KR20130054556A - Insulator strut - Google Patents

Abstract

PURPOSE: An insulator strut is provided to prevent vibration from being transmitted to a vehicle body by damping the vibration in a frequency band by a mass. CONSTITUTION: An insulator strut(100) comprises an upper plate(110), an upper cup(120), a damper rubber(190), a bearing plate(140), an insulator rubber(130), a spring pad(150), a low cup(125), and a rod(180). The insulator rubber touches the inner surface of the bearing plate and the outer surface of the upper cup and is fixed to the upper plate and the bearing plate. The spring pad includes a bearing(141) on the bearing plate and touches the outer surface in order to slide. The low cup is fixed to the upper cup. The rod of a shock absorber is fixed to the low cup by including a bumper stopper(160) and a dust cover(170) inside the low cup and penetrates the bumper stopper.

Description

Insulator strut

The present invention relates to an insulator strut, and more particularly, to an insulator strut having a dynamic damping function.

The insulator strut is interposed between the vehicle body and the wheel (shock absorber) to insulate transmission of vibration generated from the wheel to the vehicle body.

In the insulator strut, as shown in FIG. 1, an upper plate 1 is mounted to a vehicle body, and a low plate 2 for transmitting an impact from a bearing case 4 to a lower portion of the upper plate 1 is provided. Is installed. An insulator rubber 3 is disposed between the upper plate 1 and the low plate 2 to insulate vibration and impact. The piston rod 5 is mounted to the central portion of the insulator rubber 3 via a metal core, and the bearing case 4 is disposed under the low plate 2 while the piston rod 5 is penetrated. Is placed. The bearing 11 is mounted inside the bearing case 4 so that the piston can rotate when the wheel is steered.

A spring seat 8 supporting the spring 7 is mounted below the bearing 11, and the bumper cup 9 is mounted below the bearing case 4 in a state where the piston rod 5 penetrates. do. The dust cover 6 is mounted inside the bumper cup 9 in a state in which the piston rod 5 is inserted to block foreign substances from the outside to protect the internal components. The bumper stopper 10 is mounted in the dust cover 6.

The insulator strut having the structure as described above insulates vibration transmitted through the wheel and the shock absorber rod only by the insulator rubber 3, so that the vibration of the frequency band which may be a problem is still transmitted to the vehicle body. Have.

The present invention has a problem in solving the above problems.

The present invention replaces the low plate and the bumper cup with one low cup, circumscribes the bearing plate to the insulator rubber interposed between the low cup and the upper plate, and cup-shaped cores of a metal material for coupling the insulator rubber and the rod. By making a portion of the core protrudes out of the insulator rubber, the proximal end of the damper rubber is bonded to the protruding portion of the core to stand, and the mass is attached to the projected portion of the damper rubber can be solved. have.

The present invention by adding a simple configuration, and to attenuate the vibrations of frequency bands which can be problematic causing the mass (damping) it is possible to prevent the vibrations are transmitted to the vehicle body.

1 is a conceptual diagram of a conventional insulator strut,
2 is a conceptual diagram of an insulator strut of an embodiment of the present invention;
3 is an enlarged view showing the coupling between the mass and the upper cup of FIG. 2, and
4 is a plan view illustrating a flange portion and a mass of the upper cup of FIG. 2.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to FIGS.

In FIG. 2, the insulator strut of this embodiment is indicated by the reference numeral 100.

The insulator strut 100 includes an upper plate 110 mounted on a vehicle body not shown by the fastening means 112; An upper cup 120 penetrating through the tubular portion 110a defining a through hole 111 formed in the center of the upper plate 110 and spaced radially inwardly from an inner circumferential surface of the tubular portion 110a; A crown-shaped damper rubber 190 which is integrally fixed to the upper surface of the upper flange portion 122 of the upper cup 120 by a vulcanization process; A bearing plate 140 spaced radially outward with respect to the tubular portion 110a of the upper plate 110 and spaced downward in a vertical direction with respect to a horizontal portion of the upper plate 110; The upper plate 110 is entirely enclosed, and in the state in which the bearing plate 140 is inscribed, the upper plate 110 is fixed to the upper plate 110 and the bearing plate 140 by a vulcanization process, and the upper flange portion ( An insulator rubber (130) external to the upper cup (120) except for 122; A spring pad 150 externally slidably movable through a bearing 141 on the bearing plate 140; The low cup 125 fixed to the upper cup 120 by welding or curling in a state where the through hole O2 having the same center as the center of the center through hole O1 formed at the bottom of the upper cup 120 is formed. ); And the fastening means 113 penetrating the through holes O1 and 02 in a state where the bumper stopper 160 and the dust cover 170 are interposed in the low cup 125 to the low cup 125. It includes a shock absorber rod 180 that is fixed and penetrates the bumper stopper 160.

The lower end of the insulator rubber 130 is in contact with the upper surface of the low cup 125, and the upper end of the insulator rubber 130 is in contact with the bottom surface of the upper flange 122 of the upper cup 120. .

The inner receptacle of the upper cup 120 is exposed upward, and the inner receptacle of the low cup 125 is exposed downward.

The damper rubber 190 is vulcanized to the upper flange portion 122 of the upper cup 120 to mount the mass 180 spaced upwardly with respect to the upper flange portion 122 of the upper cup 120. A ring formed in the middle of the ring-shaped portion 191 fixed by the process, a plurality of protrusions 193 projecting upwardly spaced apart at regular intervals in the circumferential direction from the upper surface of the ring-shaped portion 191, and the plurality of protrusions 193 The neck 194 and the enlarged neck 195 are included.

The mass 180 has a ring shape and includes a through hole 181 formed at a predetermined interval in the circumferential direction. The inner peripheral surface of the plurality of through-holes 181 by passing through the rubber projection 193 to the plurality of through holes 181 is to be fitted with the rubber projections (133) and the formal, the rubber projections (193) The shaft diameter portion 194 and the enlarged diameter portion 195 of the shaft diameter portion 182 and the enlarged diameter portion 182 is formed, the mass 180 is the rubber protrusion 133 It is fitted in shape and fixed.

The insulator strut 100 configured as described above has lowered the manufacturing cost by replacing the existing low plate and the existing bumper cup with one low cup, and the low cup is fixed in the conventional rod flow to deform the bumper, In order to prevent noise from being generated by the friction, the low-cups are flowed together during the rod flow to suppress the deformation and the friction of the bumper, thereby preventing the occurrence of noise, and the vibration of a specific frequency band by the mass and the rubber protrusion Can be attenuated.

In the above embodiment, the upper cup 120 except for the upper flange portion 122 is described as being directly inscribed in the insulator rubber 130, but the inner cup 195 is interposed in the insulator rubber 130. It can be inscribed, and, here, the inner wave profile 195 may be firmly secured to the rubber insulator 130, along with the bearing plate 140 and the upper plate 110 by the vulcanization process.

The inner pipe 195 is fitted to the upper cup 120 when the upper cup 120 is assembled to the upper plate 110, thereby coupling between the insulator rubber 130 and the upper cup 120. It is preferable from the viewpoint of preventing damage to the insulator rubber 130 at the time.

100; Insulator strut, 110; Upper plate, 120; upper cup, 125; Low cup, 130; Insulator rubber, 140; Bearing plate, 150; Spring pads, 160; Bumper stopper, 170; Dust cover, 180; Rod, 190; Damper rubber

Claims (4)

An upper plate 110 to be mounted to the vehicle body by the fastening means 112;
An upper cup 120 penetrating through the tubular portion 110a defining a through hole 111 formed in the center of the upper plate 110 and spaced radially inwardly from an inner circumferential surface of the tubular portion 110a;
A damper rubber (190) integrally fixed to the upper surface of the upper flange portion (122) of the upper cup (120) by a vulcanization process;
A bearing plate 140 spaced radially outward with respect to the tubular portion 110a of the upper plate 110 and spaced downward in a vertical direction with respect to a horizontal portion of the upper plate 110;
The upper plate 110 is entirely enclosed, and in the state in which the bearing plate 140 is inscribed, the upper plate 110 is fixed to the upper plate 110 and the bearing plate 140 by a vulcanization process, and the upper flange portion ( An insulator rubber (130) external to the upper cup (120) except for 122;
A spring pad 150 externally slidably movable through a bearing 141 on the bearing plate 140;
A low cup 125 fixed to the upper cup 120 in a state where the through hole O2 having the same center as the center of the center through hole O1 formed at the bottom of the upper cup 120 is formed; And
The low cup 125 is fixed to the low cup 125 by the fastening means 113 penetrating the through holes O1 and 02 in the state where the bumper stopper 160 and the dust cover 170 are interposed therebetween. And a rod 180 of the shock absorber penetrating the bumper stopper 160,
The damper rubber (190) is insulated strut, characterized in that the mass 180 is mounted in a state spaced apart upwardly with respect to the upper flange portion 122 of the upper cup (12). The method of claim 1,
The lower end of the insulator rubber 130 is in contact with the upper surface of the low cup 125, the upper end of the insulator rubber 130 is in contact with the bottom surface of the upper flange portion 122 of the upper cup 120 ,
An insulator strut, characterized in that the inner receiving portion of the upper cup 120 is exposed upward, and the inner receiving portion of the low cup 125 is exposed downward. 3. The method according to claim 1 or 2,
The damper rubber 190 is spaced apart at a predetermined interval in a circumferential direction from an upper surface of the ring-shaped portion 191 and the ring-shaped portion 191 fixed to the upper flange portion 122 of the upper cup 120 by a vulcanization process. It includes a plurality of protruding protrusions 193, and the shaft diameter portion 194 and the enlarged diameter portion 195 formed in the middle of the plurality of protrusions 193,
The mass 180 has a ring shape, and includes a through hole 181 formed at a predetermined interval in the circumferential direction.
The rubber protrusions 193 may be formed in the inner circumferential surfaces of the plurality of through holes 181 to pass through the rubber protrusions 193 so that the plurality of through holes 181 may be fitted into the rubber protrusions 193. Insulator strut, characterized in that the shaft diameter portion 194 and the enlarged diameter portion 195 of the shaft diameter portion 182 and the enlarged diameter portion 182 is formed. The method of claim 3, wherein
The upper cup 120 except for the upper flange 122 is inscribed in the insulator rubber 130 via an internal pipe 195.
The inner pipe (195) is insulator strut, characterized in that fixed to the insulator rubber (130) together with the bearing plate (140) and the upper plate (110) by a vulcanization process.

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