JP3017566B2 - Anti-vibration device - Google Patents
Anti-vibration deviceInfo
- Publication number
- JP3017566B2 JP3017566B2 JP19694691A JP19694691A JP3017566B2 JP 3017566 B2 JP3017566 B2 JP 3017566B2 JP 19694691 A JP19694691 A JP 19694691A JP 19694691 A JP19694691 A JP 19694691A JP 3017566 B2 JP3017566 B2 JP 3017566B2
- Authority
- JP
- Japan
- Prior art keywords
- diaphragm
- liquid chamber
- pressure
- state
- vibration
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Landscapes
- Combined Devices Of Dampers And Springs (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は車両、一般産業用機械等
に用いられ、振動発生部からの振動を吸収減衰する防振
装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anti-vibration device for use in vehicles, general industrial machines and the like, which absorbs and attenuates vibration from a vibration generator.
【0002】[0002]
【従来の技術】自動車のエンジンにはエンジンと車体と
の間にエンジンマウントとしての防振装置が配設され、
エンジンの振動が車体に伝達されることを阻止するよう
になっている。2. Description of the Related Art In an automobile engine, an anti-vibration device as an engine mount is disposed between the engine and a vehicle body.
The vibration of the engine is prevented from being transmitted to the vehicle body.
【0003】この防振装置の内部には液体が充填された
複数の小液室が形成されており、これらの小液室は制限
通路を通して互いに連通されている。そして、エンジン
の振動が防振装置に伝達された場合に小液室に充填され
ている液体が他方の小液室に制限通路を通って移動する
際の通過抵抗及び液柱共振で振動が吸収されるようにな
っている。A plurality of small liquid chambers filled with liquid are formed inside the vibration isolator, and these small liquid chambers communicate with each other through a restriction passage. Then, when the vibration of the engine is transmitted to the vibration isolator, the vibration is absorbed by the passage resistance and the liquid column resonance when the liquid filled in the small liquid chamber moves through the restricted passage to the other small liquid chamber. It is supposed to be.
【0004】ところで、エンジンに発生する振動には車
両が高速で走行している場合等に発生する所謂シエイク
振動やアイドル時及び車両が時速5キロ程度で走行して
いる場合に発生する所謂アイドル振動等がある。一般的
に前記シエイク振動は周波数が15Hz未満であるのに
対しアイドル振動は周波数が20〜40Hzであり、シ
エイク振動とアイドル振動とでは周波数が相違する。The vibrations generated in the engine include so-called shake vibration generated when the vehicle is running at high speed and so-called idle vibration generated when the vehicle is idling and when the vehicle is running at about 5 km / h. Etc. Generally, the shake vibration has a frequency of less than 15 Hz, while the idle vibration has a frequency of 20 to 40 Hz, and the shake vibration and the idle vibration have different frequencies.
【0005】しかし、従来の防振装置は発生する振動の
周波数が、制限通路の開口面積、長さで定まる所定範囲
の場合のみに有効であり、この所定範囲以外の周波数の
振動を有効に減衰吸収できない。このため、従来の防振
装置ではシエイク振動を効果的に減衰すべく防振装置を
調整するとアイドル振動を効果的に減衰することが困難
となり、またアイドル振動を効果的に減衰すべく防振装
置を調整するとシエイク振動を効果的に減衰することが
困難となる。However, the conventional vibration isolator is effective only when the frequency of the generated vibration is within a predetermined range determined by the opening area and length of the restriction passage, and effectively attenuates the vibration at frequencies outside this predetermined range. Cannot be absorbed. For this reason, it is difficult to effectively attenuate the idle vibration by adjusting the vibration isolator to effectively attenuate the shake vibration in the conventional vibration isolator, and it is difficult to attenuate the idle vibration effectively. When it is adjusted, it becomes difficult to effectively attenuate the shake vibration.
【0006】このため本出願人は広い周波数に亘った振
動を吸収できる防振装置を提案している(特願平3−1
13035号)。この防振装置では異る周波数を減衰吸
収する一対のオリフィスをダイヤフラムの反転によって
使い分けるようになっている。すなわち、ダイヤフラム
が変形自由状態である場合にはこのダイヤフラムに通ず
る液室を拡縮可能としてこの液室に面する第1のオリフ
ィス内の液体通過で第1の周波数の振動を吸収し、ダイ
ヤフラムを気体圧力で反転させた固定状態ではこのダイ
ヤフラムに面した液室の拡縮を不可能にしてこの液室に
通じる第1のオリフィス内での液体流通をなくし、他の
部分に設けられる第2のオリフィス内で液体の流通を生
じさせて第2の周波数の振動を吸収するようになってい
る。For this reason, the present applicant has proposed a vibration isolator capable of absorbing vibrations over a wide frequency range (Japanese Patent Application No. 3-1).
13035). In this vibration isolator, a pair of orifices that attenuate and absorb different frequencies are selectively used by inverting the diaphragm. That is, when the diaphragm is in a freely deformable state, the liquid chamber leading to the diaphragm can be expanded and contracted to absorb the vibration of the first frequency through the passage of the liquid in the first orifice facing the liquid chamber, and the diaphragm is removed by gas. In the fixed state reversed by pressure, the expansion and contraction of the liquid chamber facing the diaphragm becomes impossible, so that the liquid does not flow through the first orifice communicating with the liquid chamber, and the second orifice provided at another portion is provided. Then, the flow of liquid is caused to absorb the vibration of the second frequency.
【0007】ところが、このダイヤフラムは自由状態
と、反転状態との間で確実に移動させるための形状、材
料の選択が難しい。However, it is difficult to select a shape and a material for the diaphragm to reliably move between a free state and an inverted state.
【0008】[0008]
【発明が解決しようとする課題】本発明は上記事実を考
慮し、ダイヤフラムの反転を利用して広い周波数に亘っ
た振動を吸収できる防振装置であって、ダイヤフラムの
自由状態と、反転状態との間での移動が確実な防振装置
を得ることが目的である。SUMMARY OF THE INVENTION In view of the above facts, the present invention is a vibration isolator capable of absorbing vibrations over a wide frequency range by using the inversion of a diaphragm. The purpose is to obtain a vibration isolator that can be reliably moved between the two.
【0009】[0009]
【課題を解決するための手段】請求項1記載の防振装置
は、内部に液体が充填され振動を受けて液圧が変化する
液室と、この液室の壁面の一部を構成し、液室拡縮方向
に弾性変形して液室容量を変化させると共に、液室縮小
方向又は液室拡大方向に最大量移動した自由状態から対
象中立状態を通って反対方向に最大量移動した反転状態
まで反転可能なダイヤフラムと、前記液室に連通し液室
の拡縮状態及び拡縮不能状態で異る周波数の振動を吸収
する振動吸収手段と、前記ダイヤフラムへ圧力を加えダ
イヤフラムを前記反転状態まで移動させて保持する圧力
可変手段と、前記ダイヤフラムを前記対象中立状態から
自由状態までの移動量よりも、対象中立状態から前記反
転状態までの移動量を小さく制限して、前記圧力可変手
段による圧解除後にダイヤフラムを自由状態まで復帰し
やすくする制限手段と、を有することを特徴としてい
る。According to a first aspect of the present invention, there is provided an anti-vibration device comprising a liquid chamber in which a liquid is filled and a liquid pressure is changed by receiving vibration, and a part of a wall surface of the liquid chamber. Elastic deformation in the liquid chamber expansion / contraction direction changes the liquid chamber volume, and from the free state, which has moved the maximum amount in the liquid chamber contraction direction or the liquid chamber expansion direction, to the inverted state, which has moved the maximum amount in the opposite direction through the target neutral state. Reversible diaphragm, vibration absorbing means communicating with the liquid chamber and absorbing vibrations of different frequencies in the expanded and contracted state of the liquid chamber and in the non-expandable state, and applying pressure to the diaphragm to move the diaphragm to the inverted state. Holding pressure variable means, and restricting the amount of movement of the diaphragm from the target neutral state to the free state to a smaller amount from the target neutral state to the inversion state, after releasing the pressure by the pressure variable means. It is characterized by having a limiting means for easily restore the diaphragm to a free state, the.
【0010】請求項2記載の防振装置は、前記圧力可変
手段は前記ダイヤフラムの反転状態でダイヤフラムが接
触する凹状部と、この凹状部の略中央部に開口しダイヤ
フラムへ圧力を付与する圧力連通孔と、前記凹状部の内
周面に形成され前記圧力連通孔と通ずる圧力連通溝と、
を有することを特徴としている。According to a second aspect of the present invention, in the vibration damping device, the pressure varying means has a concave portion with which the diaphragm contacts when the diaphragm is inverted, and a pressure communication opening at a substantially central portion of the concave portion to apply pressure to the diaphragm. A hole, a pressure communication groove formed on the inner peripheral surface of the concave portion and communicating with the pressure communication hole,
It is characterized by having.
【0011】請求項3記載の防振装置は、前記圧力可変
手段は前記ダイヤフラムの反転状態でダイヤフラムが接
触する凹状部と、この凹状部の略中央部に開口しダイヤ
フラムへ圧力を付与する圧力連通孔と、を有し、前記圧
力連通孔周囲には、前記ダイヤフラムとの接触部に柔軟
材が設けられたことを特徴としている。According to a third aspect of the present invention, in the vibration damping device, the pressure varying means includes a concave portion with which the diaphragm comes into contact when the diaphragm is inverted, and a pressure communication opening substantially at the center of the concave portion to apply pressure to the diaphragm. And a flexible material is provided around the pressure communication hole at a contact portion with the diaphragm.
【0012】請求項4記載の防振装置は、内部に液体が
充填され振動を受けて液圧が変化する液室と、この液室
の壁面の一部を構成し、液室拡縮方向に弾性変形して液
室容量を変化させると共に、液室縮小方向又は液室拡大
方向に最大量移動した自由状態から対称中立状態を通っ
て反対方向に最大量移動した反転状態まで反転可能なダ
イヤフラムと、前記液室に連通し液室の拡縮状態及び拡
縮不能状態で異る周波数の振動を吸収する振動吸収手段
と、前記ダイヤフラムの反転状態でダイヤフラムが接触
する凹状部に各々開口しダイヤフラムへ圧力を付与する
複数の圧力連通孔が形成されてダイヤフラムへ圧力を加
えダイヤフラムを前記反転状態まで移動させて保持する
圧力可変手段と、を有することを特徴としている。According to a fourth aspect of the present invention, there is provided an anti-vibration device comprising a liquid chamber in which a liquid is filled and a liquid pressure is changed by receiving vibration, and a part of a wall surface of the liquid chamber. A diaphragm that can be deformed to change the volume of the liquid chamber, and that can be inverted from a free state that has moved a maximum amount in a liquid chamber contracting direction or a liquid chamber expanding direction to an inverted state that has moved a maximum amount in the opposite direction through a symmetric neutral state; Vibration absorbing means that communicates with the liquid chamber and absorbs vibrations of different frequencies in a contracted state and a non-contractible state of the liquid chamber, and a pressure is applied to the diaphragm by opening each of the concave portions where the diaphragm is in contact with the diaphragm when the diaphragm is inverted. Pressure communication means for applying pressure to the diaphragm to move the diaphragm to the inverted state and hold the same.
【0013】請求項5記載の防振装置は、前記圧力連通
孔周囲には、前記ダイヤフラムとの接触部に柔軟材が設
けられたことを特徴としている。According to a fifth aspect of the present invention, in the vibration isolator, a flexible material is provided around the pressure communication hole at a contact portion with the diaphragm.
【0014】[0014]
【作用】請求項1の防振装置によれば、発生した振動が
液室へ伝達されると、この液室は液圧が変化してダイヤ
フラムが弾性変形される。このため液室が拡縮されて振
動吸収手段がこの振動を吸収する。また圧力可変手段が
ダイヤフラムへ圧力を加えてダイヤフラムを反転状態ま
で移動させると、ダイヤフラムはこの反転状態で保持さ
れ実質的に液室の拡縮が不可能となる。したがって、振
動吸収手段は異る周波数の振動を吸収する。これらによ
って、広い周波数に渡る振動が減衰吸収される。According to the vibration damping device of the first aspect, when the generated vibration is transmitted to the liquid chamber, the liquid pressure in the liquid chamber changes, and the diaphragm is elastically deformed. Therefore, the liquid chamber is expanded and contracted, and the vibration absorbing means absorbs the vibration. When the pressure varying means applies pressure to the diaphragm to move the diaphragm to the inverted state, the diaphragm is held in this inverted state, and the expansion and contraction of the liquid chamber becomes substantially impossible. Therefore, the vibration absorbing means absorbs vibrations of different frequencies. As a result, vibrations over a wide frequency range are damped and absorbed.
【0015】ダイヤフラムは制限手段によって対称中立
状態から自由状態までの移動量よりも、対称中立状態か
ら前記反転状態までの移動量を小さく制限されているの
で、反転状態から確実に自由状態へと復帰できる。Since the amount of movement of the diaphragm from the symmetric neutral state to the inverted state is limited to be smaller than the amount of movement from the symmetric neutral state to the free state by the limiting means, the diaphragm is reliably returned to the free state from the inverted state. it can.
【0016】この場合、ダイヤフラムは液室縮小方向に
最大量移動した状態が自由状態とされ、圧力可変手段か
らの負圧力でダイヤフラムが反転して液室拡大方向に移
動する構造のほか、ダイヤフラムが液室拡大方向に最大
量移動した状態が自由状態とされ、圧力可変手段からの
正圧力でダイヤフラムが反転して液室縮小方向に移動す
る構造とすることもできる。In this case, the state in which the diaphragm has moved the maximum amount in the liquid chamber contracting direction is a free state, and in addition to the structure in which the diaphragm is reversed by the negative pressure from the pressure variable means and moves in the liquid chamber expanding direction, the diaphragm is moved in the liquid chamber expanding direction. A state in which the diaphragm is moved by the maximum amount in the liquid chamber expanding direction is a free state, and the diaphragm is reversed by a positive pressure from the pressure varying means and moves in the liquid chamber reducing direction.
【0017】請求項2の防振装置によれば、圧力可変手
段はダイヤフラムの反転状態でダイヤフラムに対応する
凹状部が配置されており、ダイヤフラムはこの凹状部へ
密着されて保持されることになる。このためこのダイヤ
フラムは凹状部に形成した圧力連通孔によって凹状部へ
密着されると共に、この圧力連通孔と通ずる圧力連通溝
によってもダイヤフラムに圧力が付与されて確実に凹状
部へ密着される。According to the vibration damping device of the second aspect, the pressure variable means has the concave portion corresponding to the diaphragm in the inverted state of the diaphragm, and the diaphragm is held in close contact with the concave portion. . For this reason, the diaphragm is closely attached to the concave portion by the pressure communication hole formed in the concave portion, and pressure is applied to the diaphragm also by the pressure communication groove communicating with the pressure communication hole, so that the diaphragm is securely brought into close contact with the concave portion.
【0018】請求項3記載の防振装置によれば、圧力連
通孔の周囲にはダイヤフラムとの接触部に柔軟材が設け
られているので、ダイヤフラムが自由状態と反転状態と
の間を複数回移動したり、また反転状態において大きな
圧力でダイヤフラムが密着されても、ダイヤフラムの耐
久性を向上することができる。According to the third aspect of the present invention, since the flexible member is provided at the contact portion with the diaphragm around the pressure communication hole, the diaphragm moves between the free state and the inverted state a plurality of times. Even when the diaphragm is moved or the diaphragm is brought into close contact with a large pressure in the inverted state, the durability of the diaphragm can be improved.
【0019】請求項4の防振装置によれば、ダイヤフラ
ムの反転状態でダイヤフラムが接触する凹状部に各々圧
力連通孔が開口しダイヤフラムへ圧力を付与するので、
ダイヤフラムが確実に反転状態で維持される。According to the vibration damping device of the fourth aspect, since the pressure communication holes are respectively opened in the concave portions which come into contact with the diaphragm in the inverted state of the diaphragm to apply pressure to the diaphragm,
The diaphragm is reliably maintained in the inverted state.
【0020】請求項5記載の防振装置によれば、圧力連
通孔の周囲にはダイヤフラムとの接触部に柔軟材が設け
られているので、請求項4の防振装置においてダイヤフ
ラムが自由状態と反転状態との間を複数回移動したり、
また反転状態において大きな圧力でダイヤフラムが密着
されても、ダイヤフラムの耐久性を向上することができ
る。According to the vibration damping device of the fifth aspect, the flexible member is provided around the pressure communication hole at the contact portion with the diaphragm. Move multiple times between inversions,
Further, even if the diaphragm is brought into close contact with a large pressure in the inverted state, the durability of the diaphragm can be improved.
【0021】[0021]
【実施例】図1、2に従い本発明の第1実施例を説明す
る。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described with reference to FIGS.
【0022】図1に示すようにこの防振装置10の底板
212は中央下部に取付ボルト214が突出され、一例
として図示しない自動車の車体へ固定される。底板21
2の周囲は直角に屈曲された筒状の立壁部212Aとな
っており、この立壁部212Aの上端部には直角に屈曲
されたフランジ部212Bが連続形成されている。この
フランジ部212Bには円筒ブロック状の外筒316が
ボルト止めされており、フランジ部212Bと外筒31
6の下端部との間にオリフイス部材230及びダイヤフ
ラム218の周円部が挟持されている。ダイヤフラム2
18と底板212との間は空気室220とされ、必要に
応じて外部と連通される。As shown in FIG. 1, the bottom plate 212 of the vibration isolator 10 has a mounting bolt 214 protruding from the lower center thereof, and is fixed to a vehicle body (not shown) as an example. Bottom plate 21
The periphery of 2 is a cylindrical upright wall portion 212A bent at a right angle, and a flange portion 212B bent at a right angle is continuously formed at the upper end of the upright wall portion 212A. A cylindrical block-shaped outer cylinder 316 is bolted to the flange portion 212B, and the flange portion 212B and the outer cylinder 31 are bolted.
The peripheral portion of the orifice member 230 and the diaphragm 218 is sandwiched between the lower end portion 6 and the orifice member 230. Diaphragm 2
An air chamber 220 is provided between the base 18 and the bottom plate 212 and communicates with the outside as needed.
【0023】外筒316の内周面上端部は内径がしだい
に拡大された拡径部316Bとなっており、本体ゴム2
22の外周が加流接着されている。また本体ゴム222
の一部は外筒316の内周下端部の一部まで延長されて
加流接着されている。前記支持台224はエンジン(図
示省略)の搭載部であり、エンジンを固定する取付ボル
ト226が突出されている。The upper end of the inner peripheral surface of the outer cylinder 316 is an enlarged diameter portion 316B whose inner diameter is gradually increased.
The outer periphery of 22 is flow-bonded. In addition, body rubber 222
Are extended to a part of the lower end portion of the inner circumference of the outer cylinder 316 and are bonded by flowing. The support base 224 is a mounting portion for an engine (not shown), and mounting bolts 226 for fixing the engine protrude.
【0024】ここに外筒316の内周部、本体ゴム22
2の下端部及びダイヤフラム218とによって液室22
8が形成されている。この液室228内にはエチレング
リコール等の液体229が充填されている。Here, the inner peripheral portion of the outer cylinder 316, the main body rubber 22
2 and the diaphragm 218 to form the liquid chamber 22.
8 are formed. The liquid chamber 228 is filled with a liquid 229 such as ethylene glycol.
【0025】液室228内に配置されたオリフイス部材
230は液室228を主液室232と第1副液室234
とに区画している。このオリフイス部材230は合成樹
脂等で断面形状略ハット状に形成されている。The orifice member 230 disposed in the liquid chamber 228 includes a liquid chamber 228 and a main liquid chamber 232 and a first sub liquid chamber 234.
And divided into The orifice member 230 is formed of a synthetic resin or the like and has a substantially hat-shaped cross section.
【0026】図1、2に示すように、オリフイス部材2
30の周囲には周方向に沿って断面矩形状の細溝244
が形成されている。この細溝244の外筒316側は前
記本体ゴム222の延長部によって閉塞されてシエイク
オリフイス252とされている。このシエイクオリフイ
ス252は長手方向一端部が矩形状の開口部244A
(図2)を介して主液室232と連通され他端部が開口
部244Bを介して第1副液室234と連通されてい
る。As shown in FIGS. 1 and 2, the orifice member 2
A narrow groove 244 having a rectangular cross section along the circumferential direction is provided around 30.
Are formed. The outer cylinder 316 side of the narrow groove 244 is closed by an extension of the main rubber 222 to form a shake orifice 252. The shake orifice 252 has a rectangular opening 244A at one end in the longitudinal direction.
The other end is connected to the first sub-liquid chamber 234 via the opening 244B through the main liquid chamber 232 via (FIG. 2).
【0027】また、オリフイス部材230は外周から反
対側の外周へ向けて矩形孔242が形成されておりこの
矩形孔242の先端は略直角に屈曲し開口部242Aを
介して主液室232へ連通しアイドルオリフイス246
を構成している。The orifice member 230 has a rectangular hole 242 extending from the outer circumference to the outer circumference on the opposite side. The tip of the rectangular hole 242 is bent at substantially a right angle and communicates with the main liquid chamber 232 through the opening 242A. Shi idol orifice 246
Is composed.
【0028】外筒316の外周にはオリフイス部材23
0の矩形孔242に対応する位置に凹部362が形成さ
れており、この凹部362はブロック364によって閉
塞されている。凹部362の底部には貫通孔372が形
成されており、この貫通孔372は本体ゴム222を貫
通する孔222Aを介して矩形孔242に連通してい
る。The orifice member 23 is provided on the outer circumference of the outer cylinder 316.
A recess 362 is formed at a position corresponding to the 0 rectangular hole 242, and the recess 362 is closed by a block 364. A through hole 372 is formed at the bottom of the concave portion 362, and the through hole 372 communicates with the rectangular hole 242 via a hole 222 </ b> A penetrating the main rubber 222.
【0029】また凹部362の底部には貫通孔372と
同心状に環状凹部366が形成されており、この環状凹
部366とブロック364との間にダイヤフラム368
の周縁部が挟持されている。このダイヤフラム368は
自由状態では貫通孔372内へ向けて約半球状に突出さ
れた図1の状態となっており、これによって貫通孔37
2がダイヤフラム368で閉塞されて第2副液室370
を構成している。またブロック364のダイヤフラム3
68に向かい合う面は凹状部364Aとされてダイヤフ
ラム368が第2副液室370の拡大方向に反転可能と
している。この場合、凹状部364Aはダイヤフラム3
68の反転方向移動量を所定量に制限するだけの凹みと
なっている。すなわちダイヤフラム368は図1の自由
状態から中立線CL(ダイヤフラム368の周縁部肉圧
中心又は自由状態とブロック364が無い場合の反転状
態との対称中立軸)を通過して反対方向に、すなわち第
2副液室370の拡大方向に反転するが、自由状態から
中立線CLまでの移動量Hは中立線CLから凹状部36
4Aまでの移動量hよりも大きくなっている。このため
ダイヤフラム368は反転した状態から図1の自由状態
までの復帰が自己の弾性力によって容易に達成されるよ
うになっている。An annular recess 366 is formed at the bottom of the recess 362 concentrically with the through hole 372, and a diaphragm 368 is provided between the annular recess 366 and the block 364.
Is pinched. In a free state, the diaphragm 368 is in a state of FIG. 1 protruding into the through-hole 372 in a substantially hemispherical shape.
2 is closed by the diaphragm 368 and the second sub liquid chamber 370 is closed.
Is composed. Also, the diaphragm 3 of the block 364
The surface facing 68 is formed as a concave portion 364A so that the diaphragm 368 can be inverted in the direction in which the second sub liquid chamber 370 expands. In this case, the concave portion 364A is
The indentation is limited to limit the amount of movement in the reverse direction 68 to a predetermined amount. That is, the diaphragm 368 moves in the opposite direction from the free state in FIG. The movement amount H from the free state to the neutral line CL is reversed from the neutral line CL to the concave portion 36.
It is larger than the movement amount h up to 4A. For this reason, the diaphragm 368 can easily return from the inverted state to the free state in FIG. 1 by its own elastic force.
【0030】ダイヤフラム368と凹状部364Aとの
間は空気室374とされており、パイプ52を介してエ
ンジンのインテークマニホールド(図示省略)に連通さ
れている。このパイプ52と空気室374とを結ぶ貫通
孔364Bは反転状態に移動したダイヤフラム368の
約中央部に対応するように形成されている。またこの凹
状部364Bは途中から複数の分岐孔364Cが連通さ
れ、その先端部は貫通孔364Bの周囲の凹状部364
Aに連通している。従ってダイヤフラム368は反転状
態でその表面の多数箇所部分へ貫通孔364B、分岐孔
364Cが負圧を付与するので、確実に凹状部364A
へと吸着されて反転状態が保持される。An air chamber 374 is provided between the diaphragm 368 and the concave portion 364A, and is communicated via a pipe 52 to an intake manifold (not shown) of the engine. The through hole 364B connecting the pipe 52 and the air chamber 374 is formed so as to correspond to the approximate center of the diaphragm 368 which has been moved to the inverted state. In addition, a plurality of branch holes 364C are communicated from the middle of the concave portion 364B, and the distal end thereof has a concave portion 364 around the through hole 364B.
It communicates with A. Therefore, the diaphragm 368 is in an inverted state, and the through-hole 364B and the branch hole 364C apply a negative pressure to a large number of portions on the surface, so that the concave portion 364A is surely provided.
And the inverted state is maintained.
【0031】次に本実施例の作用を説明する。本実施例
の防振装置10では、底板212が取付けボルト214
を介して図示しない車体と固着され、エンジンは支持台
224上へ搭載されて取付ボルト226で固定される。Next, the operation of this embodiment will be described. In the vibration isolator 10 of this embodiment, the bottom plate 212 is
The engine is mounted on a support base 224 and fixed with mounting bolts 226.
【0032】振動がシエイク振動(15Hz未満)の場
合には、図示しない制御手段がエンジンのインテークマ
ニホールドの負圧をパイプ50を介して空気室374へ
伝え、ダイヤフラム368は図1の実線状態から右方向
へ中立線CLを通過して反転されて凹状部364Aと密
着される。この結果、第2副液室370は拡縮不能とな
り、アイドルオリフイス246内での液体229の流れ
がなくなる。したがって液体229はシエイクオリフイ
ス252だけを通って主液室232と第1副液室234
とを行き来し、液体229がシエイクオリフイス252
を通過する際の抵抗及び液柱共振でシエイク振動が吸収
される。If the vibration is a shake vibration (less than 15 Hz), a control means (not shown) transmits the negative pressure of the intake manifold of the engine to the air chamber 374 through the pipe 50, and the diaphragm 368 moves from the solid line in FIG. After passing through the neutral line CL in the direction, it is inverted and is brought into close contact with the concave portion 364A. As a result, the second sub liquid chamber 370 cannot be expanded or contracted, and the flow of the liquid 229 in the idle orifice 246 stops. Therefore, the liquid 229 passes only through the shake orifice 252 and the main liquid chamber 232 and the first sub liquid chamber 234.
Back and forth, and the liquid 229 is shake-orifice 252
Shake vibration is absorbed by the resistance when passing through and the liquid column resonance.
【0033】また振動がアイドル振動の場合には、制御
手段は電磁弁への通電を制御して空気室374への負圧
供給を解除したり空気室374を大気開放状態とする。
この結果ダイヤフラム368は第2副液室370側に膨
らんで復帰し図1に示す自由状態となり、第2副液室3
70が拡縮可能となる。従って、シエイクオリフイス2
52は目づまり状態となるが、液体229はアイドルオ
リフイス246を通過して主液室232と第2副液室3
70とを行き来し、矩形孔242内で液体229が液柱
共振を生じてアイドル振動が吸収される。When the vibration is idle vibration, the control means controls the energization of the solenoid valve to release the negative pressure supply to the air chamber 374 or to open the air chamber 374 to the atmosphere.
As a result, the diaphragm 368 expands toward the second auxiliary liquid chamber 370 and returns to the free state shown in FIG.
70 becomes scalable. Therefore, Shake Orifice 2
The liquid 229 passes through the idle orifice 246 and the main liquid chamber 232 and the second sub liquid chamber 3
70, the liquid 229 generates liquid column resonance in the rectangular hole 242, and the idle vibration is absorbed.
【0034】このようにダイヤフラム368が自由状態
から反転状態へ往復移動する場合に、中立線CLから反
転状態への移動量hは自由状態から中立状態への移動量
Hよりも小さいので、空気室374への負圧解除によっ
てダイヤフラム368は確実にその弾性力で図1の実線
状態まで復帰することができる。また空気室374への
負圧供給は貫通孔364B及び分岐孔364Cを介して
行われるので、ダイヤフラム368が反転した状態で確
実に凹状部364Aと密着し、ダイヤフラム368と凹
状部364Aとの間に空気が残存することが少ない。As described above, when the diaphragm 368 reciprocates from the free state to the inverted state, the amount of movement h from the neutral line CL to the inverted state is smaller than the amount of movement H from the free state to the neutral state. By releasing the negative pressure to 374, the diaphragm 368 can be reliably returned to the solid line state in FIG. 1 by its elastic force. In addition, since the negative pressure supply to the air chamber 374 is performed through the through hole 364B and the branch hole 364C, the diaphragm 368 is surely brought into close contact with the concave portion 364A in a state where the diaphragm 368 is inverted, and between the diaphragm 368 and the concave portion 364A. There is little air remaining.
【0035】次に図3、4に従って本実施例の第2実施
例を説明する。図4に示すように、この実施例の防振装
置では、オリフイス部材430が上部オリフイス部材4
30A、及び下部オリフイス部材430Bから構成され
ており、上部オリフイス部材430Aと下部オリフイス
部材430Bとの間にダイヤフラム468が挟持されて
いる。Next, a second embodiment of the present invention will be described with reference to FIGS. As shown in FIG. 4, in the vibration isolator of this embodiment, the orifice member 430 is
30A and a lower orifice member 430B, and a diaphragm 468 is sandwiched between the upper orifice member 430A and the lower orifice member 430B.
【0036】図3に示すように上部オリフイス部材43
0Aにはダイヤフラム468側に凹状部476が形成さ
れており、ダイヤフラム468と凹状部476との間が
空気室474とされている。この空気室474は上部オ
リフイス部材430Aの貫通孔480、貫通パイプ48
2、接続金具484及びパイプ52を介して前記実施例
と同様にエンジンのインテークマニホールドに連通され
ている。As shown in FIG. 3, the upper orifice member 43
A concave portion 476 is formed on the side of the diaphragm 468 in 0A, and an air chamber 474 is provided between the diaphragm 468 and the concave portion 476. The air chamber 474 is provided with the through hole 480 of the upper orifice member 430A and the through pipe 48.
2. It is connected to the intake manifold of the engine via the connection fitting 484 and the pipe 52 in the same manner as in the previous embodiment.
【0037】また下部オリフイス部材430Bにはダイ
ヤフラム468側の面に断面円弧の凹部478が形成さ
れており、ダイヤフラム468と凹部478との間が第
2副液室470とされている。In the lower orifice member 430B, a concave portion 478 having a circular cross section is formed on the surface on the side of the diaphragm 468, and a second auxiliary liquid chamber 470 is provided between the diaphragm 468 and the concave portion 478.
【0038】この実施例においても貫通孔480の周囲
には分岐孔480Aが形成されて貫通孔480と共に多
数箇所でダイヤフラム468を吸着できるようになって
いる。さらにこの実施例では貫通孔480や分岐孔48
0Aの凹状部476側の開口部周縁とダイヤフラム46
8との密着時におけるダイヤフラム468への応力集中
を防止するために凹部478の内周面にゴムシート40
2が貼着されている。このゴムシート402はゴム以外
の他の柔軟材も適用できる。ゴムシート402には貫通
孔480や分岐孔480Aに対応した部分には貫通孔が
設けられて負圧力を確実にダイヤフラム468へ伝える
ようになっている。Also in this embodiment, a branch hole 480A is formed around the through hole 480 so that the diaphragm 468 can be sucked at a large number of places together with the through hole 480. Further, in this embodiment, the through hole 480 and the branch hole 48 are used.
The periphery of the opening on the side of the concave portion 476 on the side of the 0A and the diaphragm 46
In order to prevent concentration of stress on the diaphragm 468 at the time of close contact with the rubber sheet 8, a rubber sheet 40 is provided on the inner peripheral surface of the concave portion 478.
2 is stuck. As the rubber sheet 402, a flexible material other than rubber can be used. In the rubber sheet 402, through holes are provided in portions corresponding to the through holes 480 and the branch holes 480A, so that negative pressure is reliably transmitted to the diaphragm 468.
【0039】オリフイス部材430の外周下側には、断
面矩形状の細溝451が周方向に沿って形成されてい
る。この細溝451の外筒316A側は本体ゴム222
の延長部によって閉塞されてシエイクオリフイス452
とされている。このシエイクオリフイス452は長手方
向一端部が矩形状の開口部452A(図4)を介して主
液室232と連通され、他端部が開口部452Bを介し
て第1副液室234と連通されている。On the lower side of the outer periphery of the orifice member 430, a narrow groove 451 having a rectangular cross section is formed along the circumferential direction. The outer cylinder 316A side of the narrow groove 451 is the main rubber 222.
Shake Orifice 452 closed by extension
It has been. One end of the shake orifice 452 in the longitudinal direction communicates with the main liquid chamber 232 through a rectangular opening 452A (FIG. 4), and the other end communicates with the first sub liquid chamber 234 through the opening 452B. Have been.
【0040】さらに第1副液室234の外周上部には矩
形状の幅広溝445が周方向に沿って形成されている。
この幅広溝445の外筒316側は、前記本体ゴム22
2の延長部によって閉塞されてアイドルオリフイス44
6とされている。アイドルオリフイス446は長手方向
一端部が矩形状の貫通孔446Aを介して主液室232
と連通され、他端部が通路446Bを介して第2副液室
470と連通されている。Further, a rectangular wide groove 445 is formed in the upper part of the outer periphery of the first sub liquid chamber 234 along the circumferential direction.
The outer cylinder 316 side of the wide groove 445 is connected to the main rubber 22.
Idle orifice 44 closed by extension 2
6. The idle orifice 446 has a main liquid chamber 232 through a rectangular through hole 446A at one longitudinal end.
The other end is connected to the second auxiliary liquid chamber 470 via the passage 446B.
【0041】本実施例の防振装置10は、振動がシエイ
ク振動(15Hz未満)の場合には前記実施例と同様に
制御手段が空気室474内を負圧状態にし、ダイヤフラ
ム468を凹状部476に密着させ、実質的に第2副液
室470を拡縮不能とする。これによってアイドルオリ
フイス446内での液体229の流れを阻止することが
できる。またこの負圧を解除すればダイヤフラム468
は図3に示す自由状態まで復帰して第2副液室470が
拡縮可能となってアイドル振動を吸収することができ
る。In the vibration isolator 10 of this embodiment, when the vibration is a shake vibration (less than 15 Hz), the control means makes the inside of the air chamber 474 into a negative pressure state similarly to the above embodiment, and the diaphragm 468 sets the concave portion 476. To make the second sub liquid chamber 470 substantially inextensible. This can prevent the flow of the liquid 229 in the idle orifice 446. When this negative pressure is released, the diaphragm 468 is released.
3 returns to the free state shown in FIG. 3, and the second sub-liquid chamber 470 can expand and contract to absorb the idle vibration.
【0042】本実施例においても前記実施例と同様にダ
イヤフラム468の中立線CLからの変形量は自由状態
側の移動量Hが反転状態側の移動hよりも大きく形成さ
れているので、自由状態への復帰が円滑である。この実
施例では凹状部476にゴムシート402が付与されて
いるので、中立線CLから反転側への移動量はこのゴム
シートの表面までの移動量となる。In this embodiment as well, as in the previous embodiment, the amount of deformation of the diaphragm 468 from the neutral line CL is such that the movement amount H on the free state side is larger than the movement h on the inversion state side. Return to is smooth. In this embodiment, since the rubber sheet 402 is provided on the concave portion 476, the amount of movement from the neutral line CL to the reverse side is the amount of movement to the surface of the rubber sheet.
【0043】なおこの実施例においてはゴムシート40
2が設けられてダイヤフラム468への応力集中を緩和
しているがこのゴムシート402は前記第1実施例にも
適用することができる。In this embodiment, the rubber sheet 40
2, the rubber sheet 402 can be applied to the first embodiment as well, while the stress concentration on the diaphragm 468 is reduced.
【0044】次に図5には本発明の第3実施例が示され
ている。この実施例では、前記実施例の分岐孔480A
は設けられておらず、貫通孔480の空気室470への
開口部に連通して、複数の溝480Bが凹状部476の
表面に形成されている。従ってこの溝480Bは図5の
下方から見ると貫通孔480から放射状に延長されてお
り、貫通孔480の負圧力をダイヤフラム468の表面
へ伝えるようになっている。このため、この実施例にお
いてもダイヤフラム468はその表面へ広範囲に渡って
負圧力が作用し、確実に凹状部476へ吸着される。FIG. 5 shows a third embodiment of the present invention. In this embodiment, the branch hole 480A of the above embodiment is used.
Are not provided, and a plurality of grooves 480B are formed on the surface of the concave portion 476 so as to communicate with the opening of the through hole 480 to the air chamber 470. Accordingly, the groove 480B extends radially from the through hole 480 when viewed from below in FIG. 5, and transmits the negative pressure of the through hole 480 to the surface of the diaphragm 468. For this reason, also in this embodiment, the negative pressure acts on the surface of the diaphragm 468 over a wide range, and the diaphragm 468 is reliably attracted to the concave portion 476.
【0045】[0045]
【発明の効果】以上説明した如く本発明は、単一の防振
装置であるにもかかわらず、広い周波数に渡る振動を効
果的に減衰吸収でき、ダイヤフラムの反転及び復帰が確
実で、ダイヤフラムの傷付きも防止できる優れた効果を
有する。As described above, the present invention can effectively attenuate and absorb vibrations over a wide frequency range despite being a single vibration isolator, and can reliably invert and return the diaphragm. It has an excellent effect of preventing scratches.
【図1】本発明の第1実施例を示す防振装置の縦断面図
である。FIG. 1 is a longitudinal sectional view of a vibration isolator according to a first embodiment of the present invention.
【図2】図1のII−II線断面図である。FIG. 2 is a sectional view taken along line II-II of FIG.
【図3】本発明の第2実施例に係る防振装置を示す縦断
面図である。FIG. 3 is a longitudinal sectional view showing a vibration isolator according to a second embodiment of the present invention.
【図4】図3の一部を断面にしたオリフイス部材の斜視
図である。FIG. 4 is a perspective view of an orifice member in which a part of FIG. 3 is sectioned;
【図5】本発明の第3実施例を示す防振装置の縦断面図
である。FIG. 5 is a longitudinal sectional view of a vibration isolator showing a third embodiment of the present invention.
10 防振装置 52 パイプ(圧力可変手段) 246 アイドルオリフイス(振動吸収手段) 252 シエイクオリフイス(振動吸収手段) 268 ダイヤフラム 364 ブロック(制御手段) 368 ダイヤフラム 370 第2副液室 374 空気室 402 ゴムシート(柔軟材) 452 シエイクオリフイス(振動吸収手段) 468 ダイヤフラム 470 第2副液室 474 空気室 476 凹状部(圧力可変手段) 480 貫通孔(圧力連通孔) 480A 分岐孔(圧力連通孔) 480B 溝(圧力連通溝) 10 Vibration Isolator 52 Pipe (Pressure Variable Means) 246 Idle Orifice (Vibration Absorbing Means) 252 Shake Orifice (Vibration Absorbing Means) 268 Diaphragm 364 Block (Control Means) 368 Diaphragm 370 Second Sub-Liquid Chamber 374 Air Chamber 402 Rubber Sheet (Flexible material) 452 Shake orifice (vibration absorbing means) 468 Diaphragm 470 Second auxiliary liquid chamber 474 Air chamber 476 Depressed portion (Pressure variable means) 480 Through hole (Pressure communication hole) 480A Branch hole (Pressure communication hole) 480B Groove (Pressure communication groove)
Claims (5)
が変化する液室と、この液室の壁面の一部を構成し、液
室拡縮方向に弾性変形して液室容量を変化させると共
に、液室縮小方向又は液室拡大方向に最大量移動した自
由状態から対称中立状態を通って反対方向に最大量移動
した反転状態まで反転可能なダイヤフラムと、 前記液室に連通し液室の拡縮状態及び拡縮不能状態で異
る周波数の振動を吸収する振動吸収手段と、 前記ダイヤフラムへ圧力を加えダイヤフラムを前記反転
状態まで移動させて保持する圧力可変手段と、 前記ダイヤフラムを前記対称中立状態から自由状態まで
の移動量よりも、対称中立状態から前記反転状態までの
移動量を小さく制限して、前記圧力可変手段による圧解
除後にダイヤフラムを自由状態まで復帰しやすくする制
限手段と、を有することを特徴とした防振装置。1. A liquid chamber in which a liquid is filled and a liquid pressure changes due to vibration, and a part of a wall surface of the liquid chamber is formed, and the liquid chamber capacity is changed by elastic deformation in a liquid chamber expanding / contracting direction. A diaphragm that can be inverted from a free state in which it has moved the maximum amount in the liquid chamber contracting direction or the liquid chamber expanding direction to an inverted state in which it has moved the maximum amount in the opposite direction through the symmetric neutral state; and a liquid chamber communicating with the liquid chamber. Vibration absorbing means for absorbing vibrations of different frequencies in the expanded and contracted state and in the non-expandable state, pressure varying means for applying pressure to the diaphragm to move the diaphragm to the inverted state and to hold the diaphragm, and to set the diaphragm in the symmetric neutral state Than the amount of movement from the free state to the free state, the amount of movement from the symmetric neutral state to the inversion state is limited to a small amount, and the diaphragm is easily returned to the free state after the pressure is released by the pressure variable means. A vibration isolator characterized by having a limiting means.
反転状態でダイヤフラムが接触する凹状部と、この凹状
部の略中央部に開口しダイヤフラムへ圧力を付与する圧
力連通孔と、前記凹状部の内周面に形成され前記圧力連
通孔と通ずる圧力連通溝と、を有する請求項(1)に記
載の防振装置。2. The pressure variable means includes: a concave portion that contacts the diaphragm when the diaphragm is in an inverted state; a pressure communication hole that opens at a substantially central portion of the concave portion to apply pressure to the diaphragm; The vibration isolator according to claim 1, further comprising: a pressure communication groove formed on a peripheral surface and communicating with the pressure communication hole.
反転状態でダイヤフラムが接触する凹状部と、この凹状
部の略中央部に開口しダイヤフラムへ圧力を付与する圧
力連通孔と、を有し、前記圧力連通孔周囲には、前記ダ
イヤフラムとの接触部に柔軟材が設けられた請求項
(1)に記載の防振装置。3. The pressure varying means has a concave portion with which the diaphragm contacts when the diaphragm is inverted, and a pressure communication hole which is opened at a substantially central portion of the concave portion and applies pressure to the diaphragm, The vibration isolator according to claim 1, wherein a flexible material is provided around the pressure communication hole at a contact portion with the diaphragm.
が変化する液室と、この液室の壁面の一部を構成し、液
室拡縮方向に弾性変形して液室容量を変化させると共
に、液室縮小方向又は液室拡大方向に最大量移動した自
由状態から対称中立状態を通って反対方向に最大量移動
した反転状態まで反転可能なダイヤフラムと、 前記液室に連通し液室の拡縮状態及び拡縮不能状態で異
る周波数の振動を吸収する振動吸収手段と、 前記ダイヤフラムの反転状態でダイヤフラムが接触する
凹状部に各々開口しダイヤフラムへ圧力を付与する複数
の圧力連通孔が形成されてダイヤフラムへ圧力を加えダ
イヤフラムを前記反転状態まで移動させて保持する圧力
可変手段と、を有することを特徴とした防振装置。4. A liquid chamber in which the liquid is filled and the liquid pressure changes due to vibration, and a part of the wall of the liquid chamber is constituted, and the liquid chamber capacity is changed by elastic deformation in the liquid chamber expanding / contracting direction. A diaphragm that can be inverted from a free state in which it has moved the maximum amount in the liquid chamber contracting direction or the liquid chamber expanding direction to an inverted state in which it has moved the maximum amount in the opposite direction through the symmetric neutral state; and a liquid chamber communicating with the liquid chamber. Vibration absorbing means for absorbing vibrations of different frequencies in the expanded state and the non-expandable state, and a plurality of pressure communication holes which are respectively opened in the concave portions which are in contact with the diaphragm when the diaphragm is inverted and which apply pressure to the diaphragm. Pressure varying means for applying pressure to the diaphragm and moving the diaphragm to the inverted state and holding the same.
ラムとの接触部に柔軟材が設けられた請求項(4)に記
載の防振装置。5. The vibration isolator according to claim 4, wherein a flexible material is provided around the pressure communication hole at a contact portion with the diaphragm.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP19694691A JP3017566B2 (en) | 1991-08-07 | 1991-08-07 | Anti-vibration device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP19694691A JP3017566B2 (en) | 1991-08-07 | 1991-08-07 | Anti-vibration device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH0544769A JPH0544769A (en) | 1993-02-23 |
| JP3017566B2 true JP3017566B2 (en) | 2000-03-13 |
Family
ID=16366291
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP19694691A Expired - Lifetime JP3017566B2 (en) | 1991-08-07 | 1991-08-07 | Anti-vibration device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3017566B2 (en) |
-
1991
- 1991-08-07 JP JP19694691A patent/JP3017566B2/en not_active Expired - Lifetime
Also Published As
| Publication number | Publication date |
|---|---|
| JPH0544769A (en) | 1993-02-23 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| JPH0460231A (en) | Fluid sealed type mount device | |
| JPH04277338A (en) | Liquid-filled type mount device | |
| JP2986389B2 (en) | Liquid sealing rubber device | |
| JPH06100242B2 (en) | Fluid-filled mounting device | |
| JPH06100243B2 (en) | Fluid-filled mounting device | |
| JP3017566B2 (en) | Anti-vibration device | |
| JP2590034B2 (en) | Anti-vibration device | |
| JPS6155426A (en) | Vibration isolator | |
| JP2831172B2 (en) | Anti-vibration device | |
| JP3051514B2 (en) | Anti-vibration device | |
| JP2579885Y2 (en) | Liquid filled type vibration damping device | |
| JP3533243B2 (en) | Anti-vibration device | |
| JPH04277341A (en) | Fluid-filled type mount device | |
| JP3545458B2 (en) | Anti-vibration system | |
| JPH0518433A (en) | Vibration isolating device | |
| JP3050243B2 (en) | Anti-vibration device | |
| JPS62127538A (en) | Vibration body supporting device | |
| JP3153282B2 (en) | Anti-vibration device | |
| JPH0571573A (en) | Vibration isolating device | |
| JPH05149373A (en) | Vibration isolator | |
| JPS62137440A (en) | Vibration isolator | |
| JPH05126201A (en) | Vibration-proof device | |
| JPH0842629A (en) | Vibration control device | |
| JPH05172181A (en) | Vibrationproof device | |
| JPH0674286A (en) | Vibration control device |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
| R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
| R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
| FPAY | Renewal fee payment (prs date is renewal date of database) |
Year of fee payment: 8 Free format text: PAYMENT UNTIL: 20071224 |
|
| FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20081224 Year of fee payment: 9 |
|
| FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20081224 Year of fee payment: 9 |
|
| FPAY | Renewal fee payment (prs date is renewal date of database) |
Year of fee payment: 10 Free format text: PAYMENT UNTIL: 20091224 |
|
| FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20101224 Year of fee payment: 11 |
|
| FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20101224 Year of fee payment: 11 |
|
| FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20111224 Year of fee payment: 12 |
|
| EXPY | Cancellation because of completion of term | ||
| FPAY | Renewal fee payment (prs date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20111224 Year of fee payment: 12 |