is reduced. By generating high damping force, the damping range can be extended for a certain damper speed, and can be widely used universally. Only the spring and the throttle plate are added, so the structure is simple and inexpensive.

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

2 is a cross-sectional view showing an operating state when a low amplitude is applied to the damper device according to the present invention, that is, the inner cylinder cylinder 2 having a smaller diameter than the outer cylinder cylinder is inserted into the outer cylinder cylinder 1. The piston 3 is inserted into the inner cylinder cylinder 2 so as to be movable along its longitudinal direction, and the piston 3 is fitted to the outer circumference of the piston rod 4 to be movable along the piston rod. It is mounted, one end of the piston rod (4) is formed to protrude to the outside through the inner cylinder and the outer cylinder.

A damping fluid 5 is filled in the inner cylinder cylinder 2, and a chamber is formed between the inner cylinder cylinder and the outer cylinder, and the piston 3 has a plurality of orifice holes having a predetermined diameter. 3a) is formed.

In addition, the spring seat 4a is formed to be integrally protruded from each of two upper and lower portions along the longitudinal direction of the piston rod 4, and two upper and lower first springs 6 are respectively inserted into the outer circumference of the piston rod. One end is supported by the spring seat, while the other end is seated and supported by two upper and lower control plates 7.

Two upper and lower second springs 8 are mounted between the two adjustment plates 6 and the piston 3 in the form of being fitted to the outer circumference of the piston rod, so that the piston is resilient by the two second springs. The two throttle plates are elastically supported by two upper and lower first springs.

The spring stiffness of the first spring 6 is smaller than the spring stiffness of the second spring 8.

Accordingly, when a low displacement amplitude is applied to the damper device, the piston 3 is supported by the two second springs 8 up and down, and the upper chamber through the orifice hole of the piston is the same as the conventional damper device. When the damping fluid of the lower chamber flows with each other to generate a low damping force, while a large displacement amplitude is applied to the damper device, as shown in FIG. 3, the first spring is maximally compressed and the second spring is simultaneously compressed. The gap between the control plate and the piston is reduced to a minimum, and as a result, the area of the piston is covered by the area of the control plate as shown in FIG. The flow rate of the fluid is reduced, resulting in a high damping force.

That is, the damping force is small at low displacement amplitude while the damping force is large at large displacement amplitude for the same damper speed, so the range of damping force is extended and can be widely applied universally. Since complicated electronic devices are unnecessary, they can be configured at low cost.

1 is a cross-sectional view of a damper device according to the prior art,

2 is a cross-sectional view illustrating an operating state at the time of low displacement amplitude of the damper device according to the present invention;

3 is a cross-sectional view illustrating an operating state at the time of large displacement amplitude of the damper device according to the present invention;

4 is a cross-sectional view taken along the line A-A of FIG.

<Description of Symbols for Main Parts of Drawings>

1-outer cylinder 2-inner cylinder

3-piston 4-piston rod

5- Damping Fluid 6-First Spring

7-throttle 8-second spring

Claims (3)

Control plate 7 for adjusting the total area of the orifice hole (3a) by varying the size of the gap with the orifice hole (3a) according to the magnitude of the amplitude applied to the piston (3) having a plurality of orifice holes (3a) Damper device with). The piston according to claim 1, wherein the piston (3) is installed on the outer circumferential surface of the piston rod (4) so as to be movable along the longitudinal direction of the piston rod, and the control plate (7) is located above and below the piston (3). The damper device is fitted to the outer periphery of the rod, the second spring (8) is interposed between the control plate (7) and the piston. The method of claim 2, wherein the piston rod (4) is formed integrally with two spring seat (4a) at a predetermined interval, between the spring seat and the adjustment plate has a spring rigidity less than the spring stiffness of the first spring Damper device, characterized in that the first spring (6) is interposed.

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