KR20170008943A - Insulator of suspension for vehicle and manufacture method of insulator - Google Patents

Abstract

The present invention relates to an insulator of a suspension for a vehicle and a manufacturing method thereof. An insulator bush (4) is formed to be divided into a base portion (4a), an outer circumferential portion (4b), and an inner circumferential portion (4c). The base portion (4a), the outer circumferential portion (4b), and the inner circumferential portion (4c) are configured to have different hardness.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an insulator for a vehicle suspension device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing an insulator and an insulator for a vehicle suspension device, and more particularly, to a method for manufacturing an insulator for a vehicle suspension device having an insulator bush having different rigidity for each part and a method for manufacturing the same.

Generally, a suspension of a vehicle is a device that prevents damage to a vehicle body or a cargo and improves ride comfort by preventing vibrations or shocks from the road surface from being transmitted directly to the vehicle body when the vehicle travels by connecting the axle and the vehicle body. Depending on the type of the front axle, it is classified as an axle suspension system and an independent suspension system.

Of these, the front suspension system of the independent suspension system divides the axle so that both wheels move independently of each other, so that even if an obstacle is caught or bumped on either side of the wheel, only the wheel moves up and down so that the vehicle body is not tilted. Types are as follows: a right-hand type, a leaf spring type in which a leaf spring is disposed horizontally to function as an upper arm or a lower suspension arm as a spring, and a trailing arm type in which a wheel is supported by one or two rearward- , And McPherson type using a strut with a coil spring.

Here, the McPherson suspension system consists of a strut with a shock absorber such as a steering knuckle, a coil spring, an insulator bush made of rubber, and a bump stopper. The mounting point of the shock absorber mounted on the vehicle body is high, It is characterized by its ability to disperse a wide range of impacts from the road surface with less change as it is accurately set.

Meanwhile, since the conventional insulator bush is formed of a single material, vibration and noise transmitted through the bump stopper, vibration and noise transmitted through the strut, and vibration and noise transmitted through the coil spring can not be effectively attenuated .

That is, vibration and noise transmitted through the bump stopper are high rigidity, high frequency vibration and noise, vibration and noise transmitted through the strut are low rigidity, low frequency vibration and noise, vibration transmitted through the coil spring and noise Are high rigidity, high frequency vibration and noise.

However, since the conventional insulator bush is formed of the same material having the same carbon content as the whole, there is a disadvantage that both kinds of vibration and noise transmitted through the bump stopper, the strut and the coil spring can not be effectively attenuated.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

Korean Patent Publication No. 10-2014-0127952

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an insulator for a vehicle suspension device having an insulator bush having different carbon contents for each part, and a method for manufacturing the same, so that the bush stopper, the strut and the coil spring It is an object of the present invention to effectively attenuate vibration and noise of different kinds, thereby improving the durability and the merchantability.

In order to achieve the above object, an insulator of a vehicle suspension system according to the present invention includes: an insulator bushing which is filled in a space between a bumper stopper plate, a strut mounting plate and an upper plate to attenuate vibration and noise; And a bearing which is installed to surround the bump stopper plate and contacts the insulator bush,

Wherein the insulator bushing has a base portion contacting the bearing while filling a space between the bump stopper plate and the upper plate; An outer circumferential portion connected to the outer side of the base portion and filling the space below the upper plate and contacting the upper side of the bearing; And an inner peripheral portion connected to the inner side portion of the base portion to fill a space between the bumper stopper plate and the strut mounting plate and the upper plate; And the base portion, the outer peripheral portion, and the inner peripheral portion have different hardness.

The hardness of the base portion, the outer peripheral portion and the inner peripheral portion is the largest at the base portion, the inner peripheral portion is the smallest, and the outer peripheral portion has a hardness between the base portion and the inner peripheral portion.

Wherein the carbon content of the base portion, the outer peripheral portion, and the inner peripheral portion are different from each other to have different hardnesses; The carbon content of the base portion is made highest to have the greatest hardness; The carbon content of the inner peripheral portion is minimized to have the smallest hardness; And the outer peripheral portion has a hardness between the base portion and the inner peripheral portion by using the carbon content between the base portion and the inner peripheral portion.

The bumper stopper plate, the strut mounting plate and the upper plate are integrally modularized by the insulator bush.

The bump stopper plate is installed to surround the upper end of the bump stopper; The strut mounting plate is fastened to the upper end of the strut through the upper end of the strut with the bump stopper plate while the strut mounting plate is superimposed on the bump stopper plate; Wherein the upper plate has an inner peripheral portion located in a space between the bump stopper plate and the strut mounting plate and an outer peripheral portion coupled to the vehicle body; A spring upper seat coupled to the bearing; And the upper end of the coil spring is supported on the spring upper seat.

A method of manufacturing an insulator of a vehicle suspension device according to the present invention comprises the steps of fixing an upper plate to a first injection mold and then injecting a first resin into a first injection space between a first injection mold and an upper plate, A first step of manufacturing a first semi-finished product in which an upper plate and an upper plate are combined; The first injection mold, the bumper stopper plate and the strut mounting plate are fixed to the second injection mold, and then the second resin is injected into the second injection space between the second injection mold and the first half mold, the bump stopper plate and the strut mounting plate, A second step of manufacturing a semi-finished product having the inner half of the insulator bush and the bum stopper plate and the strut mounting plate combined; And the third injection mold, and then the third resin is injected into the third injection space between the third injection mold and the second semi-finished product to form the insulator of the final finished product, which is the combination of the second semi-finished product and the base of the insulator bush, And a third step of fabricating the semiconductor device.

The insulator of the final product is a module product in which an insulator bush, an upper plate, a bump stopper plate, and a strut mounting plate, which are continuously connected to each other, are integrated.

Wherein the first resin, the second resin and the third resin have different carbon contents and have the highest carbon content of the third resin and the lowest carbon content of the second resin, And a carbon content between the resin and the second resin.

The insulator according to the present invention is characterized in that the insulator bush is divided into a base portion, an outer peripheral portion and an inner peripheral portion, and the hardness of the base portion, the outer peripheral portion, and the inner peripheral portion are made different from each other so that vibration, noise and strut transmitted through the bump stopper The vibration and noise and the vibration and noise transmitted through the coil spring can be effectively attenuated.

1 is a view for explaining an insulator of a vehicle suspension according to the present invention,
2 to 4 are views for explaining a method of manufacturing an insulator of a vehicular suspension device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an insulator for a vehicle suspension according to a preferred embodiment of the present invention and a method of manufacturing the same will be described with reference to the accompanying drawings.

The insulator of the vehicle suspension according to the present invention includes a bump stopper plate 1, a strut mounting plate 2, an upper plate 3, an insulator bush 4 and a bearing 5 as shown in Fig. 2 The bumper stopper plate 1, the strut mounting plate 2 and the upper plate 3 have a structure that is integrally modularized by the insulator bush 4.

The bump stopper plate 1 is installed so as to surround the upper end of the bump stopper 7 wrapped by the dust cover 6. The strut mounting plate 2 is superimposed on the bump stopper plate 1, The upper end of the strut 8 passes through the overlapping portion of the bump stopper plate 1 and the strut mounting plate 2. A nut 9 is fastened to the end of the strut 8 passing through the strut mounting plate 2. [ do.

The upper plate 3 has an inner peripheral portion located in a space between the bump stopper plate 1 and the strut mounting plate 2 and an outer peripheral portion coupled to the vehicle body via a coupling member 10 such as a bolt.

The bearing 5 is installed so as to surround the bumper stopper plate 1 and is in contact with the insulator bush 4. The spring 5 is coupled to the spring upper seat 11 and the spring upper seat 11 The upper end of the coil spring 12 is supported.

The bearing 5 is composed of a plurality of ball bearings interposed between the upper race and the lower race, and the upper race is coupled with the insulator bush 4. The lower race is connected to the spring upper seat 11 ). ≪ / RTI >

Meanwhile, the insulator bush 4 according to the present invention is composed of a base portion 4a, an outer peripheral portion 4b, and an inner peripheral portion 4c.

The base portion 4a is a portion contacting the bearing 5 while filling a space between the bump stopper plate 1 and the upper plate 3 and the outer peripheral portion 4b is connected to the outer portion of the base portion 4a, The bumper stopper plate 1 and the strut mounting plate 2 are connected to the inner side of the base portion 4a while the inner peripheral portion 4c is in contact with the upper side of the bearing 5, ) And the upper plate (3).

That is, the insulator bush 4 according to the present invention has a structure in which the base portion 4a, the outer peripheral portion 4b and the inner peripheral portion 4c have different hardness, and the hardness of the base portion 4a is different The hardness of the inner circumferential portion 4c is the smallest relative to the other portions and the hardness of the outer circumferential portion 4b has a hardness between the root portion 4a and the inner circumferential portion 4c.

For example, the base portion 4a has a Brinell hardness of 60 to 70, the outer peripheral portion 4b has a Brinell hardness of 55 to 60, and the inner peripheral portion 4c has a Brinell hardness of about 45 to 50. [

The hardness of the base portion 4a, the outer peripheral portion 4b and the inner peripheral portion 4c is determined according to the carbon content. The higher the carbon content, the higher the hardness. That is, the carbon content of the base portion 4a is the highest And the carbon content of the inner peripheral portion 4c is minimized to have the smallest hardness and the outer peripheral portion 4b is made to use the carbon content between the base portion 4a and the inner peripheral portion 4c So as to have a hardness between the base portion 4a and the inner peripheral portion 4c.

The insulator bush 4 is divided into the base portion 4a, the outer peripheral portion 4b and the inner peripheral portion 4c and the hardness of the base portion 4a, the outer peripheral portion 4b and the inner peripheral portion 4c are made different from each other The reason is that vibration and noise transmitted through the bump stopper 7, vibration and noise transmitted through the strut 8, and vibration and noise transmitted through the coil spring 12 can be effectively attenuated .

That is, the vibration and noise transmitted through the bump stopper 7 constitute the base portion 4a of the insulator bush 4 contacting the bump stopper 7 with the highest rigidity due to high rigidity and high frequency vibration and noise By thus having the smallest damping coefficient, it is possible to effectively attenuate vibration and noise of high rigidity and high frequency.

The vibration and noise transmitted through the coil spring 12 are configured so as to have the largest damping coefficient as the outer peripheral portion 4b of the insulator bush 4 is constituted by the smallest hardness due to the high rigidity and high frequency vibration and noise The vibration and noise of the high rigidity and high frequency transmitted through the coil spring 12 are primarily attenuated through the base portion 4a of the insulator bush 4 and are not attenuated by the base portion 4a The remaining vibration and noise are attenuated through the outer peripheral portion 4b, thereby effectively attenuating vibration and noise of high rigidity and high frequency transmitted through the coil spring 12. [

Further, since the outer peripheral portion 4b of the insulator bush 4 is directly connected to the vehicle body and has the smallest hardness, it has the largest damping coefficient, which is advantageous for ride comfort.

The vibration and noise transmitted through the strut 8 are transmitted through the inner peripheral portion 4c of the insulator bush 4 to the intermediate hardness between the base portion 4a and the outer peripheral portion 4b with low rigidity, The low rigidity and low frequency vibration and noise transmitted through the strut 8 are attenuated primarily through the base portion 4a of the insulator bushing 4 and the rest of the undersampled Vibration and noise are attenuated through the inner peripheral portion 4c, thereby effectively attenuating low-rigidity, low-frequency vibration and noise transmitted through the strut 8. [

As described above, according to the embodiment of the present invention, the insulator bush 4 is divided into the base portion 4a, the outer peripheral portion 4b and the inner peripheral portion 4c, and the base portion 4a, the outer peripheral portion 4b, The vibration and noise transmitted through the bump stopper 7 and the vibration and noise transmitted through the strut 8 and the vibration and noise transmitted through the coil spring 12 can be effectively It becomes possible to attenuate.

2 to 3 show an insulator bush 4 which is divided into a base portion 4a, an outer peripheral portion 4b and an inner peripheral portion 4c according to the present invention, the insulator bush 4 and the bump stopper plate 1, The plate 2 and the upper plate 3 are integrally joined to form a modular insulator.

2 is a first step for manufacturing the first semi-finished product 21 in which the outer peripheral portion 4b of the insulator bush 4 and the upper plate 3 are combined. The upper plate 3, which is separately manufactured, The first resin 33 is injected into the first injection space 32 between the first injection mold 31 and the upper plate 3 to form the outer peripheral portion 4b of the insulator bush 4 And the upper plate 3 are combined with each other.

Reference numeral 34 denotes a nozzle for injecting the first resin 33 into the first injection space 32.

3 is a second step for manufacturing the secondary semi-finished product 22 in which the inner semi-finished product 21, the inner peripheral portion 4c of the insulator bush, the bump stopper plate 1 and the strut mounting plate 2 are combined, The bimetal stopper plate 1 and the strut mounting plate 2 separately manufactured are fixed to the second injection mold 41 so that the first semi-finished product 21 is fixed to the second injection mold 41, 41 and the second injection space 42 between the second injection mold 41 and the first semi-finished product 21 and between the bump stopper plate 1 and the strut mounting plate 2, The secondary semi-finished product 22 in which the bimetal stopper plate 1 and the strut mounting plate 2 are combined is manufactured by injecting the first semi-finished product 21, the inner peripheral portion 4c of the insulator bush 4,

Reference numeral 44 denotes a nozzle for injecting the second resin 43 into the second injection space 42.

4 is a third step of manufacturing the insulator 23 of the final finished product to which the secondary semi-finished product 22 and the base portion 4a of the insulator bush are joined. The second semi-finished product 22 is inserted into the third injection mold 51, The third resin 53 is injected into the third injection space 52 between the third injection mold 51 and the second semi-finished product 22 to form the second semi-finished product 22 and the insulator bush 4, The insulator 23 of the final finished product to which the base portion 4a of the end product 4a is bonded.

Reference numeral 54 denotes a nozzle for injecting the third resin 53 into the third injection space 52.

The insulator 23 of the finished product manufactured in the above-described manner has the insulator bush 4, the upper plate 3 and the bump stopper plate 4, which are connected to the outer peripheral portion 4b, the inner peripheral portion 4c and the base portion 4a, 1) and the strut mounting plate 2 are integrally combined to be a modular product.

On the other hand, the first resin 33 used for manufacturing the first semi-finished product 21, the second resin 43 used for manufacturing the second semi-finished product 22 and the second resin 43 used for manufacturing the finished insulator 23 The third resin (53) is a resin having a different carbon content. The third resin (53) has the highest carbon content. The second resin (43) has the lowest carbon content. Is characterized by having a carbon content between the third resin (53) and the second resin (43).

As described above, the insulator according to the present invention is structured such that the insulator bush 4 is divided into the base portion 4a, the outer peripheral portion 4b and the inner peripheral portion 4c, and the base portion 4a, the outer peripheral portion 4b, The vibration and noise transmitted through the bump stopper 7 and the vibration and noise transmitted through the strut 8 and the vibration and noise transmitted through the coil spring 12 can be effectively There is an advantage that it can attenuate.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

1 - Bump stopper plate 2 - Strut mounting plate
3 - Upper plate 4 - Insulator Bush
4a - Base portion 4b - Outer portion
4c - My Housewife 5 - Bearing
7 - Bump stopper 8 - Strut
12 - coil spring

Claims (8)

An insulator bushing which is filled in the space between the bump stopper plate and the strut mounting plate and the upper plate to attenuate vibration and noise; And
A bearing which is installed to surround the bump stopper plate and contacts the insulator bush,
Wherein the insulator bushing has a base portion contacting the bearing while filling a space between the bump stopper plate and the upper plate;
An outer circumferential portion connected to the outer side of the base portion and filling the space below the upper plate and contacting the upper side of the bearing;
And an inner peripheral portion connected to the inner side portion of the base portion to fill a space between the bumper stopper plate and the strut mounting plate and the upper plate;
Wherein the base portion, the outer peripheral portion, and the inner peripheral portion have different hardnesses. The method according to claim 1,
Wherein the hardness of the base portion, the outer peripheral portion and the inner peripheral portion is the largest at the base portion, the inner peripheral portion is the smallest, and the outer peripheral portion has a hardness between the base portion and the inner peripheral portion. The method according to claim 1,
Wherein the carbon content of the base portion, the outer peripheral portion, and the inner peripheral portion are different from each other to have different hardnesses;
The carbon content of the base portion is made highest to have the greatest hardness;
The carbon content of the inner peripheral portion is minimized to have the smallest hardness;
Wherein the outer peripheral portion has a hardness between the base portion and the inner peripheral portion by using a carbon content between the base portion and the inner peripheral portion. The method according to claim 1,
Wherein the bumper stopper plate, the strut mounting plate, and the upper plate are integrally modularized by an insulator bush. The method according to claim 1,
The bump stopper plate is installed to surround the upper end of the bump stopper;
The strut mounting plate is fastened to the upper end of the strut through the upper end of the strut with the bump stopper plate while the strut mounting plate is superimposed on the bump stopper plate;
Wherein the upper plate has an inner peripheral portion located in a space between the bump stopper plate and the strut mounting plate and an outer peripheral portion coupled to the vehicle body;
A spring upper seat coupled to the bearing;
And an upper end of a coil spring is supported on the spring upper seat. A first step of fixing the upper plate to the first injection mold and then injecting the first resin into the first injection space between the first injection mold and the upper plate to produce a first semi-finished product in which the outer peripheral part of the insulator bush and the upper plate are coupled ;
The first injection mold, the bumper stopper plate and the strut mounting plate are fixed to the second injection mold, and then the second resin is injected into the second injection space between the second injection mold and the first half mold, the bump stopper plate and the strut mounting plate, A second step of manufacturing a semi-finished product having the inner half of the insulator bush and the bum stopper plate and the strut mounting plate combined; And
A second semi-finished product is fixed to the third injection mold, and then a third resin is injected into a third injection space between the third injection mold and the second semi-finished product to produce an insulator of the final finished product combined with the base of the second semi-finished product and the insulator bush The method comprising the steps of: The method of claim 6,
Wherein the insulator of the final product is a module product in which an insulator bush, an upper plate, a bump stopper plate, and a strut mounting plate, which are continuously connected to each other, are integrally joined to each other. The method of claim 6,
Wherein the first resin, the second resin and the third resin have different carbon contents and have the highest carbon content of the third resin and the lowest carbon content of the second resin, And a carbon content between the resin and the second resin.

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