[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JP3308413B2 - Vehicle electronically controlled suspension - Google Patents

Vehicle electronically controlled suspension

Info

Publication number
JP3308413B2
JP3308413B2 JP32833394A JP32833394A JP3308413B2 JP 3308413 B2 JP3308413 B2 JP 3308413B2 JP 32833394 A JP32833394 A JP 32833394A JP 32833394 A JP32833394 A JP 32833394A JP 3308413 B2 JP3308413 B2 JP 3308413B2
Authority
JP
Japan
Prior art keywords
vehicle
lateral acceleration
suspension
switching
roll
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
Application number
JP32833394A
Other languages
Japanese (ja)
Other versions
JPH08183318A (en
Inventor
修 磯邉
良昭 山田
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
UD Trucks Corp
Original Assignee
UD Trucks Corp
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by UD Trucks Corp filed Critical UD Trucks Corp
Priority to JP32833394A priority Critical patent/JP3308413B2/en
Publication of JPH08183318A publication Critical patent/JPH08183318A/en
Application granted granted Critical
Publication of JP3308413B2 publication Critical patent/JP3308413B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Landscapes

  • Vehicle Body Suspensions (AREA)

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】この発明は車両の電子制御サスペ
ンションに関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle electronic control suspension.

【0002】[0002]

【従来の技術】車両の乗心地と操安性を高いレベルで両
立させるため、エアスプリングのばね定数およびショッ
クアブソーバの減衰力を、通常はソフトの状態に保つ一
方で、旋回時など操安性が重視される走行状況でハード
に切り替えるようにした電子制御サスペンションが知ら
れている(三菱自動車・テクニカル レビュー・199
3 NO.5『大型バス用電子制御サスペンションの開発』
参照)。このいわゆるセミアクティブサスペンション制
御中に、エアスプリングおよびショックアブソーバをハ
ードに切り替えることで、車体のロール角を低減する技
術が見られる。
2. Description of the Related Art In order to achieve a high level of comfort and operability of a vehicle at the same time, the spring constant of an air spring and the damping force of a shock absorber are usually kept in a soft state, while the operability during turning is maintained. An electronically controlled suspension is known that switches to a hard drive in driving situations where emphasis is placed (Mitsubishi Motors Technical Review 199
3 NO.5 "Development of electronically controlled suspension for large buses"
reference). During this so-called semi-active suspension control, there is a technique for reducing the roll angle of the vehicle body by switching the air spring and the shock absorber to hardware.

【0003】ところで、前輪側と後輪側のロール剛性を
変えると、左右輪間の荷重移動が変化し、前輪側と後輪
側のグリップバランス(つまり、ステア特性)を変える
から、前輪側へのロール剛性配分を大きくするとアンダ
ステア傾向になり、後輪側へのロール剛性配分を大きく
するとオーバステア傾向になる。そこで、アクティブサ
スペンションにおいて、車両のヨー特性を向上させるた
め、車両の回頭性が要求される走行状況で後輪側の配分
を大きく、車両の収束性が要求される走行状況で前輪側
への配分を大きく制御するようにしたものが知られてい
る(MotorFan誌 89/12号『日産アクティ
ブサスペンションのステア特性制御』参照)。
By changing the roll stiffness between the front wheel and the rear wheel, the load movement between the left and right wheels changes, and the grip balance (ie, the steering characteristic) between the front wheel and the rear wheel changes. When the roll rigidity distribution is increased, the vehicle tends to understeer, and when the roll rigidity distribution to the rear wheel side is increased, the vehicle tends to oversteer. Therefore, in order to improve the yaw characteristics of the vehicle in the active suspension, the distribution to the rear wheels is increased in the driving situation where the turning performance of the vehicle is required, and the distribution to the front wheels is increased in the driving situation where the convergence of the vehicle is required Is known (refer to MotorFan magazine 89/12, "Steer characteristic control of Nissan active suspension").

【0004】[0004]

【発明が解決しようとする課題】ところが、前者の場合
(セミアクティブサスペンション)、ヨー特性の制御は
考慮されておらず、後者の場合(アクティブサスペンシ
ョン)、複雑な機構を要するため、システムが高価にな
るという不具合があった。
However, in the former case (semi-active suspension), the control of the yaw characteristic is not taken into consideration, and in the latter case (active suspension), a complicated mechanism is required, so that the system is expensive. There was a problem of becoming.

【0005】この発明はセミアクティブサスペンション
において、ロールの低減とヨー特性の向上を簡単な構成
により実現することを目的とする。
An object of the present invention is to realize a reduction in roll and an improvement in yaw characteristics with a simple configuration in a semi-active suspension.

【0006】[0006]

【課題を解決するための手段】この発明では、図6のよ
うに車両の前後各輪毎にサスペンション特性としてのば
ね定数と減衰力の少なくとも1つについて2段階以上の
切り替えを行うアクチュエータと、車両の横加速度を検
出する手段と、この検出信号に基づいて横加速度が所定
値を越えると前輪側を所定時間だけ遅らせて前後各輪の
サスペンション特性をハードに切り替える制御信号を出
力する手段と、同じく横加速度が所定値以下になると前
輪側を所定時間だけ遅らせて前後各輪のサスペンション
特性をソフトに切り替える制御信号を出力する手段と、
これら出力信号に応じてアクチュエータを駆動する手段
と、を備える。
According to the present invention, there is provided an actuator for switching at least two of at least one of a spring constant and a damping force as a suspension characteristic for each of front and rear wheels of a vehicle, as shown in FIG. Means for detecting the lateral acceleration of the vehicle and outputting a control signal for switching the suspension characteristics of the front and rear wheels to hardware by delaying the front wheel by a predetermined time when the lateral acceleration exceeds a predetermined value based on the detection signal. Means for outputting a control signal for switching the suspension characteristics of the front and rear wheels to software by delaying the front wheel side by a predetermined time when the lateral acceleration becomes equal to or less than a predetermined value,
Means for driving the actuator in accordance with these output signals.

【0007】[0007]

【作用】車両の旋回時や車線変更時などにおいて、横加
速度が所定値を越えると、初めは後輪側のサスペンショ
ン特性のみがハードに切り替わるため、前輪側に較べて
後輪側のロール剛性がアップするから、ヨー特性はオー
バステア傾向になり、車両の回頭性が向上する。この状
態で所定時間が経過すると、後輪側に遅れて前輪側のサ
スペンション特性もハードに切り替わるため、所定値を
越える横加速度に伴うロールを効率的に抑制できる。そ
の後は横加速度が所定値以下になると、前輪側が所定時
間だけ遅れてサスペンション特性がソフトに切り替わる
ため、今度はヨー特性がアンダステア傾向になり、車両
の収束性が向上する。
When the lateral acceleration exceeds a predetermined value, such as when the vehicle turns or changes lanes, initially only the suspension characteristics of the rear wheels are switched to hard, so the roll stiffness of the rear wheels is lower than that of the front wheels. As a result, the yaw characteristic tends to oversteer, and the turning performance of the vehicle is improved. When a predetermined time elapses in this state, the suspension characteristics of the front wheel are also switched to hardware with a delay to the rear wheel side, so that the roll accompanying the lateral acceleration exceeding the predetermined value can be efficiently suppressed. Thereafter, when the lateral acceleration becomes equal to or less than a predetermined value, the suspension characteristics are switched to software with a delay of a predetermined time on the front wheel side, so that the yaw characteristics tend to understeer, and the convergence of the vehicle is improved.

【0008】[0008]

【実施例】図1,図2において、20は車両のばね上系
としての車体、1a〜1dは車両の各ばね下系としての
タイヤ、これらにエアスプリング2a〜2fとショック
アブソーバ7a〜7fが介装される。ショックアブソー
バ7a〜7fは図示しないが、ピストンのオリフィスを
開閉することで、ハードとソフトの2段階に切り替わる
減衰力可変機構(アクチュエータを含む)を備える。
1 and 2, reference numeral 20 denotes a vehicle body as a sprung system of the vehicle, 1a to 1d denote tires as unsprung systems of the vehicle, and air springs 2a to 2f and shock absorbers 7a to 7f. Interposed. Although not shown, the shock absorbers 7a to 7f include a damping force variable mechanism (including an actuator) that switches between a hard and soft stage by opening and closing the orifice of the piston.

【0009】エアスプリング2a〜2fはそれぞれ所望
の車高を保つようにエアの給排気を制御するレベリング
バルブ4a〜4cを介してエアリザーバ3に接続され
る。後輪側はレベリングバルブ4cが1つのため、後部
左右のエアスプリング2c,2eと2d,2fが連通し
ているので、旋回時等にロール剛性を高める上から、各
々の配管に開閉弁8a,8bが設けられる。
The air springs 2a to 2f are connected to the air reservoir 3 via leveling valves 4a to 4c for controlling air supply and exhaust so as to maintain a desired vehicle height. Since there is one leveling valve 4c on the rear wheel side, the rear left and right air springs 2c, 2e and 2d, 2f are in communication with each other. 8b are provided.

【0010】各エアスプリング2a〜2fにそれぞれ切
換弁6a〜6fを介してサブタンク5a〜5dが接続さ
れ、弁6a〜6fの開閉を制御すると、実質的な空気容
積が変化するため、エアスプリング2a〜2fのばね定
数は2段階(ハードとソフト)に切り替わるようになっ
ている。図1は全体のシステム構成図、図2は車輪1つ
分のサスペンションを代表する前輪側の構成図である。
The sub-tanks 5a to 5d are connected to the air springs 2a to 2f via the switching valves 6a to 6f, respectively. When the opening and closing of the valves 6a to 6f are controlled, the substantial air volume changes. The spring constant of 22f is switched between two stages (hard and soft). 1 is an overall system configuration diagram, and FIG. 2 is a configuration diagram of a front wheel side representing a suspension for one wheel.

【0011】車両の走行状況に応じた各種制御を行うの
に必要な検出手段として、車両の走行速度を検出する車
速センサ17と、車体の横加速度を検出する横加速度セ
ンサ14と、車体の上下加速度を検出する上下加速度セ
ンサ15と、ハンドルの操舵角を検出する操舵角センサ
11と、車両の制動状態を検出するフットブレーキスイ
ッチ12およびバックランプスイッチ16とサイドブレ
ーキスイッチ13と、手動制御と自動制御を選択するた
めのモード切り替えスイッチ10が設けられる。
A vehicle speed sensor 17 for detecting the running speed of the vehicle, a lateral acceleration sensor 14 for detecting the lateral acceleration of the vehicle body, and a vertical A vertical acceleration sensor 15 for detecting acceleration, a steering angle sensor 11 for detecting a steering angle of a steering wheel, a foot brake switch 12 for detecting a braking state of a vehicle, a back lamp switch 16 and a side brake switch 13, manual control and automatic control A mode changeover switch 10 for selecting control is provided.

【0012】これらセンサやスイッチからの入力信号に
基づいて、車体のロールやブレーキダイブおよびピッチ
ング・バウンジングなどを制御するのがコントローラ9
で、そのロール制御を行う機能的なブロック構成を表す
と、図3のように横加速度センサ14と車速センサ17
の検出信号を入力処理する手段30,31と、これらの
処理信号(横加速度と車速)からロール制御の要否を判
定する手段32と、ロール制御の駆動パターンを経過時
間に応じて決定する手段33と、これら結果からエアス
プリング2a〜2dの切換弁6a〜6fとショックアブ
ソーバ7a〜7fの減衰力可変機構に駆動信号を出力す
る手段34,35を備える。
A controller 9 controls rolls, brake dives, pitching and bouncing of the vehicle body based on input signals from these sensors and switches.
A functional block configuration for performing the roll control is represented by a lateral acceleration sensor 14 and a vehicle speed sensor 17 as shown in FIG.
Means 31 and 31 for input processing of the detection signals, means 32 for determining the necessity of roll control from these processed signals (lateral acceleration and vehicle speed), and means for determining the drive pattern of roll control according to the elapsed time 33 and means 34 and 35 for outputting drive signals to the switching valves 6a to 6f of the air springs 2a to 2d and the damping force variable mechanism of the shock absorbers 7a to 7f based on the results.

【0013】図4は自動モードのロール制御を説明する
フローチャートで、所定の制御周期で繰り返し実行され
る。まず、初期化後に横加速度センサの検出信号Gyと
車速センサの検出信号Vを読み取る(ステップ1,ステ
ップ2)。車速信号Vがゼロの場合(停車状態)、全エ
アスプリング2a〜2fの切換弁6a,6bを『開』、
全ショックアブソーバ7a〜7fの減衰力可変機構を
『ソフト』の状態に切り替える(ステップ3→ステップ
21〜ステップ22)。
FIG. 4 is a flowchart for explaining the roll control in the automatic mode, which is repeatedly executed at a predetermined control cycle. First, after initialization, the detection signal Gy of the lateral acceleration sensor and the detection signal V of the vehicle speed sensor are read (steps 1 and 2). When the vehicle speed signal V is zero (stop state), the switching valves 6a and 6b of all the air springs 2a to 2f are "opened",
The variable damping force mechanisms of all the shock absorbers 7a to 7f are switched to the "soft" state (step 3 → step 21 to step 22).

【0014】車速信号がゼロでない場合、図5のような
データマップからそのときの車速信号Vに応じた横加速
度の閾値Gtを読み取る(ステップ4)。この閾値Gt
と横加速度信号Gyの絶対値を比較し、|Gy|>Gt
のときにロール制御の必要を判定し、その時点からタイ
マをオンすると共に、フラグを1にセットする(ステッ
プ5,ステップ6)。
If the vehicle speed signal is not zero, a lateral acceleration threshold Gt corresponding to the vehicle speed signal V at that time is read from a data map as shown in FIG. 5 (step 4). This threshold Gt
And the absolute value of the lateral acceleration signal Gy, | Gy |> Gt
Then, the necessity of roll control is determined at the time, and the timer is turned on from that point, and the flag is set to 1 (steps 5 and 6).

【0015】そして、タイマが所定時間T1の経過をカ
ウントするまでは、前輪側エアスプリング2a,2bの
切換弁6a,6bを『開』、後輪側エアスプリング2c
〜2fの切換弁6c〜6fを『閉』、前輪側ショックア
ブソーバ7a,7bの減衰力可変機構を『ソフト』、後
輪側ショックアブソーバ7c〜7fの減衰力可変機構を
『ハード』に切り替える(ステップ7〜ステップ1
1)。
[0015] Then, until the timer counts the passage of a predetermined time T 1, the front-wheel-side air springs 2a, selector valve 6a in 2b, and 6b "open", the rear-wheel-side air springs 2c
22f are switched to “closed”, the damping force variable mechanism of the front wheel shock absorbers 7a and 7b is switched to “soft”, and the damping force variable mechanism of the rear wheel shock absorbers 7c to 7f is switched to “hard” ( Step 7 to Step 1
1).

【0016】タイマが所定時間T1の経過をカウントす
ると、全エアスプリング2a〜2fの切換弁6a〜6f
を『閉』、全ショックアブソーバ7a〜7fの減衰力可
変機構を『ハード』に切り替える(ステップ12,ステ
ップ13)。
[0016] When the timer counts a predetermined time elapses T 1, switching valve of the total air spring 2a to 2f 6 a to 6 f
Is closed, and the damping force variable mechanism of all the shock absorbers 7a to 7f is switched to "hard" (steps 12 and 13).

【0017】横加速度の絶対値|Gy|が閾値Gt以下
のときは、フラグの状態を確認する(ステップ5→ステ
ップ14)。フラグ=0の場合はロール制御の必要ない
通常時と判定し、全エアスプリング2a〜2fの切換弁
6a〜6fを『開』、全ショックアブソーバ7a〜7f
の減衰力可変機構を『ソフト』の状態に保つ(ステップ
14→ステップ21,ステップ22)。
If the absolute value of the lateral acceleration | Gy | is equal to or smaller than the threshold value Gt, the state of the flag is checked (step 5 → step 14). When the flag is 0, it is determined that the roll control is not necessary, and the switching valves 6a to 6f of all the air springs 2a to 2f are "opened", and all the shock absorbers 7a to 7f
Is maintained in the "soft" state (step 14 → step 21, step 22).

【0018】フラグ=0でない場合、タイマが所定時間
2の経過をカウントするまでは、前輪側エアスプリン
グ2a,2bの切換弁6a,6bを『閉』、後輪側エア
スプリング2c〜2fの切換弁6c〜6fを『開』、前
輪側ショックアブソーバ7a,7bの減衰力可変機構を
『ハード』、後輪側ショックアブソーバ7c〜7fの減
衰可変機構を『ソフト』の状態に切り替える(ステップ
15〜ステップ19)。 タイマが所定時間T2の経過
をカウントすると、タイマをオフすると共にフラグを0
にクリアする(ステップ15→ステップ20)。そし
て、全エアスプリング2a〜2fの切換弁6a〜6fを
『開』、全ショックアブソーバ7a〜7fの減衰力可変
機構を『ソフト』に切り替える(ステップ21,ステッ
プ22)。
[0018] If not flag = 0, the timer until counts a lapse of a predetermined period of time T 2, the front-wheel-side air springs 2a, selector valve 6a of 2b, 6b to "closed", the rear-wheel-side air springs 2c~2f The switching valves 6c to 6f are switched to the "open" state, the damping force variable mechanisms of the front wheel side shock absorbers 7a and 7b are switched to the "hard" state, and the variable damping mechanisms of the rear wheel side shock absorbers 7c to 7f are switched to the "soft" state (step 15). Step 19). When the timer counts the passage of a predetermined time T 2, the flag turns off the timer 0
(Step 15 → step 20). Then, the switching valves 6a to 6f of all the air springs 2a to 2f are "opened", and the damping force variable mechanisms of all the shock absorbers 7a to 7f are switched to "soft" (steps 21 and 22).

【0019】このような構成により、停車時を含む通常
時は、前後各輪のエアスプリング2a〜2fおよび全シ
ョックアブソーバ7a〜7fが『ソフト』な状態に保た
れるため、エアサスペンションに特有の良好な乗心地が
得られる。
With such a configuration, the air springs 2a to 2f and all the shock absorbers 7a to 7f of the front and rear wheels are kept in a "soft" state at normal times including when the vehicle is stopped. Good riding comfort is obtained.

【0020】旋回や車線変更などにおいては、横加速度
の絶対値|Gy|が閾値Gtを越えると、初めは後輪側
のサスペンション特性のみがハードに切り替わるため、
前輪側に較べて後輪側のロール剛性がアップするので、
ヨー特性はオーバステア傾向になり、車両の回頭性が向
上する。
When turning or changing lanes, if the absolute value of the lateral acceleration | Gy | exceeds the threshold Gt, only the suspension characteristics on the rear wheel side are initially switched to hard.
As the roll rigidity on the rear wheel side is increased compared to the front wheel side,
The yaw characteristic tends to oversteer, and the turning performance of the vehicle is improved.

【0021】この状態は所定時間T1が経過するまで継
続するが、所定時間T1が経過すると、後輪側に遅れて
前輪側のサスペンション特性もハードに切り替わるた
め、所定値を越える横加速度に伴うロールを効率的に抑
制できる。
[0021] While continues until this condition is the predetermined time T 1 is elapsed the predetermined time T 1 is passed, because the suspension characteristic of the front wheel side behind the rear wheel side switched to hard, the lateral acceleration exceeds a predetermined value The accompanying roll can be suppressed efficiently.

【0022】その後は横加速度が所定値以下になると、
前輪側に先行して所定時間T2が経過するまで後輪側の
サスペンション特性のみがソフトに切り替わるため、今
度はヨー特性がアンダステア傾向になり、車両の収束性
(安定性)が向上する。
Thereafter, when the lateral acceleration falls below a predetermined value,
Since only suspension characteristic of the rear wheel until a predetermined time T 2 prior to the front wheel side has elapsed is switched to soft, turn yaw characteristics become understeer tendency, improved convergence of the vehicle (stability) is.

【0023】この場合、前後各輪のばね定数と減衰力を
経過時間に応じて制御するため、プログラムは単純なも
ので済む。また、アクティブサスペンションのように複
雑な機構を必要とせず、サスペンション特性の制御も確
実なオンーオフ式のため、ロールの低減とヨー特性の向
上を低コストで実現できる。なお、ロール制御のパラメ
ータとして横加速度の代わりに操舵角または操舵角速度
を用いても良い。
In this case, since the spring constant and the damping force of each of the front and rear wheels are controlled according to the elapsed time, a simple program is required. In addition, since an on-off system that does not require a complicated mechanism like an active suspension and controls suspension characteristics reliably can reduce the roll and improve the yaw characteristics at low cost. Note that a steering angle or a steering angular velocity may be used instead of the lateral acceleration as a parameter of the roll control.

【0024】[0024]

【発明の効果】この発明によれば、車両の前後各輪毎に
サスペンション特性としてのばね定数と減衰力の少なく
とも1つについて2段階以上の切り替えを行うアクチュ
エータと、車両の横加速度を検出する手段と、この検出
信号に基づいて横加速度が所定値を越えると前輪側を所
定時間だけ遅らせて前後各輪のサスペンション特性をハ
ードに切り替える制御信号を出力する手段と、同じく横
加速度が所定値以下になると前輪側を所定時間だけ遅ら
せて前後各輪のサスペンション特性をソフトに切り替え
る制御信号を出力する手段と、これら出力信号に応じて
アクチュエータを駆動する手段と、を備えたので、船体
時や車線変更時などにおいて、初期段階の回頭製と終了
段階の収束製を向上させながら、その間に継続する車輪
のロールを効果的に抑制できる。また、制御が簡単で、
複雑な機構も必要としないから、コストの面で有利とな
る。
According to the present invention, an actuator for switching at least two of at least one of a spring constant and a damping force as a suspension characteristic for each of front and rear wheels of a vehicle, and a means for detecting a lateral acceleration of the vehicle Means for outputting a control signal for switching the suspension characteristics of each of the front and rear wheels to hardware by delaying the front wheel by a predetermined time when the lateral acceleration exceeds a predetermined value based on the detection signal; In other words, the vehicle has a means for outputting a control signal for delaying the front wheel side by a predetermined time and switching the suspension characteristics of the front and rear wheels to soft, and a means for driving the actuator according to these output signals. In some cases, such as at the beginning, the turning process of the initial stage and the convergence process of the finishing stage are improved, and the roll of the wheel continued during the It can be suppressed. Also easy to control,
Since no complicated mechanism is required, it is advantageous in terms of cost.

【図面の簡単な説明】[Brief description of the drawings]

【図1】この発明の実施例を示すシステム全体の構成図
である。
FIG. 1 is a configuration diagram of an entire system showing an embodiment of the present invention.

【図2】車輪1つ分のサスペンションを表す構成図であ
る。
FIG. 2 is a configuration diagram illustrating a suspension for one wheel.

【図3】ロール制御系のブロック図である。FIG. 3 is a block diagram of a roll control system.

【図4】ロール制御を説明するフローチャートである。FIG. 4 is a flowchart illustrating roll control.

【図5】ロール制御に使用する横加速度の閾値マップで
ある。
FIG. 5 is a lateral acceleration threshold map used for roll control.

【図6】この発明のクレーム対応図である。FIG. 6 is a diagram corresponding to claims of the present invention.

【符号の説明】[Explanation of symbols]

1a〜1d タイヤ 2a〜2f エアスプリング 4a〜4c レベリングバルブ 5a〜5d サブタンク 6a〜6f 切換弁 7a〜7f ショックアブソーバ 9 コントロールユニット 14 横加速度センサ 17 車速センサ 1a-1d Tire 2a-2f Air spring 4a-4c Leveling valve 5a-5d Sub-tank 6a-6f Switching valve 7a-7f Shock absorber 9 Control unit 14 Lateral acceleration sensor 17 Vehicle speed sensor

フロントページの続き (58)調査した分野(Int.Cl.7,DB名) B60G 17/015 Continuation of front page (58) Field surveyed (Int.Cl. 7 , DB name) B60G 17/015

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】車両の前後各輪毎にサスペンション特性と
してのばね定数と減衰力の少なくとも1つについて2段
階以上の切り替えを行うアクチュエータと、車両の横加
速度を検出する手段と、この検出信号に基づいて横加速
度が所定値を越えると前輪側を所定時間だけ遅らせて
後各輪のサスペンション特性をハードに切り替える制御
信号を出力する手段と、同じく横加速度が所定値以下に
なると前輪側を所定時間だけ遅らせて前後各輪のサスペ
ンション特性をソフトに切り替える制御信号を出力する
手段と、これら出力信号に応じてアクチュエータを駆動
する手段と、を備えたことを特徴とする車両のサスペン
ション装置。
An actuator for switching at least one of a spring constant and a damping force as a suspension characteristic for each of front and rear wheels of a vehicle in two or more stages, means for detecting a lateral acceleration of the vehicle, before the lateral acceleration is delayed by a predetermined time front wheel exceeds a predetermined value based
A means for outputting a control signal for switching the suspension characteristics of each rear wheel to hardware, and similarly, when the lateral acceleration becomes a predetermined value or less, the front wheels are delayed by a predetermined time to switch the suspension characteristics of the front and rear wheels to soft. A suspension device for a vehicle, comprising: means for outputting a control signal; and means for driving an actuator according to the output signal.
JP32833394A 1994-12-28 1994-12-28 Vehicle electronically controlled suspension Expired - Lifetime JP3308413B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP32833394A JP3308413B2 (en) 1994-12-28 1994-12-28 Vehicle electronically controlled suspension

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP32833394A JP3308413B2 (en) 1994-12-28 1994-12-28 Vehicle electronically controlled suspension

Publications (2)

Publication Number Publication Date
JPH08183318A JPH08183318A (en) 1996-07-16
JP3308413B2 true JP3308413B2 (en) 2002-07-29

Family

ID=18209068

Family Applications (1)

Application Number Title Priority Date Filing Date
JP32833394A Expired - Lifetime JP3308413B2 (en) 1994-12-28 1994-12-28 Vehicle electronically controlled suspension

Country Status (1)

Country Link
JP (1) JP3308413B2 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE60331390D1 (en) * 2002-08-20 2010-04-08 Mando Corp Suspension device for limiting roll or yaw for vehicles
JP2011105028A (en) * 2009-11-12 2011-06-02 Equos Research Co Ltd Camber control device

Also Published As

Publication number Publication date
JPH08183318A (en) 1996-07-16

Similar Documents

Publication Publication Date Title
US4669749A (en) Vehicle suspension apparatus
KR19980031243A (en) Semi-active Electronic Control Suspension and Method of Vehicle
JPH1191623A (en) Cab suspension controller
US5555173A (en) Damping factor switching in vehicle shock absorbers
US20040039506A1 (en) Electronically controlled suspension apparatus for use in anti-squat control
JP3308413B2 (en) Vehicle electronically controlled suspension
JP2908089B2 (en) Anti-dive control method for rear-end collision prevention system
JP3366474B2 (en) Vehicle electronically controlled suspension
JP3270646B2 (en) Vehicle electronically controlled suspension
JP2002331816A (en) Suspension characteristic control device for vehicle
JP2906216B2 (en) Air suspension system for vehicles
JP3010408B2 (en) Control device for electronically controlled air suspension vehicle
JP3270647B2 (en) Vehicle suspension device
JP2566128Y2 (en) Vehicle suspension
JPS6240204B2 (en)
JP3010409B2 (en) Control device for electronically controlled air suspension vehicle
JP2906210B2 (en) Vehicle suspension device
JP3494732B2 (en) Vehicle suspension device
JP2901173B2 (en) Vehicle suspension device
JP2946391B2 (en) Air suspension system for vehicles
JP2903366B2 (en) Air suspension system for vehicles
JP2903365B2 (en) Control device for electronically controlled air suspension vehicle
JPH08238917A (en) Vehicle suspension controller
JP2940656B2 (en) Vehicle suspension device
JP2522844B2 (en) Vehicle drive controller

Legal Events

Date Code Title Description
R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20080517

Year of fee payment: 6

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20110517

Year of fee payment: 9

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20110517

Year of fee payment: 9

S533 Written request for registration of change of name

Free format text: JAPANESE INTERMEDIATE CODE: R313533

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20110517

Year of fee payment: 9

R350 Written notification of registration of transfer

Free format text: JAPANESE INTERMEDIATE CODE: R350

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20110517

Year of fee payment: 9

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20140517

Year of fee payment: 12

EXPY Cancellation because of completion of term