KR100980504B1 - cone typic air damping engin mount - Google Patents

Abstract

The present invention relates to a cone-type engine mount in which a metal first support and a second support are disposed to face each other at a predetermined distance, and a bracket is fitted to and circumscribed by the second support. A rubber elastic body is interposed between the second support and the expansion chamber at the center and a compression chamber at the lower end thereof. In this state, the rubber elastic body is vulcanized so that the first and second support bodies are integrated in the rubber elastic body. Connected to each other, the first support has a cross shape, and an attachment bolt protrudes in the axial direction and is planted in the first support, and the rubber elastic body is surrounded by the first support. The upper and lower portions of the elastic body are inscribed in the second support, and the upper and lower edges of the rubber elastic body are stopped by a stopper interposed in an upright position on the upper and lower portions of the rubber elastic body. An orifice is formed in the lower portion of the rubber elastic body that is supported in the axial direction and in which the compression chamber and the expansion chamber are hermetically separated from each other.

Orifice, Compression Chamber, Expansion Chamber, Stopper

Description

Cone typic air damping engin mount

The present invention relates to a cone type air damping engine mount.

In general, a dustproof member, that is, a mount installed in a moving part such as a lower arm of an automobile or a driving part such as an engine, has a role in suspension or a structural aspect supporting the connection part of the engine body, and uses a suspension or its own elastic deformation. It absorbs shock, vibration and noise generated from the engine.

In general, such a mount is interposed between members constituting the vibration transmission system to control the transmission of vibration. For this purpose, the first support and the second support are arranged to be spaced a predetermined distance in the vibration input direction. It is a structure made by connecting the support body with the rubber elastic body interposed between them.

These mounts have recently been widely adopted liquid-liquid mounts because of their vibration damping range and their limited functionality.

In particular, a fluid-enclosed mount that attenuates vibration transmitted from a wheel while driving has a liquid chamber inside a dustproof body formed of a rubber material, and inside the liquid chamber is filled with an incompressible liquid fluid to determine a geometric orifice. The longitudinal vibration generated in the desired frequency band can be absorbed by the flow of the liquid fluid.

However, there is a problem that such a liquid fluid is expensive, thereby increasing the manufacturing cost of the mout.

In order to overcome this problem, a method of using air, which is a gas instead of a liquid, is being considered, and at present, a compression chamber circulating with the outside near the bottom of the dustproof body is formed in cooperation with an outer frame to form the dustproof device. Cone-type mounts are introduced in which outside air (air) flows into and out of the compression chamber according to the space contraction / expansion of the compression chamber according to the longitudinal vibration of the sieve.

However, the air can be obtained free of charge from the outside, thereby lowering the manufacturing cost of the air mount. However, since the air is compressible, the conventional air mount does not respond quickly to vibration.

In order to solve this problem, the conventional air mount responds to the vibration to some extent quickly by reducing the height of the compression chamber defined in the dustproof body and the outer frame and expanding the outer diameter, but this also slows the response speed to the vibration. There is a problem that the overall size of the air mount is enlarged.

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

The present invention can achieve the above object by providing air damping to a cone-type engine mount, in which the compression chamber and the expansion chamber circulated with the compression chamber, which are blocked against the outside air, are partitioned by the dustproof body and the outer frame. have.

According to the above-described problem solving means, the present invention applies air instead of expensive liquid fluid to the cone-type engine mount, thereby lowering the manufacturing cost of the engine mount and at the same time rapidly reducing the attenuation responsiveness to vibration caused by the compressible air. Makes it possible to

Hereinafter, a cone type air damper according to an embodiment of the present invention will be described with reference to FIG. 1.

In Fig. 1, the cone-type damper of the present embodiment is indicated by reference numeral 100 and the bracket by reference numeral 200.

In the figure, 10 and 12 are respectively a first support and a second support of a metal material, and are disposed to face each other at a predetermined distance. In addition, between the first support 10 and the second support 12, there is interposed a rubber elastomer 14 vulcanized so that the expansion chamber (C1) at the center and the compression chamber (C2) is partitioned at the lower end. .

Then, in the engine mount of the cone type, for example, by the one member provided between the vehicle body and the engine unit, and is adapted to support the dust-proof against the engine unit to the vehicle body.

More specifically, the first support 10 is formed to have a substantially crisscross shape, and an attachment bolt 19 protrudes in the axial direction and is planted in the first support 10.

In addition, the bracket 200 is fitted to the second support 12 and is circumscribed.

The rubber elastic body 14 is externally circumscribed to the first support 10, the upper and lower portions 14a, 14b of the rubber elastic body 14 are inscribed to the second support 12, and the rubber elastic body The edges of the upper and lower portions 14a and 14b of 14 are supported in the axial direction by the stopper S interposed in the upright portions 14a and 14b of the rubber elastic body 14 in an upright state.

In addition, the stopper (S) is formed with a protrusion (S1) protruding radially inward, the protrusion (S1) is a portion of the rubber elastic body 14 circumscribed on the upper surface of the enlarged diameter portion of the first support (10) It is placed on, and prevents the first support 10 from being separated by excessive external force flows upward of the first support 10.

In addition, a lightweight body 30 made of a lightweight material such as aluminum may be interposed between the lower end of the first support 10 and the rubber elastic body 14 for light weight of the engine mount.

In addition, unlike the existing products on the bottom surface 12a of the second support 12 for forming the compression chamber (C2) in cooperation with the lower portion 14b of the rubber elastic body 14 through No hole exists

In addition, the compression chamber C2 and the expansion chamber C1 are located at the lower portion 14b of the rubber elastic body 14 which is in a gas-tight manner, which separates the compression chamber C2 and the expansion chamber C1 from each other. An orifice O2 is formed to enable flow.

In addition, the upper end of the bracket 200, the upper end of the second support 12, and the upper end of the rubber elastomer 14, the base 40 is planted in the vulcanized rubber elastomer 14 in order to join each other ) Is bent and fitted to them.

By the above configuration, the cone-type engine mount of the present embodiment can be operated as follows.

First, the air damper of the embodiment is to be mounted in such a way that the bracket 200 is fixed to the vehicle body and the attachment bolt 19 is fixed to the vibration inducing body.

In the engine mount of this embodiment in such a mounting state, when the vibration inducing body applies vibration to the bolt 19 in the axial direction downward, the rubber elastic body 14 compresses the compression chamber C2 to the compression chamber C2. Part of the existing air is introduced into the expansion chamber C1 through the orifice O2, and when the vibration inducing body applies vibration to the bolt 19 in the axial direction upward, the rubber elastic body 14 is compressed in the compression chamber. (C2) is expanded so that a part of the air present in the expansion chamber (C1) flows out into the compression chamber (C1) through the orifice (O2), so that the engine mount of the present embodiment vibrates as compared to the conventional engine mount. Can react quickly to the vibration of the trigger.

1 is a view showing this embodiment.

Claims (4)

A cone-type engine mount in which a first support and a second support made of metal are disposed to face each other at a predetermined distance, and the bracket is fitted to and circumscribed by the second support. Between the first support and the second support is interposed a rubber elastic body vulcanized so that the expansion chamber in the center and the compression chamber is formed at the bottom, The first support is formed to have a cross shape, and the first support is attached to the mounting bolt protruding in the axial direction,  The rubber elastic body is circumscribed to the first support body, the upper and lower portions of the rubber elastic body is inscribed in the second support body, and the upper and lower edges of the rubber elastic body are on the stopper interposed in an upright position on the upper and lower portions of the rubber elastic body. Is supported in the axial direction, A cone type air damping engine mount, characterized in that an orifice is formed in the lower portion of the rubber elastic body in which the compression chamber and the expansion chamber are hermetically separated from each other so that the compression chamber and the expansion chamber can flow to each other. . The method of claim 1, The stopper is formed with a protrusion projecting radially inward, The protrusion is placed on the portion of the rubber elastic body circumscribed on the upper surface of the enlarged diameter portion of the first support, the stopper is characterized in that to prevent the first support from being separated by excessive external force flows into the first support. Cone type air damping engine mount. The method of claim 1, A cone type air damping engine mount, wherein a lightweight body made of a lightweight material is interposed between the lower end of the first support and the rubber elastic body. The method according to any one of claims 1 to 3, A top of the bracket, an upper end of the second support, and a top of the rubber elastic body vulcanized in order to join the upper end of the rubber elastic body are bent to fit the cone Type air damping engine mounts.

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