JP2002195335A - Valve structure of hydraulic shock absorber - Google Patents
Valve structure of hydraulic shock absorberInfo
- Publication number
- JP2002195335A JP2002195335A JP2000394997A JP2000394997A JP2002195335A JP 2002195335 A JP2002195335 A JP 2002195335A JP 2000394997 A JP2000394997 A JP 2000394997A JP 2000394997 A JP2000394997 A JP 2000394997A JP 2002195335 A JP2002195335 A JP 2002195335A
- Authority
- JP
- Japan
- Prior art keywords
- valve
- piston
- damping force
- opening window
- compression
- 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.)
- Granted
Links
Landscapes
- Fluid-Damping Devices (AREA)
Abstract
Description
【産業上の利用分野】この発明は、自動車の懸架装置な
ど車体の振動を抑制する油圧緩衝器に関し、特に減衰力
発生構造の改良に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic shock absorber for suppressing vibration of a vehicle body such as a suspension system of an automobile, and more particularly to an improvement in a damping force generating structure.
【0001】[0001]
【従来の技術】この種の油圧緩衝器としては、例えば、
特開平3−163234号公報に開示された技術をピス
トンの上面側に適用した図4に示すようなものが知られ
ている。まず構造の概要を図面に基づいて説明する。油
圧緩衝器を車両に取り付けた状態では図4と上下関係が
同じであるので、以下、図4の上下関係で油圧緩衝器の
部材の位置或いは部位を説明する。2. Description of the Related Art As this type of hydraulic shock absorber, for example,
FIG. 4 shows an example in which the technique disclosed in JP-A-3-163234 is applied to the upper surface of a piston. First, an outline of the structure will be described with reference to the drawings. When the hydraulic shock absorber is attached to the vehicle, the vertical relationship is the same as that in FIG. 4. Therefore, the position or position of the member of the hydraulic shock absorber will be described below with reference to the vertical relationship in FIG. 4.
【0002】車体と車輪との間に結合部材を介して取付
けられる油圧緩衝器は、車体側に取り付けられるピスト
ンロッド1の下端部にピストン5と伸側減衰力を制御す
るピストンバルブを組み付けそれを摺動自在に収容する
とともに、下端部に圧側減衰力を制御するベースバルブ
を装着したシリンダ21を、車輪側に取り付けられる外
筒22に収容し、外気を遮断するシール24とロッドガ
イド23とを収容したパッキンケース25を外筒22の
上部から嵌挿した後、外筒22の上端部を全周溶接等に
より密封して形成されている。そして、シリンダ21と
外筒22の間にはタンク室Dが形成される。2. Description of the Related Art A hydraulic shock absorber mounted between a vehicle body and a wheel via a connecting member is provided with a piston 5 and a piston valve for controlling an extension-side damping force mounted on a lower end portion of a piston rod 1 mounted on the vehicle body side. A cylinder 21, which is slidably housed and has a base valve for controlling a compression damping force at the lower end, is housed in an outer cylinder 22 attached to the wheel side, and a seal 24 and a rod guide 23 for shutting off outside air are formed. After the accommodated packing case 25 is fitted and inserted from above the outer cylinder 22, the upper end of the outer cylinder 22 is hermetically sealed by welding all around. A tank chamber D is formed between the cylinder 21 and the outer cylinder 22.
【0003】作動油の充満したシリンダ21内をピスト
ンロッド1が上昇する際には、密閉された上部室Aの作
動油は、ピストンロッド1の下端部に組み付けられたピ
ストンバルブを介して下部室Bに流出し、この際の通路
抵抗が伸側減衰力となる。ピストンロッド1の上昇によ
って不足するピストンロッド退出体積分の作動油は、シ
リンダ21の下端部に組み付けられたベースバルブを介
してタンク室Dに連なる底部室Cより下部室Bに補充さ
れる。[0003] When the piston rod 1 rises in the cylinder 21 filled with hydraulic oil, the hydraulic oil in the closed upper chamber A is supplied to the lower chamber via a piston valve attached to the lower end of the piston rod 1. B, and the passage resistance at this time becomes the extension-side damping force. Hydraulic oil corresponding to the piston rod withdrawal volume that is insufficient due to the rise of the piston rod 1 is supplied to the lower chamber B from the bottom chamber C connected to the tank chamber D via a base valve attached to the lower end of the cylinder 21.
【0004】つぎに、伸側減衰力を制御するピストンバ
ルブについて説明する。ピストンロッド1の下端部には
上部よりも小径のインロー部1Aが設けられ、ここにリ
ーフバルブ3からなる逆止弁CVの最大撓みを規制する
バルブストッパ2,外周縁が逆止弁CVの撓みの支持径
となる環座7,リーフバルブ3,上面がリーフバルブ3
に対向するピストン5を順次嵌挿する。Next, a piston valve for controlling the extension-side damping force will be described. The lower end of the piston rod 1 is provided with a spigot portion 1A having a smaller diameter than the upper portion, in which a valve stopper 2 for regulating the maximum deflection of the check valve CV composed of the leaf valve 3 and an outer peripheral edge of the check valve CV are bent. Ring 7, leaf valve 3, supporting surface of leaf valve 3
Are sequentially inserted.
【0005】シリンダ21内を上部室Aと下部室Bに区
画し外周にガイド5Sを巻着したピストン5には、図5
に示すように、その上面側に開口面積が順に小さくなる
複数の上側開口窓5D〜5Gが設けられている。当該各
上側開口窓は外周ポート5Aを介して下部室Bに連通す
るとともに、各上側開口窓の間に形成された凹部5K
は、内周ポート5Bを介して円環状の下側開口窓5Cに
連通している。[0005] A piston 5 having a cylinder 21 partitioned into an upper chamber A and a lower chamber B and having a guide 5S wound around the outer periphery thereof has a structure shown in FIG.
As shown in FIG. 5, a plurality of upper opening windows 5D to 5G whose opening areas are sequentially reduced are provided on the upper surface side. Each upper opening window communicates with the lower chamber B via the outer peripheral port 5A, and a concave portion 5K formed between the upper opening windows.
Communicates with the annular lower opening window 5C via the inner peripheral port 5B.
【0006】続いて、下側開口窓5Cに対向し外周側に
切欠き4Aを設けた切欠きリーフバルブ4と当該切欠き
リーフバルブの背面に重畳されたリーフバルブ6からな
る伸側減衰弁PV,外周縁が伸側減衰弁PVの撓みの支
持径となる環座7,伸側減衰弁PVの最大撓みを規制す
るバルブストッパ8を順次組み付け、最後にピストンナ
ット9をインロー部1Aのねじ部に螺着し、締付け工具
により締結することによりピストンバルブが構成され
る。[0006] Subsequently, a notch leaf valve 4 having a notch 4A on the outer peripheral side facing the lower opening window 5C, and an extension damping valve PV comprising a leaf valve 6 superimposed on the back surface of the notch leaf valve. And a ring seat 7 whose outer peripheral edge is the supporting diameter of the bending of the extension side damping valve PV, and a valve stopper 8 for regulating the maximum deflection of the extension side damping valve PV, and finally the piston nut 9 is screwed into the threaded portion of the spigot portion 1A. And a piston valve is formed by fastening with a tightening tool.
【0007】作動油の充満したシリンダ21内をピスト
ンロッド1が上昇する所謂伸長行程において、ピストン
速度が小さくピストン5の下側開口窓5Cと下部室B間
の圧力差が小さい所謂低速域においては、伸側減衰弁P
Vは下側開口窓5Cを覆窓している。このため上部室A
の圧油は、ピストン上面の凹部5Kと内周ポート5Bを
介して下側開口窓5Cに導かれ、下側開口窓5Cに対向
する切欠きリーフバルブ4の切欠き4Aを介して下部室
Bに流出し、この際の通路抵抗により、ピストン速度の
ほぼ2乗に比例する低速域の伸側減衰力を発生する。In a so-called extension stroke in which the piston rod 1 rises in the cylinder 21 filled with hydraulic oil, the piston speed is small, and in a so-called low-speed range where the pressure difference between the lower opening window 5C of the piston 5 and the lower chamber B is small. , Extension damping valve P
V covers the lower opening window 5C. Therefore, upper chamber A
Is guided to the lower opening window 5C through the recess 5K on the upper surface of the piston and the inner peripheral port 5B, and through the notch 4A of the notch leaf valve 4 facing the lower opening window 5C. Then, due to the passage resistance at this time, an extension-side damping force in a low-speed range that is approximately proportional to the square of the piston speed is generated.
【0008】ピストン速度が増大するのに伴い、切欠き
4Aを通過する流量が増え下側開口窓5Cと下部室B間
の圧力差も大きくなる。ピストン速度が中速域に近づく
につれ、下側開口窓5Cに対向して配設されている伸側
減衰弁PVの外周側が、その合成された撓み剛性に打ち
勝って、下側開口窓5Cの外側シート部から押し開か
れ、作動油が下部室Bに流出し、この際の通路抵抗と内
周ポート5Bの通路抵抗とにより中速域以降の伸側減衰
力を発生する。切欠きリーフバルブ4とリーフバルブ6
からなる伸側減衰弁PVの撓み剛性と内周ポート5Bの
通路面積を適当に選択することにより、所要の減衰力特
性を得ることができる。[0008] As the piston speed increases, the flow rate passing through the notch 4A increases, and the pressure difference between the lower opening window 5C and the lower chamber B also increases. As the piston speed approaches the middle speed range, the outer peripheral side of the extension damping valve PV disposed opposite to the lower opening window 5C overcomes the combined flexural rigidity, and becomes outside the lower opening window 5C. The hydraulic fluid is pushed open from the seat portion, and the hydraulic oil flows into the lower chamber B. At this time, the passage resistance of the inner peripheral port 5B and the passage resistance of the inner peripheral port 5B generate an extension-side damping force in a middle speed region and thereafter. Notched leaf valve 4 and leaf valve 6
By appropriately selecting the flexural rigidity of the expansion-side damping valve PV and the passage area of the inner peripheral port 5B, required damping force characteristics can be obtained.
【0009】つぎに、圧側減衰力を制御するベースバル
ブについて説明する。まずガイド11の軸部11Aに、
リーフバルブ13と外周側に切欠き14Aを設けた切欠
きリーフバルブ14からなる吸込み弁DVの最大撓みを
規制するバルブストッパ12,外周縁が吸込み弁DVの
撓みの支持部となる環座17,リーフバルブ13,当該
リーフバルブ13の下側に重畳される切欠きリーフバル
ブ14,上面が切欠きリーフバルブ14に対向するバル
ブケース15を順次嵌挿する。Next, a base valve for controlling the compression side damping force will be described. First, on the shaft 11A of the guide 11,
A valve stopper 12 for restricting the maximum deflection of the suction valve DV, which comprises a leaf valve 13 and a notched leaf valve 14 provided with a notch 14A on the outer peripheral side; a ring seat 17, the outer peripheral edge of which serves as a support for the deflection of the suction valve DV; The leaf valve 13, a notched leaf valve 14 superimposed below the leaf valve 13, and a valve case 15 whose upper surface faces the notched leaf valve 14 are sequentially fitted.
【0010】シリンダ21の下端部に嵌着され下部室B
と底部室Cとを区画するバルブケース15には、下部室
Bに連通する円環状の上側開口窓15Dと円環状の下側
開口窓15Cとを連通する内周ポート15Bが穿孔され
るとともに、底部室Cと円環状の外側開口窓15Eとを
連通する外周ポート15Aが穿孔されている。The lower chamber B is fitted to the lower end of the cylinder 21 and
An inner peripheral port 15B communicating with an annular upper opening window 15D and an annular lower opening window 15C communicating with the lower chamber B is drilled in the valve case 15 that defines the lower chamber C and the bottom case C. An outer peripheral port 15A that communicates the bottom chamber C with the annular outer opening window 15E is drilled.
【0011】続いて、ガイド11の軸部11Aに、上記
バルブケース15の下側開口窓15Cに対向するリーフ
バルブ16からなる圧側減衰弁BV,更に、外周縁が圧
側減衰弁BVの撓みの支持径となる環座17,圧側減衰
弁BVの最大撓みを規制するバルブストッパ18を順次
組み付け、最後に、ガイド11の軸部11Aの下端部を
工具により加締めることによりベースバルブが構成され
る。Subsequently, on the shaft portion 11A of the guide 11, a compression damping valve BV comprising a leaf valve 16 facing the lower opening window 15C of the valve case 15, and further, the outer peripheral edge of the compression damping valve BV is supported. A ring seat 17 having a diameter and a valve stopper 18 for restricting the maximum deflection of the pressure-side damping valve BV are sequentially assembled, and finally, a lower end of the shaft 11A of the guide 11 is swaged with a tool to form a base valve.
【0012】作動油の充満したシリンダ21内をピスト
ンロッド1が下降する所謂収縮行程において、ピストン
速度が小さくバルブケース15の下側開口窓15Cと底
部室C間の圧力差が小さい所謂低速域においては、圧側
減衰弁BVは下側開口窓15Cを覆窓している。このた
めピストン5を介して容積の拡大する上部室Aに補充さ
れる分を除いたピストンロッド1の侵入体積に相当する
下部室Bの圧油は、切欠きリーフバルブ4の切欠き4
A,バルブケース15の外側開口窓15E,外周ポート
15Aを介して底部室Cに流出し、この際の通路抵抗に
より、ピストン速度のほぼ2乗に比例する低速域の圧側
ベース減衰力を発生する。In a so-called contraction stroke in which the piston rod 1 descends in the cylinder 21 filled with hydraulic oil, in a so-called low-speed range where the piston speed is small and the pressure difference between the lower opening window 15C of the valve case 15 and the bottom chamber C is small. , The compression side damping valve BV covers the lower opening window 15C. For this reason, the pressure oil in the lower chamber B corresponding to the intrusion volume of the piston rod 1 excluding the amount replenished to the upper chamber A whose volume increases via the piston 5 is reduced by the notch 4 of the notch leaf valve 4.
A, flows out to the bottom chamber C through the outer opening window 15E of the valve case 15 and the outer peripheral port 15A, and generates a pressure-side base damping force in a low speed range proportional to the square of the piston speed due to the passage resistance at this time. .
【0013】ここで、ピストン速度が小さくピストン5
の外側開口窓5D〜5Gと上部室A間の圧力差が小さい
所謂低速域においては、リーフバルブ3からなる逆止弁
CVは外側開口窓5D〜5Gを覆窓している。このた
め、ピストン5を介して容積の拡大する上部室Aに補充
される下部室Bの圧油は、ピストン5の外周ポート5A
を通り、切欠きリーフバルブ4の切欠き4Aを介して上
部室Aに補充され、この際の通路抵抗により、ピストン
速度のほぼ2乗に比例する低速域の圧側背面減衰力を発
生する。当該圧側背面減衰力を上記圧側ベース減衰力に
付加したものが低速域の圧側減衰力となる。Here, the piston speed is low and the piston 5
In a so-called low-speed range where the pressure difference between the outer opening windows 5D to 5G and the upper chamber A is small, the check valve CV including the leaf valve 3 covers the outer opening windows 5D to 5G. For this reason, the pressure oil in the lower chamber B, which is replenished to the upper chamber A whose volume increases through the piston 5, is supplied to the outer peripheral port 5A of the piston 5.
Through the notch 4A of the notch leaf valve 4, the upper chamber A is replenished. At this time, the passage resistance generates a pressure-side back-side damping force in a low-speed region proportional to the square of the piston speed. The compression-side damping force obtained by adding the compression-side back surface damping force to the compression-side base damping force is a compression-side damping force in a low-speed range.
【0014】ピストン速度が増大するのに伴い、切欠き
14Aを通過する流量が増え切欠き前後の圧力差が増大
するとともに、バルブストッパ12の通孔12A,リー
フバルブ13の通孔13A,当該通孔13Aと連通する
切欠きリーフバルブ14の開口部14B,バルブケース
15の上側開口窓15D,内周ポート15Bを介して下
部室Bに連通するバルブケース15の下側開口窓15C
と、底部室C間との圧力差も大きくなる。As the piston speed increases, the flow rate passing through the notch 14A increases, the pressure difference before and after the notch increases, and the through hole 12A of the valve stopper 12, the through hole 13A of the leaf valve 13, and the like. The opening 14B of the notched leaf valve 14 communicating with the hole 13A, the upper opening 15D of the valve case 15, and the lower opening 15C of the valve case 15 communicating with the lower chamber B via the inner peripheral port 15B.
And the pressure difference between the bottom chambers C also increases.
【0015】このため、ピストン速度が中速域に近づく
につれ、下側開口窓15Cに対向して配設されているリ
ーフバルブ16からなる圧側減衰弁BVの外周側が、そ
の合成された撓み剛性に打ち勝って下側開口窓15Cの
外側シート部から押し開かれ、作動油が底部室Cに流出
し、この際の通路抵抗と内周ポート15Bの通路抵抗と
により中速域以降の圧側ベース減衰力を発生する。リー
フバルブ16からなる圧側減衰弁BVの撓み剛性と内周
ポート15Bの通路面積を適当に選択することにより、
所要の減衰力特性を得ることができる。For this reason, as the piston speed approaches the middle speed range, the outer peripheral side of the compression side damping valve BV composed of the leaf valve 16 disposed opposite to the lower opening window 15C has its combined flexural rigidity. It overcomes and is pushed open from the outer seat portion of the lower opening window 15C, and the hydraulic oil flows out to the bottom chamber C, and the passage resistance at this time and the passage resistance of the inner peripheral port 15B cause the compression-side base damping force after the middle speed range. Occurs. By appropriately selecting the bending rigidity of the compression side damping valve BV including the leaf valve 16 and the passage area of the inner peripheral port 15B,
The required damping force characteristics can be obtained.
【0016】ここで、容積の拡大する上部室Aには、ピ
ストン5の外周ポート5Aを通り、リーフバルブ3から
なる逆止弁CVの合成された撓み剛性に打ち勝って、逆
止弁CVが外側開口窓5Eの外側シート部から押し開か
れ、下部室Bから作動油が補充され、この際の通路抵抗
により中速域以降の圧側背面減衰力を発生する。当該圧
側背面減衰力を上記圧側ベース減衰力に付加したものが
中速域以降の圧側減衰力となる。Here, the upper chamber A, whose volume is increased, passes through the outer peripheral port 5A of the piston 5 and overcomes the combined flexural rigidity of the check valve CV composed of the leaf valve 3, so that the check valve CV is moved outward. It is pushed open from the outer sheet portion of the opening window 5E, and the operating oil is replenished from the lower chamber B, and the passage resistance at this time generates a pressure-side rear damping force in the middle speed range and thereafter. The compression-side damping force obtained by adding the compression-side rear damping force to the compression-side base damping force is the compression-side damping force in the middle speed range and thereafter.
【0017】逆に、ピストンロッド1が上昇する際に
は、底部室Cからバルブケース15の外周ポート15A
を通り、リーフバルブ13と切欠きリーフバルブ14か
らなる吸込み弁DVの撓み剛性に打ち勝って、吸込み弁
DVが外側開口窓15Eの外側シート部から押し開か
れ、ピストンロッド1の退出体積分の作動油が下部室B
に補充される。Conversely, when the piston rod 1 rises, the outer peripheral port 15A of the valve case 15
, Overcoming the bending rigidity of the suction valve DV composed of the leaf valve 13 and the notch leaf valve 14, the suction valve DV is pushed open from the outer seat portion of the outer opening window 15 </ b> E, and the operation corresponding to the retreated volume of the piston rod 1 is performed. Oil in lower chamber B
Will be replenished.
【0018】[0018]
【発明が解決しようとする課題】油圧緩衝器が伸長行程
から収縮行程に切り替わる際には、吸込み弁DVは圧力
が増大する下部室Bと底部室C間の差圧によって速やか
に閉弁するので、下部室Bの圧油は圧側減衰弁BVを介
して底部室Cに流出し、この際の通路抵抗により圧側減
衰力を発生する。一方、下部室Bは外周ポート5Aを介
してピストンの上側開口窓5D〜5Gに連通している
が、当該上側開口窓には逆止弁CVが対向しているの
で、下部室Bの圧油は、まず、切欠きリーフバルブ4の
切欠き4Aを通り下側開口窓5Cを介して容積の拡大す
る上部室Aに流入しようとする。When the hydraulic shock absorber switches from the expansion stroke to the contraction stroke, the suction valve DV closes promptly due to the differential pressure between the lower chamber B and the bottom chamber C whose pressure increases. The pressure oil in the lower chamber B flows out to the bottom chamber C via the compression damping valve BV, and generates a compression damping force due to the passage resistance at this time. On the other hand, the lower chamber B communicates with the upper opening windows 5D to 5G of the piston via the outer peripheral port 5A. However, since the check valve CV faces the upper opening window, the pressure oil in the lower chamber B is increased. First, it is attempted to flow through the notch 4A of the notch leaf valve 4 and into the upper chamber A whose volume increases through the lower opening window 5C.
【0019】下部室Bと上部室A間の差圧が小さいピス
トン速度の微低速域においては、逆止弁CVの撓み剛性
に打ち勝ってこれを押し開くことができない。しかも切
欠き4Aの通路面積Sは、例えば、巾=2mm,オリフ
ィス数=4,板厚=0.15mmの場合で、S=2×4
×0.15=1.2m■程度と小さい。このため、上部
室Aに作動油を十分補充することができないので、圧側
背面減衰力をスムーズに大きくすることができない。In a very low piston speed region where the pressure difference between the lower chamber B and the upper chamber A is small, the check valve CV cannot overcome the bending rigidity and push it open. Moreover, the passage area S of the notch 4A is, for example, S = 2 × 4 when the width = 2 mm, the number of orifices = 4, and the plate thickness = 0.15 mm.
× 0.15 = approximately 1.2 m ■. For this reason, the working oil cannot be sufficiently replenished to the upper chamber A, so that the compression-side back surface damping force cannot be increased smoothly.
【0020】本発明は以上のような実情に鑑みてなされ
たものであり、その目的とするところは、油圧緩衝器が
伸長行程から収縮行程に切り替わる際に、ピストンの逆
止弁側で発生する圧側背面減衰力をピストン速度の微低
速域からスムーズに大きくすることのできる油圧緩衝器
を提供することである。The present invention has been made in view of the above circumstances, and an object of the present invention is to occur on the check valve side of a piston when a hydraulic shock absorber switches from an extension stroke to a contraction stroke. An object of the present invention is to provide a hydraulic shock absorber capable of smoothly increasing the compression-side back surface damping force from a very low piston speed range.
【0021】[0021]
【問題を解決するための手段】本発明は、ピストンロッ
ドに締結され上面側に開口面積が順に小さくなる複数の
上側開口窓を隔設したピストンを介して、シリンダ内を
上部室と下部室とに区画するとともに、シリンダの下部
に設けたバルブケースを介して下部室とタンク室に連通
する底部室とを区画し、ピストンに配設した逆止弁と伸
側減衰弁にとよりピストンロッドが下降する際の圧側背
面減衰力とピストンロッドが伸長する際の伸側減衰力を
制御する一方、バルブケースに配設した圧側減衰弁によ
りピストンロッドが下降する際の圧側ベース減衰力を発
生させ、当該圧側ベース減衰力に上記圧側背面減衰力を
付加して圧側減衰力を制御する油圧緩衝器を前提とす
る。SUMMARY OF THE INVENTION According to the present invention, an upper chamber and a lower chamber are formed in a cylinder through a piston having a plurality of upper opening windows which are fastened to a piston rod and whose opening area gradually decreases on the upper surface side. And a lower chamber and a bottom chamber communicating with the tank chamber via a valve case provided at the lower part of the cylinder, and a piston rod is arranged by a check valve and an extension damping valve arranged on the piston. While controlling the compression-side rear damping force when descending and the extension-side damping force when the piston rod extends, the compression-side damping valve arranged in the valve case generates a compression-side base damping force when the piston rod descends, It is assumed that a hydraulic shock absorber controls the compression-side damping force by adding the compression-side back surface damping force to the compression-side base damping force.
【0022】課題を解決するため本発明の採った手段
は、上記ピストンの各上側開口窓にはリーフバルブから
なる逆止弁を対向させ、当該逆止弁を開口面積が最大の
上側開口窓から最小の上側開口窓に対応して付勢力が順
に大きくなる複数の支持片を備えたリーフスプリングで
背面から付勢するとともに、各上側開口窓はピストンに
形成した外周ポートを介して下部室に連通させ、ピスト
ンロッドが下降する際に、開口面積が大きく開弁圧力の
小さい上側開口窓に対応する部分から開口面積が小さく
開弁圧力の大きい上側開口窓に対応する部分にかけて、
上記逆止弁をピストン速度の増大につれて順々に開弁さ
せ、下部室から上部室への通路抵抗に基づく上記圧側背
面減衰力を、ピストン速度の増大につれて大きくなるよ
うに構成したことである。Means taken by the present invention to solve the problem is that a check valve composed of a leaf valve is opposed to each upper opening window of the piston, and the check valve is opened from the upper opening window having the largest opening area. The leaf spring is provided with a plurality of support pieces whose biasing force increases in order to correspond to the smallest upper opening window. It is urged from the back by a leaf spring, and each upper opening window communicates with the lower chamber through an outer peripheral port formed in the piston. When the piston rod descends, from the portion corresponding to the upper opening window having a large opening area and a small valve opening pressure to the portion corresponding to the upper opening window having a small opening area and a large valve opening pressure,
The check valve is sequentially opened as the piston speed increases, and the compression-side back surface damping force based on the passage resistance from the lower chamber to the upper chamber increases as the piston speed increases.
【0023】上記リーフスプリングは、各支持片の基端
部の巾、又は各支持片の基端部から外端に至る軸線方向
の高さ、或いはその双方を変えることにより付勢力を設
定することができる。また、上記圧側背面減衰力をピス
トン速度の増大につれてスムーズに大きくするには、上
記各上側開口窓に穿設した外周ポートの孔径は、開口面
積が最大の上側開口窓から最小の上側開口窓にかけて順
に大きくすることが望ましい。The leaf spring sets the urging force by changing the width of the base end of each support piece, the height in the axial direction from the base end to the outer end of each support piece, or both. Can be. Further, in order to smoothly increase the compression-side rear damping force as the piston speed increases, the hole diameter of the outer peripheral port formed in each of the upper opening windows is such that the opening area is from the largest upper opening window to the smallest upper opening window. It is desirable to increase in order.
【0024】[0024]
【発明の実施の形態】本発明に係わる油圧緩衝器は、図
1に示すように、図4の従来技術と同じ基本構造を備
え、ピストンロッド101がその下端部に装着されたピ
ストン105を介して、シリンダ21内に移動自在に挿
入されるとともに、上部室Aと下部室Bを区画する。ま
た、シリンダ21の下端部にはバルブケース15が嵌着
され、同じく下部室Bとタンク室Dに連通する底部室C
を区画している。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS As shown in FIG. 1, a hydraulic shock absorber according to the present invention has the same basic structure as that of the prior art shown in FIG. 4, and a piston rod 101 is provided via a piston 105 mounted at a lower end thereof. Thus, the upper chamber A and the lower chamber B are partitioned while being movably inserted into the cylinder 21. A valve case 15 is fitted to the lower end of the cylinder 21, and a bottom chamber C communicating with the lower chamber B and the tank chamber D is also provided.
Is partitioned.
【0025】本発明に係わる油圧緩衝器は、ピストンの
上面側に下部室に連なり開口面積の異なる複数の上側開
口窓105D〜105Gを設けるとともに、開口面積が
最大の上側開口窓105Dには、リーフバルブ3を背面
から付勢するリーフスプリング102の付勢力の最小の
部分を対応させ、開口面積が最小の上側開口窓105G
にはリーフスプリング102の付勢力の最大の部分を対
応させるように位置合わせをして組み付け、逆止弁CV
を差圧が小さいピストン速度の微低速域から滑らかに開
弁させ、圧側背面減衰力をスムーズに大きくすることが
できるようにするものである。The hydraulic shock absorber according to the present invention has a plurality of upper opening windows 105D to 105G having different opening areas connected to the lower chamber on the upper surface side of the piston, and the upper opening window 105D having the largest opening area has a leaf. The upper portion of the upper opening window 105G having the smallest opening area corresponds to the portion of the leaf spring 102 that biases the valve 3 from the rear surface.
Is assembled so as to correspond to the largest part of the urging force of the leaf spring 102, and the check valve CV
Is smoothly opened from a very low speed region of the piston speed where the differential pressure is small, so that the compression-side back surface damping force can be smoothly increased.
【0026】ピストンロッド101の下端部には、図1
(A)に示すように上部よりも小径のインロー部101
Aが設けられ、ここにリーフバルブ3を背面から付勢す
る図2(A)に示すリーフスプリング102,外周縁が
図2(B)に示すリーフバルブ3の撓みの支持径となる
環座103,当該環座103の下側に重畳されるリーフ
バルブ3からなる逆止弁CV,図2(C)に示す上面が
リーフバルブ3に対向するピストン105を、図1
(B)に示すようにインロー部101Aの一部をD字状
に切除した平坦部101Bに、各部品の内径側の位置決
め用直線部Wを位置合わせして順次嵌挿する。At the lower end of the piston rod 101, FIG.
(A) As shown in FIG.
2A, a leaf spring 102 shown in FIG. 2A for urging the leaf valve 3 from the back, and a ring seat 103 having an outer peripheral edge corresponding to the supporting diameter of the deflection of the leaf valve 3 shown in FIG. 2B. A check valve CV composed of a leaf valve 3 superimposed on the lower side of the ring seat 103, and a piston 105 whose upper surface faces the leaf valve 3 shown in FIG.
As shown in (B), the positioning straight portion W on the inner diameter side of each component is aligned and inserted into the flat portion 101B in which a part of the spigot portion 101A is cut out in a D shape.
【0027】上記リーフスプリング102は、基端部の
外周に複数の支持片102A,102B,102C,1
02Dを隔設し、ピストン105の開口面積が最大の上
側開口窓105Dに対向する支持片102Dの付勢力が
最小で、上側開口窓105E,105F,105Gの開
口面積とが順に小さくなるに従って、支持片102C,
102B,102Aの順に付勢力が大きくなるようにす
る。The leaf spring 102 has a plurality of support pieces 102A, 102B, 102C, 1
02D, the urging force of the support piece 102D opposed to the upper opening window 105D having the largest opening area of the piston 105 is minimized, and the supporting area is gradually reduced as the opening areas of the upper opening windows 105E, 105F, and 105G decrease. Piece 102C,
The urging force is increased in the order of 102B and 102A.
【0028】リーフスプリング102は、例えば図2
(A)に示すように、各支持片102A〜102Dの基
端部の巾、又は各支持片102A〜102Dの基端部か
ら外端に至る軸線方向の高さをそれぞれ違えて製作する
ことにより付勢力を設定することができる。或いはその
双方を変えて付勢力を設定してもよい。The leaf spring 102 is, for example, as shown in FIG.
As shown in (A), the width of the base end of each of the support pieces 102A to 102D or the height in the axial direction from the base end to the outer end of each of the support pieces 102A to 102D is manufactured differently. The biasing force can be set. Alternatively, the urging force may be set by changing both of them.
【0029】シリンダ21内を上部室Aと下部室Bに区
画し外周にガイド5Sを巻着したピストン105の上面
側には、図2(C)に示すように、開口面積が順に小さ
くなる複数の上側開口窓105D〜105Gが設けら
れ、当該各上側開口窓は外周ポート105d〜105g
を介して下部室Bに連通するとともに、各上側開口窓の
間に形成された凹部105Kは、内周ポート105Bを
介して円環状の下側開口窓105Cに連通している。As shown in FIG. 2 (C), on the upper surface side of the piston 105 having the inside of the cylinder 21 divided into an upper chamber A and a lower chamber B and having a guide 5S wound around the outer periphery, a plurality of openings having a smaller opening area are formed. Upper opening windows 105D to 105G are provided, and the respective upper opening windows are provided with outer peripheral ports 105d to 105g.
The recess 105K formed between the upper opening windows communicates with the annular lower opening window 105C via the inner peripheral port 105B.
【0030】続いて、下側開口窓105Cに対向し外周
側に切欠き4Aを設けた切欠きリーフバルブ4と当該切
欠きリーフバルブの背面に重畳されたリーフバルブ6か
らなる伸側減衰弁PV,外周縁が伸側減衰弁PVの撓み
の支持径となる環座7,伸側減衰弁PVの最大撓みを規
制するバルブストッパ8を順次組み付け、最後にピスト
ンナット9をインロー部1Aのねじ部に螺着し、締付け
工具により締結することによりピストンバルブが構成さ
れる。要求される減衰力によっては、逆止弁CV側のリ
ーフバルブ3を複数枚重畳して使用する。Subsequently, a notch leaf valve 4 having a notch 4A provided on the outer peripheral side facing the lower opening window 105C and a leaf damping valve PV comprising a leaf valve 6 superimposed on the back surface of the notch leaf valve. And a ring seat 7 whose outer peripheral edge is the supporting diameter of the bending of the extension side damping valve PV, and a valve stopper 8 for regulating the maximum deflection of the extension side damping valve PV. And a piston valve is formed by fastening with a tightening tool. Depending on the required damping force, a plurality of leaf valves 3 on the check valve CV side are used in an overlapping manner.
【0031】つぎに、ベースバルブ側について説明す
る。まず従来構造と同様、ガイド11の軸部11Aに、
リーフバルブ13からなる吸込み弁DVの最大撓みを規
制するバルブストッパ12,外周縁が吸込み弁DVの撓
みの支持部となる環座17,リーフバルブ13,上面が
リーフバルブ13に対向するバルブケース15を順次嵌
挿する。リーフバルブ13は必要に応じて複数枚重ねて
使用する。Next, the base valve side will be described. First, like the conventional structure, the shaft 11A of the guide 11
A valve stopper 12 for regulating the maximum deflection of the suction valve DV comprising a leaf valve 13, a ring seat 17 whose outer peripheral edge serves as a support for the deflection of the suction valve DV, a leaf valve 13, and a valve case 15 whose upper surface faces the leaf valve 13. Are sequentially inserted. A plurality of leaf valves 13 are used as needed.
【0032】続いて、ガイド11の軸部11Aに、上記
バルブケース15の下側開口窓15Cに対向するととも
に外径が順に小さくなるリーフバルブ16,106,1
07を順に重畳した圧側減衰弁BV,更に、外周縁が圧
側減衰弁BVの撓みの支持径となる環座17,圧側減衰
弁BVの最大撓みを規制するバルブストッパ18を順次
組み付け、最後に、ガイド11の軸部11Aの下端部を
工具により加締めることによりベースバルブが構成され
る。Subsequently, a leaf valve 16, 106, 1 having a shaft portion 11A of the guide 11 opposed to the lower opening window 15C of the valve case 15 and having an outer diameter sequentially decreasing.
07 are sequentially superimposed, a ring seat 17 whose outer peripheral edge is a supporting diameter of the bending of the compression-side damping valve BV, and a valve stopper 18 that regulates the maximum bending of the compression-side damping valve BV are sequentially assembled. A base valve is formed by caulking the lower end of the shaft 11A of the guide 11 with a tool.
【0033】作動油の充満したシリンダ21内をピスト
ンロッド1が上昇する所謂伸長行程からピストンロッド
1が下降する所謂収縮行程に切り替わる際には、リーフ
バルブ16,106,107からなる圧側減衰弁BV
は、前記下側開口窓15Cを覆窓している。しかも、リ
ーフバルブ13からなる吸込み弁DVも外側開口窓11
05Eを覆窓している。When switching from the so-called extension stroke in which the piston rod 1 rises in the cylinder 21 filled with hydraulic oil to the so-called contraction stroke in which the piston rod 1 descends, the compression-side damping valve BV composed of the leaf valves 16, 106 and 107 is used.
Covers the lower opening window 15C. In addition, the suction valve DV comprising the leaf valve 13 is also
05E is covered.
【0034】ここで、上部室Aに補充される分を除いた
下部室Bの圧油は、バルブストッパ12の通孔12A,
リーフバルブ13の通孔13A,バルブケース15の上
側開口窓15D,内周ポート15Bを介して下部室Bに
連通する下側開口窓15Cに導かれている。そこで、当
該下側開口窓15Cに対向して配設されているリーフバ
ルブ16の外周側が、下側のリーフバルブ106,10
7との合成された撓み剛性に打ち勝って、下側開口窓1
5Cの外側シート部から押し開かれて底部室Cに流出
し、この際の通路抵抗により圧側ベース減衰力を発生す
る。Here, the pressure oil in the lower chamber B excluding the replenishment of the upper chamber A is supplied to the through holes 12A,
It is led to a lower opening window 15C communicating with the lower chamber B via a through hole 13A of the leaf valve 13, an upper opening window 15D of the valve case 15, and an inner peripheral port 15B. Therefore, the outer peripheral side of the leaf valve 16 disposed opposite to the lower opening window 15C is connected to the lower leaf valves 106 and 10.
7 and the lower opening window 1
It is pushed open from the outer sheet portion of 5C and flows out to the bottom chamber C, and the passage-side resistance at this time generates a compression-side base damping force.
【0035】ところで、外径が順に小さくなるリーフバ
ルブ16,106,107からなる圧側減衰弁は、外径
が大きいリーフバルブ16から開き始め、撓みの増加と
ともにリーフバルブ16がリーフバルブ106,107
を順々に押し倒して撓み剛性が徐々に大きくなる。この
ため、ピストン速度の微低速域からリーフバルブ16が
開くので、リーフバルブ16,106,107の撓み剛
性によって定まる通路抵抗により、微低速域から高速域
に亘るピストン速度の全域で、図4のFaで示すように
ピストン速度にほぼ比例してリニアに立ち上がる圧側ベ
ース減衰力を発生することになる。By the way, the compression side damping valve composed of the leaf valves 16, 106 and 107 whose outer diameters become smaller in order starts to open from the leaf valve 16 having the larger outer diameter, and the leaf valve 16 is moved with increasing deflection.
Are pushed down one after another, and the flexural rigidity gradually increases. For this reason, the leaf valve 16 opens from the very low speed range of the piston speed, and the passage resistance determined by the flexural rigidity of the leaf valves 16, 106, 107 causes the piston speed of FIG. As shown by Fa, a pressure-side base damping force that rises linearly substantially in proportion to the piston speed is generated.
【0036】この結果、下部室Bはピストン速度の微低
速域からスムーズに圧力が高まるので、下部室Bと容積
の拡大する上部室A間の差圧もスムーズに増加する。ピ
ストンの上側開口窓105D,105E,105F,1
05Gは、それぞれ外周ポート105d,105e,1
05f,105gを介して下部室Bに連通しているの
で、ピストン速度の微低速域においては、まず、開口面
積が最大で押し上げ力(開口面積×下部室Bと上部室A
間の差圧)が最も大きくなる上側開口窓105Dに対向
する部分の逆止弁CVが、これを背面から付勢している
リーフスプリング102の支持片のうち、この部分に対
応している付勢力が最も小さい支持片102Dの付勢力
に打ち勝って押し開かれ、下部室Bの圧油が上部室Aに
流出し、この際の通路抵抗により微低速域の圧側背面減
衰力を発生する。As a result, the pressure in the lower chamber B is smoothly increased from a very low speed range of the piston speed, so that the pressure difference between the lower chamber B and the upper chamber A whose volume is increased also increases smoothly. Upper opening windows 105D, 105E, 105F, 1 of the piston
05G are outer peripheral ports 105d, 105e, 1 respectively.
Since the lower chamber B communicates with the lower chamber B through the air passages 05f and 105g, the opening area has a maximum pushing force (open area × lower chamber B and upper chamber A) when the piston speed is very low.
The check valve CV at the portion facing the upper opening window 105D where the pressure difference between the two becomes largest is the portion corresponding to this portion of the support piece of the leaf spring 102 which biases the check valve CV from the back. The biasing force of the supporting piece 102D having the smallest force is overcome to be pushed open, and the pressure oil in the lower chamber B flows out to the upper chamber A, and the resistance of the passage at this time generates a compression-side back surface damping force in a very low speed range.
【0037】ピストン速度が増大するに従い上側開口窓
105Dに対応する孔径が最小の外周ポート105dを
通過する流量が増え、この際の通路抵抗による下部室B
と上部室A間の差圧も増加する。このため、孔径が2番
目に小さい外周ポート105eを介し開口面積が2番目
に大きい上側開口窓105Eに対向する部分の逆止弁C
Vが、この部分に対応している付勢力が2番目に小さい
リーフスプリングの支持片102Cの付勢力に打ち勝っ
て押し開かれ、下部室Bの圧油が上部室Aに流出するよ
うになる。As the piston speed increases, the flow rate passing through the outer peripheral port 105d having the smallest hole diameter corresponding to the upper opening window 105D increases, and the lower chamber B due to the passage resistance at this time.
The pressure difference between the upper chamber A and the upper chamber A also increases. For this reason, the check valve C at a portion opposed to the upper opening window 105E having the second largest opening area via the outer peripheral port 105e having the second smallest hole diameter.
V is pushed open by the biasing force corresponding to this portion overcoming the biasing force of the support piece 102C of the second smallest leaf spring, and the pressure oil in the lower chamber B flows out to the upper chamber A.
【0038】上記上側開口窓105Eの開口面積は前記
上側開口窓105Dよりも小さく設定され且つこの部分
に対応しているリーフスプリングの支持片102Cの付
勢力も大きくなっているので、その分下部室Bと上部室
A間の差圧も増加するため、この際の通路抵抗による圧
側背面減衰力も増加する。The opening area of the upper opening window 105E is set smaller than that of the upper opening window 105D, and the urging force of the supporting piece 102C of the leaf spring corresponding to this area is larger. Since the pressure difference between B and the upper chamber A also increases, the pressure-side back surface damping force due to the passage resistance at this time also increases.
【0039】ピストン速度が更に増大すると、上側開口
窓105Eの外周ポート105eを通過する流量が増
え、この際の通路抵抗による下部室Bと上部室A間の差
圧が更に増加するので、下部室Bの圧油は、更に開口面
積が順に小さくなる上側開口窓105F,105Gを順
次押し開き、対向する部分の逆止弁CVを押し開いて上
部室Aに流出する。When the piston speed further increases, the flow rate passing through the outer peripheral port 105e of the upper opening window 105E increases, and the differential pressure between the lower chamber B and the upper chamber A due to the passage resistance at this time further increases. The pressurized oil of B sequentially pushes and opens the upper opening windows 105F and 105G whose opening areas become smaller in order, pushes and opens the check valve CV of the opposing portion, and flows out to the upper chamber A.
【0040】上側開口窓105D〜105Gの開口面積
は、105D,105E,105F,105Gの順に小
さくなるように設定され、各上側開口窓105D〜10
5Gを下部室Bに連通する外周ポート105d〜105
gは逆に順に小さくなるように設定されるとともに、各
上側開口窓105D〜105Gに対応しているリーフス
プリングの支持片102D〜102Aの付勢力は、10
2D,102C,102B,102Aの順に大きくなる
ように設定されているので、その分下部室Bと上部室A
間の差圧も増加するため、この際の通路抵抗による圧側
背面減衰力は、図3のFbで示すように、ピストン速度
に対してスムーズに増加する。The opening areas of the upper opening windows 105D to 105G are set so as to decrease in the order of 105D, 105E, 105F, and 105G.
Outer peripheral ports 105d-105 for communicating 5G with lower chamber B
g is set so as to become smaller sequentially, and the biasing force of the leaf spring support pieces 102D to 102A corresponding to the respective upper opening windows 105D to 105G is 10 g.
2D, 102C, 102B, and 102A, the lower chamber B and the upper chamber A
Since the pressure difference between them also increases, the compression side damping force due to the passage resistance at this time smoothly increases with respect to the piston speed as shown by Fb in FIG.
【0041】前記圧側ベース減衰力に上記圧側背面減衰
力を付加したものが、図3のFcで示す圧側減衰力とな
る。作動油の充満したシリンダ21内をピストンロッド
1が下降する収縮行程においては、圧側背面減衰力を発
生する下部室Bと上部室A間の差圧が、圧側ベース減衰
力を発生する下部室Bと底部室C間の差圧よりも小さけ
れば、上部室Aにスムーズに作動油が補充されるので、
圧側背面減衰力を上記条件を満たす範囲で限度近くまで
大きくすることができる。The compression side damping force obtained by adding the compression side backing damping force to the compression side base damping force is the compression side damping force indicated by Fc in FIG. In the contraction stroke in which the piston rod 1 descends in the cylinder 21 filled with the hydraulic oil, the differential pressure between the lower chamber B and the upper chamber A that generates the compression-side back-side damping force causes the lower chamber B that generates the compression-side base damping force. If the pressure difference is smaller than the pressure difference between the upper chamber A and the lower chamber C, the hydraulic oil is smoothly replenished to the upper chamber A.
The compression-side rear damping force can be increased to near the limit as long as the above condition is satisfied.
【0042】このため、ピストン速度の微低速域から高
速域に亘るピストン速度の全域で、圧側減衰力が図3の
Fcで示すようにスムーズに増加し、圧側減衰力をピス
トン速度の微低速域から大きくすることができるように
なる。この結果、例えば車輌が良路を走行する場合に路
面のうねり等により発生するロールのような緩やかな姿
勢変化に対してても、十分な制振力を得ることができ
る。For this reason, the compression damping force increases smoothly as shown by Fc in FIG. 3 over the entire range of the piston speed from the very low speed region to the high speed region of the piston speed, and the compression side damping force is reduced to the very low speed region of the piston speed. Will be able to be larger. As a result, for example, when the vehicle runs on a good road, a sufficient vibration damping force can be obtained even with a gentle posture change such as a roll caused by undulation of the road surface.
【0043】上述した実施形態においては、各上側開口
窓に穿設した外周ポート105d,105e,105
f,105gは、開口面積が最大の上側開口窓から最小
の上側開口窓にかけて孔径を順に大きくする場合を説明
したが、上側開口窓105D〜105Gの開口面積は、
105D,105E,105F,105Gの順に小さく
なるように設定され、逆に各上側開口窓105D〜10
5Gに対応しているリーフスプリングの支持片102D
〜102Aの付勢力は順に大きくなるように設定されて
いるので、外周ポートの孔径を所定の通路抵抗が生じる
ように選定すれば、孔径が同一であってもほぼ類似した
性能を実現することができる。In the above-described embodiment, the outer peripheral ports 105d, 105e, and 105 are formed in the upper opening windows.
f and 105g have described the case where the hole diameter is sequentially increased from the upper opening window having the largest opening area to the smallest upper opening window, but the opening areas of the upper opening windows 105D to 105G are as follows.
105D, 105E, 105F, and 105G are set so as to become smaller in this order.
Supporting piece 102D of leaf spring corresponding to 5G
Since the biasing force of -102 A is set so as to increase in order, if the hole diameter of the outer peripheral port is selected so as to generate a predetermined passage resistance, substantially similar performance can be realized even if the hole diameter is the same. it can.
【0044】作動油の充満したシリンダ21内をピスト
ンロッド1が上昇する伸長行程における伸側減衰力につ
いては、伸側減衰弁PVが従来構造と同じで同一である
ため、詳細な説明は省略する。The extension damping force in the extension stroke in which the piston rod 1 rises in the cylinder 21 filled with the hydraulic oil is the same as the extension damping valve PV of the conventional structure, and the detailed explanation is omitted. .
【0045】[0045]
【発明の効果】以上詳述した通り本発明に係わるピスト
ンバルブにおいては、逆止弁を介して圧側背面減衰力を
発生する下部室と上部室間の差圧が、圧側減衰弁を介し
て圧側ベース減衰力を発生する下部室と底部室間の差圧
よりも小さければ、上部室にスムーズに作動油が補充さ
れるので、圧側背面減衰力を上記条件を満たす範囲で限
度近くまで大きくすることができる。このため、ピスト
ン速度の微低速域から高速域に亘るピストン速度の全域
で、圧側背面減衰力がスムーズに増加し、当該圧側背面
減衰力を上記圧側ベース減衰力に付加した圧側減衰力
を、ピストン速度の微低速域から大きくすることができ
るようになる。この結果、例えば車輌が良路を走行する
場合に路面のうねり等により発生するロールのような緩
やかな姿勢変化に対してても、十分な制振力を得ること
ができる。As described above in detail, in the piston valve according to the present invention, the differential pressure between the lower chamber and the upper chamber, which generates the compression-side rear damping force via the check valve, is reduced via the compression-side damping valve. If the pressure difference is smaller than the pressure difference between the lower chamber and the bottom chamber that generates the base damping force, the upper chamber will be replenished with hydraulic oil smoothly. Can be. For this reason, in the entire range of the piston speed from the very low speed range to the high speed range of the piston speed, the compression side damping force smoothly increases, and the compression side damping force obtained by adding the compression side backing damping force to the compression side base damping force is applied to the piston. The speed can be increased from a very low speed range. As a result, for example, when the vehicle runs on a good road, a sufficient vibration damping force can be obtained even with a gentle posture change such as a roll caused by undulation of the road surface.
【図1】(A)本発明に係わる油圧緩衝器の要部断面図
である。 (B)ピストンロッドのインロー部の断面図である。FIG. 1A is a sectional view of a main part of a hydraulic shock absorber according to the present invention. (B) It is sectional drawing of the spigot part of a piston rod.
【図2】(A)本発明に係わるリーフスプリングの平面
図である。 (B)同じくリーフバルブの平面図である。 (C)本発明に係わるピストンの上面図である。FIG. 2A is a plan view of a leaf spring according to the present invention. (B) It is a top view of a leaf valve similarly. (C) It is a top view of the piston concerning this invention.
【図3】本発明に係わる減衰力特性の一例である。FIG. 3 is an example of a damping force characteristic according to the present invention.
【図4】従来技術に係る油圧緩衝器の縦断面図である。FIG. 4 is a longitudinal sectional view of a hydraulic shock absorber according to the related art.
【図5】従来技術に係わるピストン上面図である。FIG. 5 is a top view of a piston according to the related art.
A 上部室 B 下部室 C 底部室 D タンク室 BV 圧側減衰弁 CV 逆止弁 PV 伸側減衰弁 3 リーフバルブ 15 バルブケース 21 シリンダ 101 ピストンロッド 105 ピストン 105D〜105G 上側開口窓 105d〜105g 外周ポート A upper chamber B lower chamber C bottom chamber D tank chamber BV compression side damping valve CV check valve PV extension side damping valve 3 leaf valve 15 valve case 21 cylinder 101 piston rod 105 piston 105D to 105G upper opening window 105d to 105g outer peripheral port
Claims (3)
面積が順に小さくなる複数の上側開口窓を隔設したピス
トンを介して、シリンダ内を上部室と下部室とに区画す
るとともに、シリンダの下部に設けたバルブケースを介
して下部室とタンク室に連通する底部室とを区画し、ピ
ストンに配設した逆止弁と伸側減衰弁にとよりピストン
ロッドが下降する際の圧側背面減衰力とピストンロッド
が伸長する際の伸側減衰力を制御する一方、バルブケー
スに配設した圧側減衰弁によりピストンロッドが下降す
る際の圧側ベース減衰力を発生させ、当該圧側ベース減
衰力に上記圧側背面減衰力を付加して圧側減衰力を制御
する油圧緩衝器において、上記ピストンの各上側開口窓
にはリーフバルブからなる逆止弁を対向させ、当該逆止
弁を開口面積が最大の上側開口窓から最小の上側開口窓
に対応して付勢力が順に大きくなる複数の支持片を備え
たリーフスプリングで背面から付勢するとともに、各上
側開口窓はピストンに形成した外周ポートを介して下部
室に連通させ、ピストンロッドが下降する際に、開口面
積が大きく開弁圧力の小さい上側開口窓に対応する部分
から開口面積が小さく開弁圧力の大きい上側開口窓に対
応する部分にかけて、上記逆止弁をピストン速度の増大
につれて順々に開弁させ、下部室から上部室への通路抵
抗に基づく上記圧側背面減衰力を、ピストン速度の増大
につれて大きくなるように構成したことを特徴とする油
圧緩衝器のバルブ構造。A cylinder is divided into an upper chamber and a lower chamber via a piston having a plurality of upper opening windows which are fastened to a piston rod and whose opening area decreases in order on the upper surface side. The lower chamber and the bottom chamber communicating with the tank chamber are separated via the valve case provided in the piston, and the check-side back-side damping force when the piston rod descends by the check valve and the extension-side damping valve arranged on the piston While controlling the extension damping force when the piston rod extends, the compression damping valve arranged in the valve case generates a compression base damping force when the piston rod descends, and the compression base damping force is applied to the compression side damping force. In the hydraulic shock absorber that controls the compression-side damping force by adding the back-side damping force, a check valve including a leaf valve is opposed to each upper opening window of the piston, and the check valve has a maximum opening area. The upper opening window is urged from the back by a leaf spring having a plurality of support pieces whose urging force sequentially increases in correspondence with the smallest upper opening window from the upper opening window, and each upper opening window is connected to an outer peripheral port formed in a piston. When the piston rod descends, from the portion corresponding to the upper opening window having a large opening area and a small valve opening pressure to the portion corresponding to the upper opening window having a small opening area and a large valve opening pressure, The check valve is sequentially opened as the piston speed increases, and the compression-side back surface damping force based on the passage resistance from the lower chamber to the upper chamber is configured to increase as the piston speed increases. Hydraulic shock absorber valve structure.
端部の巾、又は各支持片の基端部から外端に至る軸線方
向の高さ、或いはその双方を変えることにより付勢力を
設定することを特徴とする請求項1に記載の油圧緩衝器
のバルブ構造。2. The leaf spring sets an urging force by changing a width of a base end of each support piece, or a height in an axial direction from a base end to an outer end of each support piece, or both. The valve structure of the hydraulic shock absorber according to claim 1, wherein
孔径を、開口面積が最大の上側開口窓から最小の上側開
口窓にかけて順に大きくすることを特徴とする請求項1
に記載の油圧緩衝器のバルブ構造。3. The opening diameter of each outer peripheral port corresponding to each upper opening window is gradually increased from the upper opening window having the largest opening area to the smallest upper opening window.
The valve structure of the hydraulic shock absorber according to the above.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2000394997A JP4443030B2 (en) | 2000-12-26 | 2000-12-26 | Hydraulic shock absorber valve structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2000394997A JP4443030B2 (en) | 2000-12-26 | 2000-12-26 | Hydraulic shock absorber valve structure |
Publications (2)
Publication Number | Publication Date |
---|---|
JP2002195335A true JP2002195335A (en) | 2002-07-10 |
JP4443030B2 JP4443030B2 (en) | 2010-03-31 |
Family
ID=18860533
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2000394997A Expired - Fee Related JP4443030B2 (en) | 2000-12-26 | 2000-12-26 | Hydraulic shock absorber valve structure |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP4443030B2 (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2007120726A (en) * | 2005-10-31 | 2007-05-17 | Hitachi Ltd | Hydraulic shock absorber |
JP2007315600A (en) * | 2006-05-24 | 2007-12-06 | Koni Bv | Check valve for shock absorber |
JP2014043950A (en) * | 2007-08-30 | 2014-03-13 | Tenneco Automotive Operating Co Inc | Shock absorber having full displacement valve assembly |
DE112008002335B4 (en) * | 2007-08-29 | 2016-02-04 | Tenneco Automotive Operating Company Inc. | Belleville spring intake |
JP6339716B1 (en) * | 2017-03-09 | 2018-06-06 | 株式会社ショーワ | Pressure shock absorber |
JP6339717B1 (en) * | 2017-03-09 | 2018-06-06 | 株式会社ショーワ | Pressure shock absorber |
-
2000
- 2000-12-26 JP JP2000394997A patent/JP4443030B2/en not_active Expired - Fee Related
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2007120726A (en) * | 2005-10-31 | 2007-05-17 | Hitachi Ltd | Hydraulic shock absorber |
JP2007315600A (en) * | 2006-05-24 | 2007-12-06 | Koni Bv | Check valve for shock absorber |
DE112008002335B4 (en) * | 2007-08-29 | 2016-02-04 | Tenneco Automotive Operating Company Inc. | Belleville spring intake |
JP2014043950A (en) * | 2007-08-30 | 2014-03-13 | Tenneco Automotive Operating Co Inc | Shock absorber having full displacement valve assembly |
DE112008002332B4 (en) | 2007-08-30 | 2022-01-13 | Tenneco Automotive Operating Company Inc. | Shock absorbers with fully relocatable valving |
JP6339716B1 (en) * | 2017-03-09 | 2018-06-06 | 株式会社ショーワ | Pressure shock absorber |
JP6339717B1 (en) * | 2017-03-09 | 2018-06-06 | 株式会社ショーワ | Pressure shock absorber |
WO2018163443A1 (en) * | 2017-03-09 | 2018-09-13 | 株式会社ショーワ | Pressure buffering device |
WO2018163444A1 (en) * | 2017-03-09 | 2018-09-13 | 株式会社ショーワ | Pressure buffering device |
US11199238B2 (en) | 2017-03-09 | 2021-12-14 | Showa Corporation | Hydraulic damping device |
US11231082B2 (en) | 2017-03-09 | 2022-01-25 | Hitachi Astemo, Ltd. | Hydraulic damping device |
Also Published As
Publication number | Publication date |
---|---|
JP4443030B2 (en) | 2010-03-31 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US7322449B2 (en) | Hydraulic shock absorber | |
JP4967091B2 (en) | Fluid pressure buffer | |
JP3973111B2 (en) | Variable damping force hydraulic shock absorber | |
US6182687B1 (en) | Pressure-dependent valve for a vibration damper | |
WO2014045965A1 (en) | Suspension device | |
JP4453000B2 (en) | Hydraulic shock absorber | |
JP4356016B2 (en) | Hydraulic shock absorber | |
JP2002195335A (en) | Valve structure of hydraulic shock absorber | |
US20060175166A1 (en) | Controllable piston valve and /or flat valve for a vibration damper | |
EP3333446B1 (en) | Valve structure for buffer | |
JP2006283924A (en) | Hydraulic damper for vehicle | |
JP4564675B2 (en) | Hydraulic shock absorber valve structure | |
JP2001059539A (en) | Damping force generating structure of hydraulic buffer | |
JP2002195336A (en) | Valve structure of hydraulic shock absorber | |
JPH0669476U (en) | Piston check valve structure of hydraulic shock absorber | |
JPH0379831A (en) | Hydraulic shock absorber | |
JP2001165224A (en) | Damping force generation structure for hydraulic shock absorber | |
JPH11344069A (en) | Damping force generating structure of hydraulic shock absorber | |
JP2000320599A (en) | Damping force generation structure of hydraulic damper | |
JPH11287282A (en) | Damping force generating structure of hydraulic shock absorber | |
JP2594411Y2 (en) | Pressure side damping force generating valve structure of hydraulic shock absorber | |
JP2002089607A (en) | Damping force generating structure for hydraulic shock absorber | |
JP2001241485A (en) | Position depending type hydraulic shock absorber | |
JP2002139090A (en) | Valve structure of hydraulic shock absorber | |
JP2002168280A (en) | Valve structure of hydraulic buffer |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
A621 | Written request for application examination |
Free format text: JAPANESE INTERMEDIATE CODE: A621 Effective date: 20070731 |
|
A977 | Report on retrieval |
Free format text: JAPANESE INTERMEDIATE CODE: A971007 Effective date: 20090917 |
|
A131 | Notification of reasons for refusal |
Free format text: JAPANESE INTERMEDIATE CODE: A131 Effective date: 20090929 |
|
A521 | Written amendment |
Free format text: JAPANESE INTERMEDIATE CODE: A523 Effective date: 20091117 |
|
TRDD | Decision of grant or rejection written | ||
A01 | Written decision to grant a patent or to grant a registration (utility model) |
Free format text: JAPANESE INTERMEDIATE CODE: A01 Effective date: 20091215 |
|
A01 | Written decision to grant a patent or to grant a registration (utility model) |
Free format text: JAPANESE INTERMEDIATE CODE: A01 |
|
A61 | First payment of annual fees (during grant procedure) |
Free format text: JAPANESE INTERMEDIATE CODE: A61 Effective date: 20100112 |
|
R151 | Written notification of patent or utility model registration |
Ref document number: 4443030 Country of ref document: JP Free format text: JAPANESE INTERMEDIATE CODE: R151 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20130122 Year of fee payment: 3 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20140122 Year of fee payment: 4 |
|
S533 | Written request for registration of change of name |
Free format text: JAPANESE INTERMEDIATE CODE: R313533 |
|
R350 | Written notification of registration of transfer |
Free format text: JAPANESE INTERMEDIATE CODE: R350 |
|
LAPS | Cancellation because of no payment of annual fees |