KR101167289B1 - engin mount - Google Patents

Abstract

The present invention provides a magnetic material that divides the center portion of the flexible membrane into a washbasin and the shape portion and a cover covering the washbasin and the shape portion, and becomes magnetically rigid when selectively magnetized to the washbasin and the shape and weak when not magnetized. The magnetic material is sealed by heat sealing, plastic welding, rubber adhesive, high frequency bonding to the flange of the washbasin and the shaped portion, and the other end of the conductor having one end connected to the magnetic material is magnetic. By contacting the magnetic generating portion, the weak flexible deformation and the rigid flexible deformation in the middle of the flexible membrane according to the fluid flow enclosed in the engine mount are selectively given to the middle, so that the conventional engine mount is used as the engine. It is possible to attenuate vibrations in a wider variety of frequency bands than types of frequency bands that can be attenuated with respect to The.

Description

Engine mount

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an engine mount for automobiles, and more particularly, to an engine mount capable of attenuating vibration in another frequency band by embedding a magnetic fluid in a flexible film provided in an engine mount.

Background Art [0002] Conventionally, a first attachment bracket and a second attachment fixture, which are arranged at a certain distance from each other, are disposed as a kind of dustproof connection member or dustproof support member interposed between members constituting the vibration transmission system by a body rubber elastic body interposed therebetween. BACKGROUND ART Mounting apparatuses having a structure connected sexually are known and are used as engine mounts for automobiles and the like.

This longitudinal engine mount is shown in FIG. 1.

The engine mount 10 is elastically connected to the first and second mounting brackets 12 and 14 arranged at a predetermined distance from each other in the vibration input direction by a rubber elastic body 16 interposed therebetween. At the same time, the pressure receiving chamber 20 and the balancing chamber 22 can be connected to each other through the orifice passage 18 therein.

In the engine mount 10, the first mounting bracket 12 is mounted on the engine unit side, and the second mounting bracket 14 is mounted on the vehicle body side, respectively, between the engine unit and the vehicle body. The orifice passage is interposed with respect to the vibration inputted in the opposite direction (up and down direction in FIG. 1) between the first mounting bracket 12 and the second mounting bracket 14 under such a mounting state. (18) It is supposed that the dust-proof effect by the fluid which can flow inside can be exhibited.

The rubber elastic body 16 has a conical trapezoidal shape as a whole and a concave portion 24 that opens at a large diameter side end portion. The first mounting bracket 12 is bonded to the rubber elastic body 16 with respect to the small diameter side end portion by vulcanization, and has a cylindrical shape with respect to the large diameter side end outer peripheral surface thereof, but is radial in the middle. The upper inner circumferential surface of the second attachment bracket 14 having the stepped portion 14a reduced inwardly is vulcanized.

The first mounting bracket 12 has a solid rod shape as a whole, and has a flange-shaped stopper 30 that protrudes in the radially outward direction at the central portion in the axial direction.

The axially inner end side of the first mounting bracket 12 is a tapered tapered portion 32, and the tapered portion 32 protrudes in the axial direction from the small-diameter side end surface of the rubber elastic body 16. In the state, the rubber elastic body 16 is vulcanized.

A bolt 34 is planted on the axial outer end side of the first mounting bracket 12 in a state where the screw machining portion is exposed, and the bolt 34 is attached to the engine unit side.

The through wall 46 is formed in the bottom wall portion of the second mounting bracket 14, and the diaphragm 48, which is partially made of a thin film and entirely made of a rubber film, covers the through hole 46. This is vulcanized.

Inside the second attachment bracket 14, a partition member 52 having a ring shape with a through hole formed in the center as a whole is disposed. An orifice passage 18 extending in the circumferential direction at a circumferential direction is formed at the peripheral edge portion of the partition member 52, while a membrane plate made of a rubber film or the like is formed at the central through hole of the partition member 52. The phosphorus flexible film 60 is arrange | positioned.

The partition member 52 is inserted into the second mounting bracket 14 before the second mounting bracket 14 is vulcanized and bonded to the rubber elastic body 16.

By arranging the partition member 52, a portion of the wall portion is formed of a rubber elastic body 16 on the side where the first mounting bracket 12 is located with respect to the partition member 52, and at the time of vibration input. The pressure receiving chamber 20 is formed on the basis of the deformation of the rubber elastic body 16, and the pressure chamber 20 is formed, and a part of the wall is provided on the opposite side to the pressure receiving chamber 20 with the partition member 52 therebetween. Is composed of the diaphragm 48, and the balance chamber 22 is formed in which a volume change is permitted based on the deformation of the diaphragm 48. As shown in FIG.

Predetermined incompressible fluids, such as water, alkylene glycol, polyalkylene glycol, silicone oil, are enclosed in these hydraulic chamber 20 and the equilibrium chamber 22, respectively.

Both ends of the orifice passage 18 formed at the circumferential edge of the partition member 52 are in circulation with the hydraulic chamber 20 and the balance chamber 22, and through the orifice passage 18. The flow of the fluid between the hydraulic chamber 20 and the balance chamber 22 is allowed.

The hydraulic pressure in the hydraulic chamber 20 and the balance chamber 22 is exerted on both sides of the flexible membrane 60 arranged in the central through-hole of the partition member 52 to deform the flexible membrane 60. Based on this, substantial fluid flow between the hydraulic chamber 20 and the balance chamber 22 is allowed.

Based on the flow action of the fluid capable of flowing in the orifice passage 18, a high attenuation effect on the input vibration in the low frequency range can be exhibited, and the fluid accompanying the deformation of the flexible film 60 Based on the flow action of, the damping effect on the input vibration in the high frequency range can be exerted.

In particular, the flexible film 60 is flexible so that the center portion thereof is deformed according to the vibration without any obstacle in the vibration direction. Such a flexible film 60 has a problem in that it cannot attenuate only one frequency band of various vibration states generated in the engine.

The present invention has a problem to solve the above problems.

The present invention provides a magnetic material that divides the center portion of the flexible membrane into a washbasin and the shape portion and a cover covering the washbasin and the shape portion, and becomes magnetically rigid when selectively magnetized to the washbasin and the shape and weak when not magnetized. The magnetic material is sealed by heat sealing, plastic welding, rubber adhesive, high frequency bonding to the flange of the washbasin and the shaped portion, and the other end of the conductor having one end connected to the magnetic material is magnetic. The main problem can be solved by contacting the magnetic generating portion.

According to the present invention, the weak flexible deformation and the rigid flexible deformation of the middle portion of the flexible membrane according to the fluid flow enclosed in the engine mount are selectively provided to the middle portion by the above-described problem solving means. It is possible that the engine mount of attenuates vibrations in a wider range of frequency bands than the types of frequency bands that can be damped with respect to the engine.

1 is a cross-sectional view of a conventional engine mount,
FIG. 2 is a cross-sectional view illustrating an improvement of the partition member and the flexible membrane provided in FIG. 1 according to the present embodiment; FIG.
3 is an exploded perspective view of the partition member and the flexible membrane of FIG. 2;

The flexible film provided in the partition member of the engine mount according to the present embodiment will be described with reference to FIGS. 2 and 3 as follows.

2 and 3 show that the flexible film according to the present embodiment is indicated as 60 and is incorporated in the partition member 52.

The partition member 52 has a through-hole 56 formed in the center of the partition member 52 as in the related art, and a cover portion covering the body 53 except for the through-hole 56. (54).

An orifice passage 18 is formed at a circumferential edge of the body 53 and extends at a predetermined length in the circumferential direction, and a portion of the bottom wall 53a of the body defining the orifice passage 18 is equilibrated. An opening 55 is formed in circulation with the seal 22 (shown in FIG. 1). In addition, the orifice passage 18 is formed with a partition wall 53b for blocking the flow with the opening 55.

The radially outer wall portion 53c defining the orifice passage 18 is provided with a sheet portion 53d on which the edge portion of the lid portion 54 can be seated.

In addition, the inner peripheral surface of the through hole 56 is formed with a sheet portion 53e on which the edge portion of the flexible film 60 can be seated.

As shown in FIG. 2, the flexible film 60 includes a rubber washbasin and a shape portion 71, a rubber cover 72 covering the whole of the washbasin and the shape portion 71. A magneto rheological fluid 73 filled in the space S partitioned by the washbasin and the shape portion 71 and the cover portion 72 is included.

The magnetic fluid 73 is a known fluid and is a fluid whose viscosity is changed by the load of a magnetic field.

The magnetic fluid 73 is filled in the space S. First, the washbasin and the shape portion 71 and the lid portion 72 are separately vulcanized and cured, and then the cured washbasin. After filling the magnetic fluid 73 in the concave portion 71a of the vortex portion 71, the lid S 72 is covered with the washbasin portion 71 so that the space S is closed. The flange 71b of the washbasin and the shape portion 71 and the edge portion 72a of the cover portion 72 which are in contact with each other in a formed state are thermally fused or high frequency bonded, or a ring of plastic material therebetween. And the plastics are bonded to each other by bonding the plastics or by bonding the plastics to each other, or the rubbers are interposed therebetween, and the space S is sealed with the outside by any one of the above methods.

In addition, in order to apply a magnetic field load to the magnetic fluid 73, the inner peripheral surface of the through hole 56 of the body 53, the coil circumscribed to the washbasin and the shape portion 71 of the flexible membrane 60 A sheet portion 53f on which 74 is seated is formed. The sheet portion 53f is disposed below the sheet portion 53e and has an inner diameter smaller than that of the sheet portion 53e.

In addition, the cover portion 54 is formed with an opening 62 that flows with a portion of the orifice passage 18 facing the opening 55 with the partition 53b therebetween.

The coil 74 is connected to an external current supply means (not shown).

The flexible membrane 60 and the partition bag 52 configured as described above are acted as follows.

That is, both ends of the orifice passage 18 of the partition member 52 are circulated between the hydraulic chamber 20 and the balance chamber 22, and these hydraulic pressures are passed through the orifice passage 18. The flow of the fluid between the chamber 20 and the balance chamber 22 is allowed as usual.

In addition, the hydraulic pressure in the hydraulic chamber 20 (see FIG. 1) and the balance chamber 22 (see FIG. 1) is insulated with respect to both surfaces of the flexible film 60, respectively, based on the deformation of the flexible film 60. In addition, substantial fluid flow between the hydraulic chamber 20 and the balance chamber 22 is allowed.

Based on the flow action of the fluid capable of flowing in the orifice passage 18, a high attenuation effect on the input vibration in the low frequency range can be exhibited as in the prior art, and the deformation of the flexible film 60 Based on the fluid flow accompanying, the damping effect on the input vibration in the high frequency region can be exhibited as in the prior art.

Further, the flexible film 60 is varied according to the pressure of the pressure receiving chamber 20 when no current is applied to the coil 74 by the current supply means, and the coil 74 by the current supply means. When the current is applied to the magnetic flux, the magnetic fluid 73 is magnetized to increase its viscosity and harden, thereby damping the vibration of another frequency domain.

18; Orifice, 20; Hydraulic chamber, 22; Equilibrium, 52; Partition member 53; Body, 53a; Bottom wall, 53b; Bulkhead, 53c; Radially outer wall, 53d; Seat portion 53e; Seat portion 53f; Seat portion 54; Cover, 55; Opening 56; Through hole, 60; Flexible membrane, 61; Through hole, 62; Opening, 71; Washbasin and shape, 71a; Recessed portion 71b; Flange, 72; Cover portion 72a; Edge 73; Magnetic fluid, 74; Coil, S; space

Claims (3)

The first and second mounting brackets 12, 14 arranged at a predetermined distance from each other in the vibration input direction are elastically connected by rubber elastic bodies 16 interposed therebetween. At the same time, in the engine mount provided with the pressure chamber 20 and the balance chamber 22 which can communicate with each other through the orifice passage 18 therein,
The partition member 52 is accommodated in the inside of the second attachment bracket 14,
The partition member 52 includes a body 53 in a ring shape, and a cover portion 54 covering the body 53,
An orifice passage 18 is formed at a circumferential edge of the body 53 and extends a predetermined length in the circumferential direction, and a portion of the bottom wall 53a of the body defining the orifice passage 18 is hydraulic pressure. An opening 55 is formed to communicate with the seal 20. A partition 53b is formed in the orifice passage 18 to block the flow of the opening 55. In the center of the body 53, an opening 55 is formed. A through hole 56 is formed, and a sheet portion 53d is formed in the radially outer wall portion 53c that defines the orifice passage 18 so that the edge portion of the lid portion 54 can be seated. And, the inner peripheral surface of the through hole 56 is formed with a sheet portion 53e on which the edge portion of the flexible film 60 can be seated,
The flexible membrane 60 is a rubber washbasin and the shape portion 71, a rubber cover portion 72 covering the entire washbasin and the shape portion 71, and the washbasin and the shape portion 71 ) And a magnetic fluid 73 filled in the space S partitioned by the cover part 72.
The magnetic fluid 73 is cured by separately vulcanizing the washbasin and the shape portion 71 and the cover portion 72, and then the concave portion 71a of the hardened washbasin and the shape portion 71. After filling the magnetic fluid 73 in the, the washbasin and the washbasin is in contact with each other in the state in which the space (S) is closed to cover the cover portion 72 in the shape portion (71) The flange 71b of the vortex portion 71 and the edge 72a of the lid portion 72 are bonded to each other and filled in the space S.
The magnetic fluid 73 is connected to an external current supply means,
The cover portion 54 is formed with an opening 62 which flows with a portion of the orifice passage 18 facing the opening 55 with the partition 53b therebetween,
The cover portion (54) is an engine mount, characterized in that for covering the body (53) except the through hole (56). The method of claim 1,
In order to apply a magnetic field to the magnetic fluid 73,
On the inner circumferential surface of the through hole 56 of the body 53 is formed a sheet portion 53f on which the coil 74 external to the washbasin and shape portion 71 of the flexible membrane 60 is seated.
The sheet portion 53f is disposed below the sheet portion 53e and has an inner diameter smaller than that of the sheet portion 53e.
And the coil (74) is connected to an external current supply means. 3. The method according to claim 1 or 2,
The method for bonding the flange 71b of the washbasin and the shape portion 71 and the edge 72a of the lid portion 72 may be performed by thermal fusion or high frequency bonding, or by interposing a ring of plastic material therebetween. And any one of the methods of adhering them by fusion or adhering them by interposing a rubber adhesive therebetween.

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