JP3454571B2 - Controlled liquid fill mount - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid-filled mount for supporting a vibration body such as an automobile engine in a vibration-proof manner.
The present invention relates to a control-type liquid-filled mount in which an actuator for controlling a switching valve for opening and closing an orifice is provided inside to reduce the size and weight of the whole.

[0002]

2. Description of the Related Art Generally, in a vibrating body such as an automobile engine, various vibrations are generated according to the number of revolutions. Therefore, a mount capable of effectively damping these vibrations is strongly required. ing.

As such a mount, for example, a mount as shown in FIG. 22 is known, and this mount is a so-called liquid-sealed mount in which a liquid is sealed, and a partition wall 82 provided in a case 81. Forming a main liquid chamber 84 surrounded by a support spring 83 on the upper surface side of
A sub liquid chamber 86 surrounded by a diaphragm 85 is formed on the lower surface side of the partition wall 82, and further, the partition wall 82 is provided with a first orifice 87 that communicates between the main liquid chamber 84 and the sub liquid chamber 86. , Second with a larger effective area than this
The orifice 88 and the switching valve 89 for opening and closing the two orifices 87, 88 are provided, and the actuator 90 for operating the switching valve 89 is provided outside the case 81.

The switching valve 89 has a cylindrical main body portion 89a having one end closed inside the partition wall 82, and one end connected to the central portion of the closed main body portion 89a. The end of the rod 89b penetrates the partition wall 82 and projects to the outside of the case 81. The portion of the rod 89b projecting from the case 81 is connected to the actuator 90.

However, in the conventional mount constructed as described above, since the actuator 90 for operating the switching valve 89 is attached to the outside of the case 81, the entire size becomes large, and the size and weight are reduced. It will be of low practical value as a required mount for an automobile engine or the like. Also, the rod 8 of the switching valve 89
Since a part of 9b projects outside the case 81, strict corrosion resistance is required, and further, the rod 89 of the switching valve 89
Since b has to be connected to the actuator 90, the shapes of both connecting parts are complicated and the manufacturing cost is high.

On the other hand, Japanese Unexamined Patent Publication (Kokai) No. 5-240290 discloses a mount which solves the above-mentioned problems. This mount is also a so-called liquid sealed mount in which a liquid is sealed inside, and is mounted in a housing. A working chamber surrounded by a spring element (support spring) is formed on the upper surface side of the partition wall provided, and a compensation chamber surrounded by a spring element (diaphragm) is formed on the lower surface side of the partition wall, and further,
At least one through hole is formed in the partition wall so that the two chambers communicate with each other, and an adjusting member for opening and closing the through hole is provided in the compensation chamber, and the adjusting member is formed in the housing. It is made operable by introducing an appropriate pressure medium into the.

However, in the conventional mount constructed as described above, since the adjusting member for opening and closing the through hole that communicates between the working chamber and the compensation chamber is provided inside (the compensation chamber), Although it is possible to reduce the size and weight of the entire device, the movement of the adjusting member is hindered because the pressure fluctuation in the working chamber when vibration is input directly acts on the adjusting member.
There is a problem in that the response when opening and closing the through hole is delayed and the desired damping effect cannot be obtained.

The present invention solves the above-mentioned problems of the conventional ones. By reducing the size and weight of the whole and increasing the responsiveness when opening and closing the orifice, the desired damping effect is obtained. It is an object of the present invention to provide a controllable liquid-filled mount capable of reliably obtaining.

[0009]

Means for Solving the problems] The present invention to solve the above problems, as well as providing the partition into the case, the support spring is provided on the upper surface of the partition wall, and the partition
The liquid forms a main liquid chamber which is sealed between said support spring,
The partition wall and the front provided with a diaphragm on the lower surface side of the partition
To form a sub-liquid chamber which is sealed liquid between a serial diaphragm, said partition wall and the other end one end communicates with the main liquid chamber the
A first orifice communicating with the sub liquid chamber and one end of the main liquid
A second orifice having a larger effective cross-sectional area than the first orifice, the second orifice communicating with the chamber and the other end communicating with the auxiliary liquid chamber ;
The upper surface side is in contact with the liquid in the main liquid chamber, and the lower surface side is the first
The communication state between the sub-diaphragm that operates only when the first orifice that is in contact with the liquid in the sub-liquid chamber via the orifice and the main liquid chamber and the sub-liquid chamber is set to the above-mentioned state . moving direction first orifice or said second orifice
With switches in the direction perpendicular to the first cage
Fis, the second orifice, and the sub-diaphragm
A switching valve that is movable in a state of being separated from the ram is provided, and a means that includes an actuator that operates the switching valve in the case is adopted. Further, provided with a partition wall inside the case, the support spring is provided on the upper surface of the partition wall, the liquid forms a main liquid chamber which is sealed between the support spring and the partition wall, diaphragm on the lower surface of the partition wall the provided form the auxiliary liquid chamber filled with liquid between said partition wall and said diaphragm, said partition wall, one end
Is connected to the main liquid chamber and the other end is connected to the sub liquid chamber .
Of the orifice, and one end communicates with the main liquid chamber and the other end
A large second orifice of the first effective cross-sectional area than the orifice which communicates with the auxiliary liquid chamber, with only operates during the operation of the first orifice, the lower surface side in contact with the upper surface side to the liquid in the main liquid chamber A sub-diaphragm that forms an auxiliary liquid chamber, and one end communicates with the auxiliary liquid chamber and the other end has the first
Communicates with the sub-liquid chamber through a common communication hole with the orifice
A third that operates only when the first orifice that operates
State of communication between the main liquid chamber and the sub liquid chamber
The shift to the first orifice and the second orifice
While switching in a direction orthogonal to the moving direction , the first
Orifice, second orifice, third orifice,
And movable while being isolated from the sub diaphragm
And a switching valve and an actuator for operating the switching valve is provided in the case. Further, the switching valve is provided in the partition wall so as to be movable in the vertical direction, and establishes a communication state between the main liquid chamber and the sub liquid chamber in the direction orthogonal to the moving direction by the first orifice or It switched to the second orifice
Is configured so that the first orifice and the second
The means which is constructed so that the pressure fluctuation in the main liquid chamber is not directly applied to the opening / closing part of the orifice is adopted. Further , the switching valve is provided in the partition wall so as to be movable in the vertical direction, and is arranged in a direction orthogonal to the moving direction.
To switch the communication state between the auxiliary liquid chamber with said main liquid chamber to said first orifice or said second orifice
Configured to, when switching from said second orifice to said first orifice, employs the opening area of the opening and closing portion of the second orifice is configured to be gradually reduced after reaching once increased It was done.

[0010]

According to the present invention, by adopting the above means, when the switching valve switches to the first orifice, the main liquid chamber and the sub liquid chamber communicate with each other through the first orifice. At the same time, the sub-diaphragm becomes operable. On the other hand, when the switching valve switches to the second orifice, the main liquid chamber and the sub liquid chamber communicate with each other via the second orifice, and the sub diaphragm becomes inoperable. In addition, an auxiliary liquid chamber is formed on the lower surface side of the sub diaphragm, and a third space is provided between the auxiliary liquid chamber and the auxiliary liquid chamber.
When the switching valve switches to the first orifice, the main liquid chamber and the sub liquid chamber communicate with each other via the first orifice and the third orifice, The liquid in the auxiliary liquid chamber acts on the lower surface side of the diaphragm via the auxiliary liquid chamber and the third orifice. Further, since the switching valve for opening and closing the orifice is provided in the partition wall and the actuator for operating the opening / closing valve is provided in the case, the overall size and weight can be reduced. Since the pressure fluctuation in the main liquid chamber is not directly applied to the opening / closing portions of the first orifice and the second orifice, the operation of the switching valve can be made smooth. Then, when the second orifice is switched to the first orifice by the switching valve, the opening area of the opening / closing portion of the second orifice once becomes large and then gradually becomes smaller, and a sudden rise of the dynamic spring is prevented. It will be.

[0011]

Embodiments of the present invention shown in the drawings will be described below. 1 to 8 show a first embodiment of a controllable liquid-filled mount according to the present invention. This controllable liquid-filled mount is provided with a partition wall 5 inside a cylindrical case 1. , A support spring 18 on the upper surface side of the partition wall 5.
A main liquid chamber 20 in which a liquid is sealed between the partition wall 5 and the support spring 18, and a sub-liquid chamber in which a diaphragm 23 is provided on the lower surface side of the partition wall 5 and a liquid is sealed between the partition wall 5 and the diaphragm 23. 24, each of which is formed in the partition wall 5, and has a first orifice 14 that communicates between the main liquid chamber 20 and the sub liquid chamber 24, and a second orifice 15 having a larger effective cross-sectional area. , A sub-diaphragm 31 that operates only when the first orifice 14 operates, and a switching valve 28 that opens and closes the first orifice 14 or the second orifice 15, and further, the switching valve in the case 1. An actuator 25 for operating 28 is provided.

The case 1 is an upper case 2 having a cylindrical shape.
And a cylindrical lower case 3 in which an upper end opening is integrally crimped to a lower end opening of the upper case 2, and the partition wall 5 is provided on the inner peripheral side of the upper case 2.

As shown in FIGS. 2 and 3, the partition wall 5 has a cylindrical first orifice plate 6 having a closed upper end, and a circle fitted inside the first orifice plate 6. A plate-shaped second orifice plate 7;
Disc-shaped third orifice plate 13 that closes the opening of the orifice plate 6 of FIG. 1, and a first orifice 14 and a second orifice 15 which will be described later are formed between these orifice plates 6, 7, 13. It is supposed to be done.

At the closed upper end of the first orifice plate 6, a plurality of substantially fan-shaped openings 6a penetrating from the upper surface side to the lower surface side are concentrically provided at predetermined intervals. A circular arc-shaped first orifice inlet 6b penetrating from the upper surface side to the lower surface side at a position facing outwardly in the radial direction with respect to the center of the first orifice plate 6, and And a second arc-shaped second orifice inlet 6c, each of which has a long arc shape, and a pressure releasing hole 6d of an appropriate size penetrating from the upper surface side to the lower surface side is formed in the central portion (FIG. 4). And FIG. 5).

As shown in FIGS. 6 and 7, the second orifice plate 7 has a cylindrical main body portion 8 and an annular orifice located radially outward of the main body portion 8 with a predetermined gap. The rib portion 1 is composed of a portion 9 and a thin annular rib portion 10 that integrally connects between appropriate positions in the vertical direction between the orifice portion 9 and the body portion 8 over the entire circumference.
0, the inner peripheral surface of the orifice portion 9 and the outer peripheral surface of the main body portion 8 surround the sub diaphragm 3 which will be described later.
An annular recess 10a for housing 1 is formed.

A circular arc-shaped first orifice groove 9a penetrating from the upper surface side to the lower surface side is provided at a position facing the center of the body portion 8 of the orifice portion 9, and an effective cross-sectional area larger than this is formed. Large arcuate second orifice groove 9
b and b are respectively drilled.

A first through hole 9c for opening the inside of the groove to the lower surface side of the rib portion 10 is formed at one end of the inner wall of the first orifice groove 9a. In the portion of the main body portion 8 facing the through hole 9c of
A first communication hole 8a that communicates the inside and outside of the main body portion 8 is formed. In addition, a second through hole 9d for opening the inside of the groove to the lower surface side of the rib portion 10 is formed at one end of the inner wall of the second orifice groove 9b, and the second through hole 9d is formed. In the portion of the main body 8 facing the through hole 9d,
A second communication hole 8b for communicating the inside and outside of the main body portion 8 is formed,
In this case, a pair of ribs 11, 11 are integrally provided on the lower surface side of the rib portion 10 from the second through hole 9d to the second communication hole 8b (see FIG. 8).

On a concentric circle centered on the center of the main body portion 8 of the rib portion 10, a fan-shaped opening 10b penetrating from the upper surface side to the lower surface side is formed in the circumferential direction in the first orifice plate 6 The recesses 10a are formed at the same pitch as the openings 6a of the ribs 10 and are formed on the upper surface side of the rib 10 so as to close the openings 10b.
A thin-walled annular sub-diaphragm 31 made of an elastic body such as a rubber-like elastic body is mounted therein.

Then, as described above, the sub diaphragm 3
The second orifice plate 7 mounted with No. 1 is fitted inside the first orifice plate 6, and the disk-shaped third orifice plate 13 is mounted at the lower end opening of the first orifice plate 6. Thus, the upper and lower surface openings of the first orifice groove 9a and the upper and lower surface openings of the second orifice groove 9b are closed, and the first orifice 14 is formed at a portion corresponding to the first orifice groove 9a. The second orifice groove 9b at the portion corresponding to the second
The orifice 15 is formed.

One end of the first orifice 14 is opened to the upper surface side of the first orifice plate 6, that is, the upper surface side of the partition wall 5 through the first orifice inlet 6b, and the first orifice 14 is formed. The other end of the first
Through the through hole 9c and the first communication hole 8a, and the first through hole 9c is opened to the inside of the main body portion 8.
The first communication hole 8a is opened to the lower surface side of the rib portion 10, that is, the lower surface side of the sub diaphragm 31. Further, one end of the second orifice 15 is opened to the upper surface side of the first orifice plate 6, that is, the upper surface side of the partition wall 5 through the second orifice inlet 6c, and The other end is
The second through hole 9d and the second communicating hole 8b are opened to the inside of the main body portion 8. In this case, the second through hole 9d and the second communicating hole 8b are formed by a pair of ribs 11, 11.
Therefore, the rib portion 10 is not opened to the lower surface side, that is, the lower surface side of the sub diaphragm 31.

An annular support plate 16 is integrally connected to the upper end portion of the upper case 2 by a bolt 17, and an inner peripheral side of the support plate 16 has a space where the lower surface side opens inside. The lower end opening of the support spring 18 made of an elastic body such as a substantially conical rubber elastic body provided with 19 is integrally connected by vulcanization adhesion or the like.
By providing the support spring 18 at the upper end of the above, a main liquid chamber 20 in which a liquid is sealed is formed between the space 19 of the support spring 18 and the partition wall 5.

In this case, a rigid boss sleeve 21 is embedded at the top of the support spring 18, and a bowl-shaped bracket 22 is provided at the upper end of the upper case 2 so as to surround the support spring 18. The lower end opening is connected and the bracket 22 protects the support spring 18 from an impact or the like.

Between the upper case 2 and the lower case 3,
A bowl having a peripheral portion of a diaphragm 23 made of an elastic body such as a thin disk-shaped rubber elastic body having a hole 23a of an appropriate size in the center and a hole 4a for introducing pressure in the center. The peripheral edge of the shaped lower cover 4 is caulked with the diaphragm 23 on the upper side.
In this case, in the hole 23a at the center of the diaphragm 23, a lower end opening of a substantially cylindrical inner ring 27 having a closed upper end is integrally connected by vulcanization adhesion or the like. By connecting the inner ring 27 to the inner ring 27, a sub liquid chamber 24 in which a liquid is sealed is formed between the upper surface of the diaphragm 23 and the partition wall 5.

On the bottom surface side in the lower cover 4, a lower end peripheral portion of a spring member 26 made of an elastic body such as a rubber bowl-like elastic body having an appropriate size and having a hole 26a of an appropriate size in the center is fitted. And the hole 2 at the center of the spring member 26.
The lower end opening of the inner ring 27 is integrally connected to 6a by vulcanization adhesion or the like. In this case, the central part of the spring member 26 and the central part of the diaphragm 23 are integrally connected on the inner ring 27. It is supposed to be done.

A protrusion 27a projecting upward in the drawing is integrally formed at the center of the closed upper end of the inner ring 27, and the upper surface of the protrusion 27a is fitted into the main body 8 of the partition wall 5. A switching valve 28 of a size to be obtained is integrally connected by welding or the like. In this case, the switching valve 28 has a cylindrical shape with its upper end closed, and is integrally connected to the upper end of the protrusion 27a with its opening facing downward, and at an appropriate position on the peripheral surface. A first hole 28a that can be matched with the first communication hole 8a that communicates the inside and the outside and a second hole 28b that can be matched with the second communication hole 8b are provided in each.

A spring 29 is mounted inside the inner ring 27, and the inner ring 27 is always urged upward in the figure by the urging force of the spring 29.

An actuator 25 is constituted by the inner ring 27, the spring 29 and the spring member 26, and the lower cover 4, the spring member 26 and the inner ring 27 are formed.
A pressure chamber 30 is formed in a portion surrounded by and, and by introducing an appropriate pressure into the pressure chamber 30 through a pressure introducing hole 4a in the central portion of the lower cover 4, the inner ring 27 is It moves vertically in the figure against the urging force of the spring 29 or in accordance therewith, whereby the switching valve 28 opens or closes the first orifice 14 or the second orifice 15. There is.

Next, the operation of the above will be described. First, the boss sleeve 21 is connected to an unillustrated engine side that is a vibrating body, the lower case 3 is connected to a vehicle body side (not illustrated) that is a support body, and various vibrations are input from the engine when the engine is started.

In the normal state, the actuator 2
The inner ring 27 of No. 5 is urged upward in the figure by the urging force of the spring 29, and the first hole 28a of the switching valve 28 and the first communication hole 8a of the second orifice plate 7 above the inner ring 27 are connected. Are the same and the space between the main liquid chamber 20 and the sub liquid chamber 24 is the first
The communication is established via the orifice inlet 6b, the first orifice 14, the first through hole 9c, the first communication hole 8a, and the first hole 28a.

In this state, the sub diaphragm 3
1 on the upper surface side of each opening 6 of the first orifice plate 6
The liquid in the main liquid chamber 20 acts via a, and the lower surface side of the sub-diaphragm 31 extends from the first through hole 9c to the first communicating hole 8
A part of the liquid flowing into a acts. Therefore, the upper side of the sub diaphragm 31 is in contact with the liquid in the main liquid chamber 20, and the lower side is in contact with the liquid in the sub liquid chamber 24.
The sub-diaphragm 31 is in a displaceable state, and the input vibration can be damped by the liquid column resonance action of the first orifice 14, and at the same time, the sub-diaphragm 31 is displaced in a phase opposite to that of the vibration input to the liquid in the main liquid chamber 20. Pulsations can be generated.

On the other hand, when an appropriate pressure (negative pressure in this embodiment) is introduced into the pressure chamber 30 of the actuator 25 through the pressure introducing hole 4a of the lower case 3, the spring member 26 of the actuator 25 causes the spring 29 to move. Is displaced downward in the figure against the biasing force of the spring member 26, and the inner ring 27 and the switching valve 28 move downward in the figure following the displacement of the spring member 26, and the first hole 28a of the switching valve 28 and the first hole 28a The first orifice plate 6 is closed between the first communication hole 8a and the second communication hole 8a.
28b of the main liquid chamber 20 and the second communication hole 8b
And the sub liquid chamber 24 are in communication with each other via the second orifice inlet 6c, the second orifice 15, the second through hole 9d, the second communication hole 8b, and the second hole 28b.

In this state, the liquid in the main liquid chamber 20 acts on the upper surface side of the sub diaphragm 31 through the respective openings 6a of the first orifice plate 6, but the first lower surface of the sub diaphragm 31 has the first liquid. The liquid is prevented from acting by the pair of ribs 11, 11 located between the second through hole 9d and the second communication hole 8b. Therefore, since the sub-diaphragm 31 is in the restrained state, it is possible to damp the input vibration only by the liquid column resonance action of the second orifice 15.

In the control type liquid-filled mount according to this embodiment having the above-described structure, the first orifice 14 and the second orifice 15 which connect the main liquid chamber 20 and the sub-liquid chamber 24 are connected to each other. Since the switching valve 28 that opens and closes is provided in the partition wall 5 and the actuator 25 that operates the switching valve 28 is provided in the case 1, the overall size can be significantly reduced.

Further, since the actuator 25 has a simple structure composed of the inner ring 27, the spring member 26 and the spring 29, it can be easily processed and assembled, and the manufacturing cost can be greatly reduced. Further, since the switching valve 28 is integrally connected to the upper part of the inner ring 27 of the actuator 25 by welding or the like, the shape of the connecting portion between the switching valve and the actuator becomes complicated as in the conventional case. Also, the number of parts can be reduced. Then, the inner ring 27 of the actuator 25 is provided with a first hole 28a and a second hole 28b penetrating in a direction orthogonal to the moving direction thereof, and these holes 28a, 28b are formed.
Since the first orifice 14 or the second orifice 15 is opened / closed via the valve, the pressure fluctuation in the main liquid chamber 20 does not directly act on the opening / closing portion of the inner ring 27, and when switching the orifice. The responsiveness of can be significantly improved.

FIGS. 9 to 15 show a second embodiment of the controllable liquid-filled mount according to the present invention. This controllable liquid-filled mount has a partition wall 4 inside a case 41.
5, the support spring 58 is provided on the upper surface side of the partition wall 45.
Is provided to form a main liquid chamber 61 in which a liquid is sealed between the partition wall 45 and the support spring 58, and a diaphragm 62 is provided on the lower surface side of the partition wall 45 to fill a liquid between the partition wall 45 and the diaphragm 62. A liquid chamber 63 is formed, and the partition wall 45 communicates between the main liquid chamber 61 and the sub liquid chamber 63 with each other.
Of the first orifice 5 and the main liquid chamber 61 and the auxiliary liquid chamber 63 are communicated with each other.
A second orifice 54 having an effective area larger than 3;
The sub-diaphragm 56, which operates only when the first orifice 53 operates, and whose upper surface side contacts the liquid in the main liquid chamber 61 and forms the auxiliary liquid chamber 57 on the lower surface side, and the operation of the first orifice 53. A switching valve 64 that operates only when and that switches between the auxiliary liquid chamber 57 and the auxiliary liquid chamber 63 and the third orifice 55 and the first orifice 53 or the second orifice 54. And an actuator 68 for operating the switching valve 64 is provided in the case 41.

The case 41 is a cylindrical upper case 4
2, a cylindrical middle case 43 in which an upper end opening is integrally crimped to a lower end opening of the upper case 42, and a cylindrical shape in which a lower end fitted into the lower end opening of the middle case 43 is closed. The lower case 44 is formed, and the partition wall 45 is provided inside the middle case 43.

The partition wall 45 has a tubular shape with a closed lower end, a through hole 46a of an appropriate size is bored in the central portion of the closed portion, and the upper end opening peripheral portion is the upper portion. An outer frame 46 that is sandwiched and fixed between the case 42 and the middle case 43, a disk-shaped orifice plate 47 that closes the upper end opening of the outer frame 46, and an inner portion of the outer frame 46 are formed. And a substantially columnar orifice body 48 to be mounted in the empty space.

At the center of the upper surface of the orifice body 48,
A circular recess 49, a part of which is cut away, is formed at an appropriate depth, and a truncated cone-shaped projection 49a protruding upward in the drawing is integrally formed at the center of the bottom surface of the recess 49. At the same time, a stepped portion 49b is bored over the entire circumference on the inner peripheral side of the opening peripheral edge of the recessed portion 49, and the stepped portion 49b is made of a thin disk-shaped disc made of an elastic body such as a rubber-like elastic body. The peripheral portion of the sub diaphragm 56 is attached. By mounting the sub-diaphragm 56 in the opening of the recess 49 in this way, a circular auxiliary liquid chamber 57 is partially cut between the lower surface of the sub-diaphragm 56 and the bottom of the recess 49. Are formed.

A cylindrical space 50 is bored at an appropriate depth in the central portion of the lower surface of the orifice body 48 (on the rear surface side of the recess 49), and inside the space 50, there is the switching described later. The valve 64 is mounted, and the outside of the void 50 (outside the cutout portion of the recess 49) is
A circular arc-shaped third orifice groove 48a having an upper end opening to the upper surface side of the orifice body 48, a lower end opening to the lower surface side of the orifice body 48, and a part of the upper end portion communicating with the auxiliary liquid chamber 57. And a second thick and short arc-shaped second orifice whose upper end is open to the upper surface side of the orifice body 48 on the outer side of the void 50 (outside the non-notched portion of the recess 49). The groove 48b is formed with an appropriate depth. As described above, the third orifice groove 48a and the second orifice groove 48 are provided outside the void 50.
By forming b, a wall portion 48c having an appropriate thickness is formed between the void 50 and the third orifice groove 48a and between the void 50 and the second orifice groove 48b. , The wall 48c is provided with a third orifice groove 48a
And a space 50 are provided with a first outlet 51, and a second orifice groove 48b and a space 50 are provided with a second outlet 52.

On the peripheral surface of the orifice body 48, a narrow and long spiral groove 48d for the first orifice, which communicates from the upper surface side to the lower surface side of the orifice body 48, is formed.
One end of the orifice groove 48d communicates with one end of the second orifice groove 48b, and the other end thereof communicates with the first outlet 51.
It is designed to communicate with.

A plurality of holes 47a penetrating from the upper surface side to the lower surface side are formed in the central portion of the orifice plate 47 corresponding to the sub diaphragm 56.
The upper surface side of the sub diaphragm 56 is opened to the upper surface side of the partition wall 45 through these holes 47a, and
An opening (not shown) shared by both grooves for opening the first orifice groove 48d and the second orifice groove 48b to the upper surface side of the partition wall 45 is formed at an appropriate position outside the 7a. Has been done.

Then, the sub-diaphragm 56 is attached to the opening of the recess 49 of the orifice body 48 constructed as described above, and in this state the orifice body 48 is attached inside the outer frame 46 and the opening of the outer frame 46 is opened. By closing the portion with the orifice plate 47, the first orifice groove 4 is formed.
One end of the portion corresponding to 8d is opened to the upper surface side of the partition wall 45 through the opening (not shown) of the orifice plate 47, and the other end is passed through the first outlet 51 of the wall 48c of the orifice body 48. The thin and long spiral first orifice 53 communicating with the space 50 of the orifice body 48 is a portion corresponding to the second orifice groove 48b, and one end is through an opening (not shown) of the orifice plate 47. And a second short and thick arc-shaped second orifice 54 that opens to the upper surface side of the partition wall 45 and has the other end communicating with the space 50 of the orifice body 48 via the second outlet 52 of the wall portion 48c of the orifice body 48. But,
One end of the portion corresponding to the third orifice groove 48a communicates with the auxiliary liquid chamber 57 on the lower surface side of the sub diaphragm 56,
The other end is the first outlet 51 of the wall 48c of the orifice body 48.
The arc-shaped third orifices 55 are formed so as to communicate with the voids 50 of the orifice body 48 via the holes.

On the inner peripheral side of the upper end of the upper case 42, a lower end opening of a support spring 58 made of an elastic body such as a rubber-like elastic body having a substantially conical shape is provided, in which a space whose lower surface is opened is provided inside. The support spring 58 is integrally connected by vulcanization adhesion or the like, and a top portion of the support spring 58 is embedded with a top-shaped boss 59 having a bolt 60 for connecting to a vibration body such as an engine mounted at its center. Thus, the upper case 42
By providing the support spring 58 on the inner peripheral side of the upper end of the and the boss 59 on the top of the support spring 58, the main liquid chamber 61 in which an appropriate liquid is sealed is formed on the upper surface side of the partition wall 45. ing.

Between the outer peripheral surface of the outer frame 46 of the partition wall 45 and the inner peripheral surface of the lower case 44, a diaphragm 6 made of an elastic body such as a rubber-like elastic body having a closed bottom end is formed.
The upper end opening of 2 is clamped and fixed, and a sub liquid chamber 63 in which a liquid is sealed is formed between the upper surface of the diaphragm 62 and the lower surface of the outer frame 46 of the partition wall 45.

Vacancy 5 in the orifice body 48 of the partition wall 45
In 0, a switching valve 64 is mounted so as to be movable up and down, and the switching valve 64 opens and closes the first outlet 51 and the second outlet 52 of the wall portion 48c of the orifice body 48. There is.

The switching valve 64 has a cylindrical shape with a closed lower end, and the closed lower end is integrally connected to the central portion of the diaphragm 62 via a through hole 46a in the outer frame 46 of the partition wall 45. The inner ring 65 and a cylindrical outer ring 67 having a closed upper end that is integrally connected to the upper end opening of the inner ring 65 so as to close the inner ring 65.
From the upper surface of 7 to the peripheral surface, substantially fan-shaped window holes 66 are formed in four equal distributions, and the upper and lower surfaces of the outer ring 67 communicate with each other through the window holes 66, and the outer peripheral surface of the outer ring 67 is formed. Are in sliding contact with the inner peripheral surface of the void 50.

The switching valve 64 is provided in the space 50.
When the inside is moved upward, the first outlet 51 is opened and the second outlet 52 is closed (see FIG. 1).
4), when the switching valve 64 moves downward in the space 50, the first outlet 51 is closed and the second outlet 52 is opened (FIG. 4). 15
reference).

Inside the lower case 44 below the diaphragm 62, a body 69 having an inverted bowl shape, an inner peripheral edge portion integrally connected to a lower end opening of the main body portion 69, and an outer peripheral edge portion. Is a spring portion 70 made of an elastic body such as an annular rubber-like elastic body fitted to the inner peripheral surface of the lower case 44.
And the spring 71 mounted between the main body 69 and the bottom surface of the lower case 44.
8 is installed.

In this case, the top of the main body 69 is integrally connected to the center of the diaphragm 62, and
A pressure introducing hole 72 is formed in the center of the bottom surface of the lower case 44, and the actuator 6 is inserted through the pressure introducing hole 72.
An appropriate pressure is introduced into the pressure chamber 73 formed inside the pressure chamber 8.

Then, for example, when a negative pressure is introduced into the pressure chamber 73 of the actuator 68 through the pressure introducing hole 72, the spring portion 70 is displaced downward in the figure, whereby the main body portion 69 is displaced downward. Then, following this, the switching valve 64 is displaced downward in the drawing, the first outlet 51 of the wall portion 48c of the orifice body 48 is closed, and the second outlet 52 of the wall portion 48c of the orifice body 48 is closed. It will be released. On the other hand, when the introduction of the negative pressure into the pressure chamber 73 of the actuator 68 is stopped, the spring portion 70 is displaced upward in the figure, whereby the main body portion 69 is displaced upward, and the switching is performed following this. The valve 64 is displaced upward in the drawing, the first outlet 51 of the wall portion 48c of the orifice body 48 is opened, and the second outlet 52 of the wall portion 48c of the orifice body 48 is closed.

Next, the operation of the above will be described. First, the boss 59 is connected to an unillustrated engine side which is a vibrating body, and the lower case 44 is connected to an unillustrated vehicle body side which is a support body. When the engine is operated, various vibrations are input from the engine.

In the normal state, the actuator 6
The main body 69 of No. 8 is urged upward in the drawing by the urging force of the spring 71, and the switching valve 64 is urged upward in the drawing following this, and the outer ring 67 of the switching valve 64 causes the second outlet 52 Is closed and the first outlet 51 is opened, and the opening (not shown) of the orifice plate 47 is provided between the main liquid chamber 61 and the sub liquid chamber 63, the first orifice 53,
The first outlets 51 communicate with each other. That is, a liquid flow as shown by →→→→→→ in the figure occurs.

In this state, the sub diaphragm 56
The auxiliary liquid chamber 57 and the sub liquid chamber 63 on the lower surface side of the sub-diameter communicate with each other through the third orifice 55 and the first outlet 51, and the hole 47a of the orifice plate 47 is formed on the upper surface side of the sub diaphragm 56. The liquid in the main liquid chamber 61 acts via the liquid, and the liquid in the sub liquid chamber 63 acts on the lower surface side of the sub diaphragm 56 via the auxiliary liquid chamber 57 and the third orifice 55 to displace the sub diaphragm 56. It will be in a state.

Therefore, the input vibration can be damped by the liquid column resonance action of the first orifice 53, and the pulsation having a phase opposite to the vibration input to the liquid in the main liquid chamber 61 can be generated by the displacement of the sub diaphragm 56. You can

On the other hand, when an appropriate pressure (negative pressure in this embodiment) is introduced into the pressure chamber 73 of the actuator 68 through the pressure introducing hole 72, the spring portion 70 of the actuator 68 is formed.
Is displaced downward in the figure against the urging force of the spring 71, and the main body 69 of the actuator 68 and the switching valve 64 are displaced downward in the figure in accordance with the displacement of the spring portion 70. Orifice body 48 by ring 67
The first outlet 51 of the wall portion 48c of the valve is closed, the second outlet 52 is opened, and the opening (not shown) of the orifice plate 47 is provided between the main liquid chamber 61 and the sub liquid chamber 63. Orifice 54 and second outlet 52 of the orifice body 48
Communicate with each other via. That is, a liquid flow as shown by →→ in the figure occurs.

In this state, the liquid in the main liquid chamber 61 is acting on the upper surface side of the sub diaphragm 56 through the hole 47a of the orifice plate 47, but since the first outlet 51 is closed, the sub diaphragm is closed. The liquid on the side of the sub liquid chamber 63 does not act on the lower surface of the sub diaphragm 56.
Is in a restrained state.

Therefore, it is possible to damp the input vibration only by the liquid column resonance action of the second orifice 54.

In the control type liquid-filled mount according to this embodiment having the above-mentioned structure, the first orifice 53 and the second orifice 54, which connect the main liquid chamber 61 and the sub-liquid chamber 63 to each other, Since the switching valve 64 that opens and closes the first orifice 53 and the second orifice 54 is provided in the partition wall 45 and the actuator 68 that operates the switching valve 64 is provided in the case 41, the overall size is significantly reduced. It will be possible.

Further, the actuator 68 for operating the switching valve 64 has a simple structure including the body portion 69 having an inverted bowl shape, the annular spring portion 70, and the spring 71. It is easy to process and assemble,
The manufacturing cost can be significantly reduced.

Further, the partition wall 45 is constituted by the outer frame 46, the orifice plate 47 and the orifice body 48, and the first orifice groove 48d formed in the orifice body 48 and the second orifice groove 48d.
Orifice groove 48b, third orifice groove 48a
The first orifice 53 and the second orifice 53, respectively.
The orifice 54 and the third orifice 55, and the recessed portion 4 formed on the upper surface side of the orifice body 48.
The sub-diaphragm 56 is attached to the opening of the switch 9, and the switching valve 64 is installed in the space 50 formed in the lower surface of the orifice body 48.
The first outlet 51 in the wall portion 48c formed between the void 50 and the third orifice 55 and the void 50 and the second orifice 55.
The second outlets 52 are respectively formed in the wall portions 48c formed between the outlets 54 and the respective orifices 54, and these outlets are opened and closed by the switching valves 64 in the space 50 in the direction orthogonal to the moving direction of the switching valve 64. Therefore, the pressure fluctuation in the main liquid chamber 61 does not directly act on the opening / closing portion of the switching valve 64, and the responsiveness when switching the orifice can be significantly improved.

Further, since the recess 49 is formed on the upper surface side of the orifice body 48 and the sub diaphragm 56 is attached to the opening, the effective area of the sub diaphragm 56 can be made large. This allows
The damping property against vibration can be significantly improved.

FIGS. 16 and 17 show partial views of a third embodiment of the controllable liquid-filled mount according to the present invention. The controllable liquid-filled mount shown in this embodiment is similar to the first and second embodiments. This is a modified example of the second embodiment, in which the switching valve 28, 64 allows the second orifice 1
When switching from 5, 54 to the first orifices 14, 53, the opening area of the opening / closing portions of the second orifices 15, 54 once increases and then gradually decreases.

That is, the control type liquid sealing mounts shown in the first and second embodiments, the various liquid sealing mounts described in the section of the prior art, and the liquid sealing disclosed in JP-A-4-151041. The mount etc. is the switching valve 28,
64 from the first orifice 14, 53 to the second orifice 15, 54, or the second orifice 15,
When switching from 54 to the first orifice 14, 53,
As shown in FIG. 21, the dynamic spring has a curve A (solid line) and a curve B.
(Represented by broken lines), and especially when switching from the second orifices 15, 54 to the first orifices 14, 53 (when switching the switching valves 28, 64 from ON to OFF). Has the drawback of rising sharply.

On the other hand, in this embodiment, the switching valves 28, 64 are operated when the opening / closing portions of the second orifices 15, 54 are fully closed (when the switching valves 28, 64 are OFF). The opening / closing portions of the second orifices 15 and 54 are fully opened so that the positional relationship between the opening portions 28b and 66 on the side of the orifice plate 7 or the opening portions 8b and 52 on the side of the orifice body 48 is as shown in FIG. If there is (switching valve 2
8 and 64 are ON), the positional relationship between the openings 28b, 66 on the side of the switching valves 28, 64 and the openings 8b, 52 on the side of the orifice plate 7 or the orifice body 48 is as shown in FIG. l ₂ > l ₁ such that
Stroke range of the switching valves 28, 64, each opening 28
The positions of b, 66, 8b and 52 are set.

As a result, the opening / closing portions of the second orifices 15 and 54 are fully opened (the switching valves 28 and 64 are ON).
To a fully closed state (the switching valves 28 and 64 are in the OFF state), the opening area of the opening / closing portions of the second orifices 15 and 54 once increases and then gradually decreases.

Therefore, the dynamic spring characteristics are shown in FIGS.
The curve C when the switching valves 28 and 64 are in the ON state is once shifted to the high frequency side and then becomes the OFF state to become the curve D, which changes when the switching valves 28 and 64 are switched from ON to OFF. The spring will not rise suddenly.

[0067]

As described above, the present invention provides the first orifice, the second orifice , and the switching valve for opening and closing the main fluid chamber and the sub-fluid chamber in the partition wall, since an actuator for actuating the switching valve is configured as provided in the casing, downsizing of the whole, it can be reduced in weight, and to dampen the vibrations of the engine of an automobile that size and weight reduction are required Become. Further, since the sub-diaphragm is configured to be activated only when the first orifice is activated, both the liquid column resonance action by the first orifice and the displacement of the sub-diaphragm can be used for vibration in a certain frequency range . Further, for vibration in a certain frequency range, only the liquid column resonance action by the second orifice can be used. Further, by forming the auxiliary liquid chamber on the lower surface of the sub-diaphragm, configured to communicate with each other via the third orifice between the auxiliary liquid chamber and the auxiliary liquid chamber
Therefore , it is possible to increase the effective area of the sub-diaphragm, which can further improve the damping property against the input vibration, and where various vibrations occur depending on the frequency, such as an automobile engine. The excellent damping effect can be exhibited. Furthermore, switching
The elongate valve sets the communication state between the main liquid chamber and the sub liquid chamber to the first orientation.
Direction perpendicular to the moving direction to the fiss or second orifice
It is configured to switch with and inside the partition
The first orifice, the second orifice and the sub-die
Since it is provided in a state of being isolated from Afram,
The fact that the pressure from the liquid chamber acts directly on the switching valve
Without the need for smooth switching valve movement.
Valve cuts to the first or second orifice
It is possible to improve responsiveness when exchanging. Furthermore, when switching from the second orifice by the switching valve to the first orifice, the opening area of the opening and closing of the second orifice is configured to be gradually reduced after reaching one Dan increased
Because, the dynamic spring when the second orifice switched to the first orifice is prevented from being rapidly increased, it becomes always that good damping properties can be obtained.

[Brief description of drawings]

FIG. 1 is a first controllable liquid-filled mount according to the present invention.
FIG. 3 is a schematic vertical cross-sectional view showing the example of FIG.

FIG. 2 is a plan view of a partition wall shown in FIG.

FIG. 3 is a vertical cross-sectional view of what is shown in FIG.

FIG. 4 is a plan view of the first orifice plate shown in FIG.

5 is a cross-sectional view taken along line XX of what is shown in FIG.

FIG. 6 is a plan view of the second orifice plate shown in FIG.

7 is a cross-sectional view taken along line ZZ of the one shown in FIG.

8 is a cross-sectional view taken along line YY of the one shown in FIG.

FIG. 9 is a second controllable liquid-filled mount according to the present invention.
FIG. 3 is a schematic vertical cross-sectional view showing the example of FIG.

10 is a vertical cross-sectional view of the partition wall shown in FIG. 9, which is a cross-sectional view taken along the line AA of FIG.

11 is a plan view of the orifice body of the partition shown in FIG. 9, and is an explanatory diagram showing the flow of liquid.

FIG. 12 is a front view of what is shown in FIG. 11, and is an explanatory view showing a flow of liquid.

13 is a cross-sectional view of what is shown in FIG. 10 taken along line BB.

FIG. 14 is an explanatory diagram showing the relationship between the position of the switching valve and the flow of liquid.

FIG. 15 is an explanatory diagram showing the relationship between the position of the switching valve and the flow of liquid.

FIG. 16 is a partial view showing a third embodiment of the controllable liquid-filled mount according to the present invention, and an explanatory view showing the OFF state of the switching valve.

17 is an explanatory diagram showing an ON state of the switching valve shown in FIG. 16. FIG.

FIG. 18 is an explanatory diagram showing dynamic spring characteristics when the switching valve shown in FIG. 16 is ON.

FIG. 19 shows the switching valve of FIG. 16 from ON to OF.
It is explanatory drawing which showed the dynamic spring characteristic at the time of moving to F.

FIG. 20 is an explanatory diagram showing dynamic spring characteristics when the switching valve shown in FIG. 16 is OFF.

FIG. 21 is an explanatory diagram showing dynamic spring characteristics of the first and second embodiments and the conventional one.

FIG. 22 is a schematic vertical sectional view showing an example of a conventional liquid-filled mount.

[Explanation of symbols]

1, 41, 81 ... Case 2, 42 ... Upper case 3,44 ... Lower case 4 ... Lower cover 4a, 23a, 26a, 47a ... holes 5, 45, 82 ... Partition wall 6 ... First orifice plate 6a ... opening 6b ... First orifice inlet 6c ... Second orifice inlet 6d: Hole for pressure relief 7 ... Second orifice plate 8, 69, 89a ... Main body 8a ... first communication hole 8b ... second communication hole 9: Orifice part 9a, 48d ... First orifice groove 9b, 48b ... Second orifice groove 9c ... first through hole 9d: second through hole 10 ... Rib part 10a ... recess 10b ... opening 11 ... rib 12, 31, 56 ... Sub diaphragm 13 ... Third orifice plate 14, 53, 87 ... the first orifice 15, 54, 88 ... Second orifice 16 ... Support plate 17 ... Bolt 18, 58, 83 ... Support spring 19 ... Vacancy 20, 61, 84 ... Main liquid chamber 21 ... Boss sleeve 22 …… Bracket 23, 62, 85 ... Diaphragm 24, 63, 86 ... Secondary liquid chamber 25, 68, 90 ... Actuator 26: Spring member 27 ... Inner ring 27a ... protrusion 28, 89 ... Switching valve 28a ... first hole 28b ... second hole 29,71 ... Spring 30, 73 ... Pressure chamber 43 ... Medium case 46 …… Outer frame 46a ... through hole 47 ... Orifice plate 48: Orifice body 48a ... third orifice groove 48c ... wall 49 ... dent 49a ... protrusion 49b ... Step 50 ... vacant place 51 ... first exit 52 …… Second exit 55: Third orifice 57 ... Auxiliary liquid chamber 59 …… Boss 60 …… Bolt 64 ... Switching valve 65 ... Inner ring 66 ... window hole 67 ... Outer ring 70: Spring part 72 ... Pressure introducing hole 89b ... Rod

─────────────────────────────────────────────────── ─── Continuation of front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) F16F 13/00-13/30

Claims (4)

(57) [Claims] Provided with a partition wall 1. A within the case, the <br/> provided support spring on the upper surface side of the partition wall, to form a main liquid chamber filled with liquid between said support springs and the partition wall, the liquid forms a secondary liquid chamber which is sealed between said partition wall is provided a diaphragm on the lower surface side of the partition wall and the die <br/> Fulham, the partition wall and the other end one end communicates with the main liquid chamber Connected to the auxiliary liquid chamber
One end that communicates with the first orifice that communicates with the main liquid chamber
A large second orifice effective area than the first orifice and the other end communicating with the auxiliary liquid chamber, the upper surface side before
The first orifice is on the lower surface side in contact with the liquid in the main liquid chamber.
A sub diaphragm that operates only during the operation of the first orifice in contact with the liquid in the auxiliary liquid chamber through said
Orthogonal to the moving direction of the state of communication between the main liquid chamber and the auxiliary liquid chamber to said first orifice or said second orifice
Direction, the first orifice, front
It is separated from the second orifice and the sub diaphragm.
Provided with a switching valve that can move in a separated state ,
A controlled liquid-filled mount, wherein an actuator for operating the switching valve is provided in the case. Provided with a partition wall 2. A inside the case, the <br/> provided support spring on the upper surface side of the partition wall, to form a main liquid chamber filled with liquid between said support springs and the partition wall, the liquid forms a secondary liquid chamber which is sealed between said partition wall is provided a diaphragm on the lower surface side of the partition wall and the die <br/> Fulham, the partition wall and the other end one end communicates with the main liquid chamber Connected to the auxiliary liquid chamber
One end that communicates with the first orifice that communicates with the main liquid chamber
A large second orifice effective area than the first orifice and the other end communicating with the auxiliary liquid chamber, with only operates during the operation of the first orifice, the liquid of the upper surface side the main liquid chamber A sub-diaphragm that contacts and forms an auxiliary liquid chamber on the lower surface side, and one end communicates with the auxiliary liquid chamber and the other end
Through the communication hole common to the first orifice.
Operates only when the first orifice communicating with the liquid chamber is activated.
A moving third orifice, the main liquid chamber and the sub liquid chamber
Together is switched in the direction of the communication state perpendicular to the moving direction of said first orifice or said second orifice
The first orifice, the second orifice, the third orifice,
Separated from the orifice and sub diaphragm
And a switching valve movable by means of a control valve, and an actuator for operating the switching valve is provided in the case. 3. The switching valve is provided in the partition wall so as to be movable in the vertical direction, and is arranged in a direction orthogonal to the moving direction.
To switch the communication state between the auxiliary liquid chamber with said main liquid chamber to said first orifice or said second orifice
Configured to, claim 1 also characterized in that the primary fluid pressure fluctuations in the chamber is configured not directly applied to the closing portion of the first orifice and the second orifice
Controlled fluid-filled mount according to 2. 4. The switching valve is provided in the partition wall so as to be movable in the vertical direction, and is arranged in a direction orthogonal to the moving direction.
To switch the communication state between the auxiliary liquid chamber with said main liquid chamber to said first orifice or said second orifice
Configured to, when switching from said second orifice to said first orifice, the opening area of the opening and closing of the second orifice, claim is configured to gradually decrease after reaching once increased 1 Alternatively , the controllable liquid-filled mount according to item 2.