KR101306295B1 - Mounting structure for suppressing diffusion of noise - Google Patents

Abstract

A mounting structure for noise diffusion suppression is disclosed. The mounting structure for suppressing noise diffusion according to the present invention is provided between a component for generating noise in a vehicle and a fixed component to suppress diffusion of noise generated from the noise generating component, and includes a bracket of the noise generating component and the noise. Between the bosses of the fixed part in which the generating part is mounted, noise attenuation means is provided so that the noise generated from the noise generating part is attenuated or diffusion to the fixed part is suppressed.
The noise attenuation means,
The boss and the bracket protruding from the fixing part are disposed between the boss and the bracket so as not to directly contact each other, and a through-hole is formed at the center to pass through the fastening member coupled to the boss, and the bracket is fitted to the outer circumferential surface thereof. Characterized in that it consists of a noise damping member formed with a coupling groove to be. According to the present invention, by providing a noise attenuation member between the noise generating part and the fixed part, the noise generated from the noise generating part, that is, the frequency of the sound source can be sufficiently attenuated, and the spread of the noise can be prevented or suppressed. Since the members are configured independently and disposed respectively, the high and low frequencies generated from the noise generating component may be canceled in multiple stages, thereby preventing or minimizing the generation of noise to suppress diffusion.

Description

MOUNTING STRUCTURE FOR SUPPRESSING DIFFUSION OF NOISE

The present invention relates to a mounting structure for suppressing noise diffusion, and more particularly, mounting for noise diffusion suppression that can suppress the diffusion of noise generated due to high speed rotation or vibration, such as a transmission device, among automotive interior parts. It is about a structure.

In general, various parts are installed in automobiles. Each component is provided with various vibration suppression means at its connection or coupling portion such that friction or noise is not generated at the coupling portion, or that vibration generated from the vibration generating source is not transmitted to other components.

For example, as shown in the prior art shown in Figure 1, between the fixed bracket 20 and the component 10, the rubber member dustproof member 40 is disposed, the mounting bolt 30 is the dustproof member 40 It can be configured to fasten to the component 10 through.

In the case of such a mounting structure, the vibration generated from the fixed bracket 20 is attenuated by the dustproof member 40, so that the vibration generated from the fixed bracket 20 is transmitted to the component 10, or the vibration at the coupling portion thereof. The noise by is suppressed and prevented.

However, such a mounting structure according to the prior art could not effectively block or attenuate the vibration transmitted from the vibration source because only the vibration isolator is disposed between the vibration source and the component.

In particular, the interior noise of an electric vehicle can be significantly higher than that of a vehicle using fossil fuel.In the case of an actuator-only motor used in various openings and closing parts, the noise is small, but due to the nature of the mounting structure, the noise generated from the motor After being delivered to the housing, the housing diffused through the combined mountings.

For example, noise (or vibration) generated from a motor that automatically opens and closes a glove box of a vehicle is transmitted to the glove box housing through the boss and the motor housing, and the motor housing and the glove box housing act as a ring plate. This results in amplified noise.

Therefore, it is necessary to improve the mounting structure of the component so that the noise generated from the noise (or vibration) source (part) is transmitted to the other component, and thus the noise is not amplified.

Korea Utility Model Registration No. 20-0285914 (Published: October 19, 2002)

The technical problem of this invention is providing the means which can suppress the spread of a noise or a vibration in the mounting structure of the component which produces a noise or a vibration in a motor vehicle.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular embodiments that are described. It will be apparent to those skilled in the art, There will be.

The technical problem, according to the present invention, is provided between the parts and the fixed parts for generating noise in a vehicle to suppress the spread of noise generated from the noise generating parts,

 Between the bracket of the noise generating part and the boss of the fixed part on which the noise generating part is mounted, a noise attenuation means is provided so that the noise generated from the noise generating part is attenuated or diffusion to the fixed part is suppressed.

The noise attenuation means,

The boss and the bracket protruding from the fixing part are disposed between the boss and the bracket so as not to directly contact each other, and a through-hole is formed at the center to pass through the fastening member coupled to the boss, and the bracket is fitted to the outer circumferential surface thereof. It is achieved by a mounting structure for suppressing noise diffusion, characterized in that the noise reduction member formed with a coupling groove for forming.

The noise damping member,

It may be made of any one material selected from ethylene propylene rubber material, nonwoven fabric, sponge, soft synthetic resin material.

In the coupling groove,

A plurality of protrusions may be formed to minimize the contact surface with the bracket.

One side of the noise damping member in contact with the boss may be formed with a recess for inserting a portion of the boss to be seated.

An insertion groove for inserting and seating one side of the noise damping member may be formed in a portion of the boss contacting the noise damping member.

The outer circumferential surface of the boss is fitted while the auxiliary noise damping member is wrapped.

One side of the auxiliary noise damping member may be provided with a fitting groove for inserting a portion of the noise damping member.

The auxiliary noise reduction member,

It may be made of any one material selected from ethylene propylene rubber material, nonwoven fabric, sponge, soft synthetic resin material.

On the other hand, the technical problem described above is provided between the parts and the fixed parts for generating noise in a vehicle to suppress the spread of noise generated from the noise generating parts,

 Between the bracket of the noise generating part and the boss of the fixed part on which the noise generating part is mounted, a noise attenuation means is provided so that the noise generated from the noise generating part is attenuated or diffusion to the fixed part is suppressed.

The noise attenuation means,

A noise reduction member having a through hole for penetrating a fastening member coupled to the boss at a center thereof, and having an annular coupling groove formed at an outer circumferential surface thereof; And

One side is fitted to the coupling groove, the other side is formed with an insertion portion for fitting the one end of the bracket, and between the inner surface of the insert portion and the bracket includes a mounting connection member is disposed an elastic material for noise reduction Characterized by a mounting structure for suppressing noise diffusion.

The noise damping member and the noise damping elastic body,

It is made of any one material selected from ethylene propylene rubber material, nonwoven fabric, sponge, soft synthetic resin material.

A plurality of protrusions are formed on the inner surface and the outer surface of the noise damping elastic body to minimize the contact area with the inner surface of the mounting connection member and the contact area with the bracket.

A plurality of insertion portions of the mounting connection member may be formed.

According to the present invention, by providing a noise damping member between the noise generating part and the fixed part, it is possible to sufficiently attenuate the noise generated from the noise generating part, that is, the frequency of the sound source, and to prevent or suppress the spread of the noise.

In particular, since the noise attenuating member is composed of multiple, the high frequency and low frequency generated from the noise generating component can be canceled to prevent or minimize the generation of noise to suppress diffusion.

1 is a partially enlarged cross-sectional view showing a mounting structure according to the prior art.
2 is an exploded perspective view illustrating a mounting structure according to a first embodiment of the present invention.
3 is a cross-sectional view of a component to which the mounting structure shown in FIG. 2 is applied.
FIG. 4 is a cross-sectional view illustrating the protrusion formed on the noise damping member of the mounting structure illustrated in FIG. 3.
5 is a cross-sectional view illustrating a mounting structure in accordance with a second embodiment of the present invention.
6 is a cross-sectional view illustrating a mounting structure in accordance with a third embodiment of the present invention.
7 is an exploded perspective view illustrating a mounting structure according to a fourth embodiment of the present invention.
FIG. 8 is a cross-sectional view illustrating protrusions formed on the noise reducing elastic body of the mounting structure illustrated in FIG. 7.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

2 is an exploded perspective view illustrating a mounting structure according to a first embodiment of the present invention, FIG. 3 is a cross-sectional view of a component to which the mounting structure shown in FIG. 2 is applied, and FIG. 4 is FIG. 3. It is a cross-sectional view of the coupling state showing the projection formed on the noise damping member of the mounting structure shown in.

2 and 4, the mounting structure for suppressing noise diffusion according to the first embodiment of the present invention is provided between the noise generating part 200 and the fixed part 100 generating noise in an automobile. To suppress the diffusion of noise generated from the noise generating component 200, and between the noise generating component 200 and the fixed component 100 on which the noise generating component 200 is mounted. Noise reduction means is provided so that generated noise is reduced or diffusion is suppressed.

The noise attenuation means is connected to the boss 110 so that the boss 110 protruding from the fixed part 100 and the bracket 210 formed integrally with the noise generating part 200 or separately manufactured and combined are not directly contacted. Is disposed between the brackets 210, the through hole 310 for penetrating the fastening member 400 coupled to the boss 110 is formed in the center, the outer peripheral surface coupling groove for fitting the bracket 210 ( The noise attenuation member 300 is formed.

At this time, the noise attenuation member 300 may be formed in various forms, but in the present embodiment will be described based on the hollow cylindrical.

The noise attenuation member 300 is made of any one material selected from ethylene propylene rubber material, nonwoven fabric, sponge, and soft synthetic resin material. As described above, the noise damping member 300 is made of elastic rubber material or high damping rubber material, nonwoven fabric, sponge or the like to sufficiently absorb or attenuate noise or vibration.

Meanwhile, as shown in FIG. 4, a plurality of protrusions 340 are formed on each inner side surface of the coupling groove 320 to minimize the contact surface, that is, the contact area, with the bracket 210.

That is, since the protrusions 340 are sharply formed in contact with the bracket 210, the contact area with the bracket 210 is minimized to minimize the transmission of vibration or noise from the bracket 210.
One end portion of the noise attenuation member 300 in contact with the boss 110 is formed with a seating groove 360 for inserting and seating an end portion of the boss 110 as shown in FIG. 3. Since the end portion of the boss 110 is inserted into the seating groove 360, the noise attenuation member 300 may be stably coupled to the boss 110.

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Referring to the operation of the present embodiment configured as described above are as follows.

First, the mounting structure according to the present invention will be described based on the application to the glove box of the vehicle in this embodiment. That is, the fixing part 100 means a glove box, and the noise generating part 200 means a housing in which an actuator for opening and closing the glove box is incorporated, and the bracket 210 is integrated with the housing as described above. It may be formed or fabricated separately and combined.

2 to 4, in order to install the noise attenuation member 300 between the boss 110 of the fixed part 100 and the bracket 210 of the noise generating part 200, the boss 110 is provided. One end of the noise attenuating member 300 is inserted into the mounting groove 360 of the noise attenuating member 300 to be coupled, and the bracket 210 is fitted to the coupling groove 320 to be coupled.

In this case, the bracket 210 may be inserted into the coupling groove 320 of the noise damping member 300, and then the noise damping member 300 may be coupled to the boss 110. In other words, the joining order is not limited to any one order and can be combined (assembled) by various orders.

Subsequently, the fastening member 400 is fastened to the boss 110 to fix the noise attenuation member 300 to the boss 110.

In this process, the bracket 210 is coupled to the boss 110 through the noise attenuation member 300.

As the noise attenuation member 300 is disposed and coupled between the bracket 210 and the boss 110 as described above, when vibration or noise is generated from the nose generating part 200, the noise is attenuated by the bracket 210. Delivered to member 300. Noise or vibration transmitted to the noise damping member 300 is attenuated or extinguished by the noise damping member 300 made of an elastic body or a vibration absorber. This is possible because the noise attenuation member 300 is made of a material that absorbs vibration or noise, and it is possible because the hard bracket 210 and the boss 110 do not directly contact each other.

In particular, as shown in FIG. 4, a plurality of protrusions 340 are formed in the noise damping member 300, and the ends of the protrusions 340 are in contact with the bracket 210, whereby the noise damping member 300 and the bracket ( The contact area with the 210 or the boss 110 is minimized, thereby improving the phenomenon that the transmission of vibration or noise is suppressed or eliminated.

As such, by mounting the component generating the noise to the boss 110 of the fixed component 100 through the noise attenuation member 300, the bracket 210 and the boss 110 are coupled only through the noise reduction member 300. As a result, vibration or noise generated from the noise generating part 200 is attenuated or eliminated, and the phenomenon of being transmitted or diffused to the fixed part 100 may be suppressed and may be eliminated.

5 of the accompanying drawings shows a mounting structure according to a second embodiment of the present invention.

In the mounting structure according to the second embodiment illustrated in FIG. 5, one side of the noise attenuation member 300 is inserted into a portion of the boss 110 in contact with the noise attenuation member 300. Same as the above embodiment except that it is formed.

As shown in FIG. 5, the fastening member 400 passes through the noise attenuation member 300 and is fastened to the boss 110 while a part of the noise attenuation member 300 is inserted into the insertion groove 120. The damping member 300 may be seated on the boss 110 to be stably coupled.

In this case, it is preferable that the length of the noise damping member 300 is long. As described above, since the noise attenuation member 300 is formed longer than the noise attenuation member 300 according to the first embodiment, the noise attenuation effect may be increased. In addition, grooves may be formed on the outer circumferential surface to anticipate the effect of absorbing noise or vibration and transmission delay.

6 shows a mounting structure according to a third embodiment of the present invention.

As shown in FIG. 6, in the mounting structure according to the third embodiment, the auxiliary noise attenuating member 700 is fitted to the outer circumferential surface of the boss 110 while wrapping the boss 110, and the auxiliary noise attenuating member 700. Same as the above embodiment except that the fitting groove 710 for inserting a portion of the noise attenuation member 300 is formed on one side of the).

As shown in FIG. 6, a cylindrical auxiliary noise attenuating member 700 is fitted to the boss 110, and a part of the noise attenuating member 300 is fitted into the fitting groove 710 of the auxiliary noise attenuating member 700. Since the mounting is performed by the fastening member 400 in the inserted state, residual noise or vibration transmitted and attenuated by the noise attenuation member 300 may be extinguished by the auxiliary noise attenuation member 700. That is, the attenuated noise or vibration transmitted to the noise attenuating member 700 or the boss 110 may be finally attenuated or eliminated by the auxiliary noise attenuating member 700 surrounding the boss 110.

At this time, the auxiliary noise damping member 700 is made of any one material selected from ethylene propylene rubber material, nonwoven fabric, sponge, soft synthetic resin material.

On the other hand, Figure 7 and Figure 8 of the accompanying drawings shows a mounting structure according to a fourth embodiment according to the present invention.

As shown in Figure 7 and 8, the mounting structure according to the fourth embodiment, one side is fitted into the coupling groove 320 of the noise damping member 300, the other end of the bracket 210 is fitted An insertion part 810 is formed to be coupled, except that the mounting part 810 is disposed between the inner surface of the insertion part 810 and the bracket 210, in which a noise reduction elastic body 820 is disposed. Same as the above-described embodiment.

At this time, the inner surface and the outer surface of the noise reduction elastic body 820 has a plurality of protrusions for minimizing the contact area with the inner surface of the insertion portion 810 of the mounting connection member 800 and the contact area with the bracket 210. 840 may be formed.

The inserting portion 810 of the mounting connection member 800 may be formed in plural numbers. That is, the insertion portion 810 may be formed on both sides with respect to the boss (110).

Meanwhile, the noise reducing elastic body 820 may be made of any one material selected from ethylene propylene rubber material, nonwoven fabric, sponge, soft synthetic resin material, and high damping rubber material.

The mounting structure of the structure, such that the bracket 210 is inserted and coupled in a state wrapped in the noise reduction elastic body 820, the mounting connection member 800 is coupled to the noise reduction member 300, the bracket 210 Noise or vibration transmitted from the waveguide) is primarily attenuated by the noise attenuation elastic body 820, and then residual vibration or noise is attenuated and extinguished by the noise attenuation member 300. Since the vibrations or noises are attenuated or extinguished through the noise damping elastic body 820 and the noise damping member 300 which are each independently disposed, the vibration or noise generated from the noise generating part 200 is fixed part 100. The diffusion may not be diffused or diffusion may be minimized.

As described above, since vibration or noise generated from the noise generating part 200 is gradually attenuated while passing through the respective noise attenuation means arranged in multiple stages, the phenomenon of noise spreading can be prevented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

100: fixed part 110: boss
120: insertion groove 200: noise generating parts
210: bracket 300: noise reduction member
310: through hole 320: coupling groove
340, 840: projection 360: seating groove
400: fastening member 700: auxiliary noise attenuation member
710: fitting groove 800: mounting connecting member
810: inserting portion 820: elastic body for noise reduction

Claims (12)

It is provided between a part that generates noise in a vehicle and a fixed part to suppress the spread of noise generated from the noise generating part,
Between the bracket formed integrally with the noise generating part or separately manufactured and coupled to the boss of the fixed part in which the noise generating part is mounted, the noise generated from the noise generating part is attenuated or diffusion to the fixed part is suppressed. Noise reduction means is provided,
The noise attenuation means,
The boss and the bracket protruding from the fixing part are disposed between the boss and the bracket so as not to directly contact each other, and a through-hole is formed at the center to pass through the fastening member coupled to the boss, and the bracket is fitted to the outer circumferential surface thereof. Characterized in that the noise reducing member is formed with a coupling groove for
Mounting structure for noise diffusion suppression. The method of claim 1,
The noise damping member,
Characterized in that consisting of any one material selected from ethylene propylene rubber material, nonwoven fabric, sponge, soft synthetic resin material,
Mounting structure for noise diffusion suppression. The method of claim 2,
In the coupling groove,
Characterized in that a plurality of protrusions are formed to minimize the contact surface with the bracket,
Mounting structure for noise diffusion suppression. The method of claim 1,
One side of the noise damping member in contact with the boss is characterized in that the mounting groove for inserting a portion of the boss is formed is formed,
Mounting structure for noise diffusion suppression. The method of claim 1,
Characterized in that the insertion groove for the one side of the noise damping member is inserted into the portion of the boss in contact with the noise damping member is formed is formed,
Mounting structure for noise diffusion suppression. The method of claim 1,
The outer circumferential surface of the boss is characterized in that the auxiliary noise damping member is wrapped while being coupled,
Mounting structure for noise diffusion suppression. The method according to claim 6,
One side of the auxiliary noise reduction member, characterized in that the fitting groove for inserting a portion of the noise reduction member is formed,
Mounting structure for noise diffusion suppression. The method according to claim 6,
The auxiliary noise reduction member,
Characterized in that consisting of any one material selected from ethylene propylene rubber material, nonwoven fabric, sponge, soft synthetic resin material,
Mounting structure for noise diffusion suppression. It is provided between a part that generates noise in a vehicle and a fixed part to suppress the spread of noise generated from the noise generating part,
Between the bracket of the noise generating part and the boss of the fixed part on which the noise generating part is mounted, a noise attenuation means is provided so that the noise generated from the noise generating part is attenuated or diffusion to the fixed part is suppressed.
The noise attenuation means,
A noise reduction member having a through hole for penetrating a fastening member coupled to the boss at a center thereof, and having an annular coupling groove formed at an outer circumferential surface thereof; And
One side is fitted to the coupling groove, the other side is formed with an insertion portion for fitting the one end of the bracket, and between the inner surface of the insert portion and the bracket includes a mounting connection member is disposed an elastic material for noise reduction Characterized by
Mounting structure for noise diffusion suppression. 10. The method of claim 9,
The noise damping member and the noise damping elastic body,
Characterized in that consisting of any one material selected from ethylene propylene rubber material, nonwoven fabric, sponge, soft synthetic resin material,
Mounting structure for noise diffusion suppression. 10. The method of claim 9,
The inner surface and the outer surface of the noise reduction elastic body is characterized in that a plurality of protrusions are formed to minimize the contact area with the inner surface of the mounting connection member and the contact area with the bracket,
Mounting structure for noise diffusion suppression. 10. The method of claim 9,
Characterized in that the insert portion of the mounting connection member is formed a plurality,
Mounting structure for noise diffusion suppression.

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