JPS6024912Y2 - Hydraulic drive system for engine accessories - Google Patents
Hydraulic drive system for engine accessoriesInfo
- Publication number
- JPS6024912Y2 JPS6024912Y2 JP15525680U JP15525680U JPS6024912Y2 JP S6024912 Y2 JPS6024912 Y2 JP S6024912Y2 JP 15525680 U JP15525680 U JP 15525680U JP 15525680 U JP15525680 U JP 15525680U JP S6024912 Y2 JPS6024912 Y2 JP S6024912Y2
- Authority
- JP
- Japan
- Prior art keywords
- oil
- valve
- pressure
- gear
- engine
- 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
Links
Description
【考案の詳細な説明】
本案はエンジンの補機類の油圧駆動装置に関するもので
ある。[Detailed Description of the Invention] The present invention relates to a hydraulic drive device for engine accessories.
従来のエンジンにおいては、その一部の補機部品例えば
クーリングファンや油圧タイマ等を潤滑油の圧力により
駆動したり、制御するものであったが、この種のエンジ
ンでは、第1図にすように、オイルはオイルパン1より
オイルストレーナ2、オイルポンプ3、オイルクーラ4
、オイルフィルタ5を経てシリンダボデー内に形成され
たオイルギヤラリ6に導入され、エンジンの各摺動部や
回転部例えばクランクベアリングC,B、コンロッドベ
アリングR,B、カムシャフトベアリングSB1ヘッド
パルフ機構H0v1ニアコンプレッサAC1タイミング
ギアT、G、インジェクションポンプI、P、パーシャ
ルフィルタP、F、ピストン冷却オイルジェットP、C
等に潤滑、冷却等のために供給されると共に、油圧駆動
方式の補機部品7に駆動用として供給される。In conventional engines, some of the auxiliary parts, such as cooling fans and hydraulic timers, were driven and controlled by the pressure of lubricating oil. , oil is transferred from oil pan 1 to oil strainer 2, oil pump 3, and oil cooler 4.
, the oil is introduced into the oil gear rally 6 formed in the cylinder body through the oil filter 5, and is introduced into each sliding and rotating part of the engine, such as crank bearings C and B, connecting rod bearings R and B, camshaft bearing SB1, head pulse mechanism H0v1, near compressor AC1 timing gear T, G, injection pump I, P, partial filter P, F, piston cooling oil jet P, C
etc. for lubrication, cooling, etc., and is also supplied to hydraulically driven auxiliary parts 7 for driving purposes.
また、8はオイルポンプ3のリリーフバルブで、通常は
8〜10kg/cm程度の開弁圧を有しており、油圧が
その開弁圧以上に上昇した場合にバルブを開いてオイル
パン1にオイルを戻し、油圧を調整するものである。Further, 8 is a relief valve of the oil pump 3, which normally has an opening pressure of about 8 to 10 kg/cm, and when the oil pressure rises above the opening pressure, the valve is opened and the oil pan 1 is This is to return the oil and adjust the hydraulic pressure.
9はオイルクーラ4のバイパスバルブで、通常は1〜2
kg1aA程度の開弁圧を有しており、クーラ内の流通
抵抗による油圧上昇が開弁圧よりも大きくなった場合に
バルブを開いてオイルをバイパスさせ、オイルクーラ4
の破損を防止するようになっている。9 is the bypass valve of oil cooler 4, usually 1 to 2
It has a valve opening pressure of about kg1aA, and when the oil pressure rise due to the flow resistance inside the cooler becomes larger than the valve opening pressure, the valve is opened to bypass the oil, and the oil cooler 4
It is designed to prevent damage to the
10はオイルギヤラリ6側のオイルリリーフバルブで、
通常4〜5ko/c4程度の開弁圧を有しており、オイ
ルギヤラリ内の油圧が異常上昇した場合にバルブを開い
てオイルをオイルパン1に戻し油圧を調整するものであ
る。10 is the oil relief valve on the oil gear rally 6 side,
It normally has a valve opening pressure of about 4 to 5 ko/c4, and when the oil pressure in the oil gear gallery increases abnormally, the valve is opened to return oil to the oil pan 1 and adjust the oil pressure.
このように、油圧駆動による補機部品7に潤滑油経路と
してのオイルギヤラリ6よりオイルを供給するようにし
た形式のものでは、前記摺動部や回転部へのオイルの供
給量が大きいためエンジンの低回転時には駆動に必要な
油圧を確保できないという不具合があった。In this type of system in which oil is supplied to the hydraulically driven auxiliary parts 7 from the oil gear gallery 6 as a lubricating oil path, the amount of oil supplied to the sliding parts and rotating parts is large, so the engine There was a problem that the oil pressure necessary for driving could not be secured at low rotation speeds.
また、これを改良する手段としてオイルポンプ3を大型
化したり、補機部品の駆動部を構成する油圧シリンダや
油圧モータ等のアクチュエータを大型化したりすること
が考えられるが、これでは装置の大型化、重量の増大、
損失馬力の増加、コストアップ等の問題を惹き起す恐れ
がある。In addition, as a means to improve this, it is possible to increase the size of the oil pump 3 or to increase the size of actuators such as hydraulic cylinders and hydraulic motors that constitute the drive parts of auxiliary parts, but this would increase the size of the device. , increase in weight,
This may cause problems such as increased horsepower loss and increased costs.
更に、オイルポンプ3の直後より分岐して駆動油圧を供
給することも考えられるが、この場合はオイルクーラ4
、オイルフィルタ5を通過させないので、油温か極めて
高温となり、特に高温低回転時には油圧が低下すると共
にその圧力変動も大きくなり、駆動力の変動を著しくす
る恐れがある。Furthermore, it is also possible to branch off and supply drive hydraulic pressure immediately after the oil pump 3, but in this case, the oil cooler 4
Since the oil is not allowed to pass through the oil filter 5, the oil temperature becomes extremely high, and especially at high temperatures and low rotations, the oil pressure decreases and its pressure fluctuations become large, which may result in significant fluctuations in driving force.
また、オイルの清浄度も確保出来ないので、駆動部に損
傷を与えたり、パイプの目詰りを起したりする恐れもあ
る。Furthermore, since the cleanliness of the oil cannot be ensured, there is a risk of damaging the drive unit or clogging the pipes.
本案は上述の点に鑑み案出したもので、オイルの温度の
上昇による油圧変動を防止腰且つその清浄度も保持しつ
)、エンジンの低回転時に必要な油圧を確保するように
した補機類の油圧駆動装置を提供せんとするもので、こ
の要旨は1少なくともオイルポンプよりオイルクーラ及
びオイルフィルタを経てオイルギヤラリにオイルを圧送
するようにした潤滑油経路を有するエンジンにおいて、
上記オイルギヤラリの直前にオイルポンプのリリーフバ
ルブの開弁圧よりも小さい圧力で開く加圧バルブを配設
すると共に、その加圧バルブの前方より油圧駆動の補機
類の駆動部にオイルを供給するようにしたことヨにあり
、以下その1実施例を第2図、第3図について説明する
。This project was devised in view of the above points, and is designed to prevent oil pressure fluctuations caused by increases in oil temperature, maintain its cleanliness, and secure the necessary oil pressure at low engine speeds. The purpose of the present invention is to provide a hydraulic drive device of the same type, and the gist of this article is to provide an engine having at least a lubricating oil path for pumping oil from an oil pump through an oil cooler and an oil filter to an oil gear gallery,
A pressurization valve that opens at a pressure lower than the opening pressure of the oil pump relief valve is installed immediately before the oil gear rally, and oil is supplied from the front of the pressurization valve to the drive parts of hydraulically driven auxiliary equipment. One embodiment of this will be described below with reference to FIGS. 2 and 3.
尚、第1図の従来装置と同一部品については同一符号を
付けるものとする。Note that parts that are the same as those of the conventional device shown in FIG. 1 are given the same reference numerals.
第2図は本案の実施例におけるエンジンのオイル循環系
統を示すもので、オイルはオイルパン1よりオイルスト
レーナ2を経てオイルポンプ3に入り、ポンプ3により
圧送されて、オイルクーラ4、オイルポンプフィルタ5
を経てオイルギヤラリ6に供給されるが、そのオイルフ
ィルタ5とオイルギヤラリ6との間に加圧弁20を配設
し、その加圧弁20の弁体前方に油圧駆動方式の補機部
品7の駆動部(図示せず)に連結する分岐路11を設け
るようにしたものである。Fig. 2 shows the oil circulation system of the engine in the embodiment of the present invention. Oil enters the oil pump 3 from the oil pan 1 via the oil strainer 2, is pumped by the pump 3, and is then transferred to the oil cooler 4 and the oil pump filter. 5
A pressurizing valve 20 is disposed between the oil filter 5 and the oil gear rally 6, and a hydraulically driven auxiliary equipment component 7 drive unit ( (not shown) is provided with a branch path 11 that connects to a branch (not shown).
llaは補機部品7からオイルパン1への戻し油路を示
している。lla indicates a return oil path from the auxiliary equipment part 7 to the oil pan 1.
上記加圧弁20は第3図に示すように、ケース21の内
部通路22の中間部には弁座となる段部23が形成され
、その段部23に対してカップ状の弁体24が開弁圧を
規定するばね25により付勢されるように戒っている。As shown in FIG. 3, the pressurizing valve 20 has a stepped portion 23 that serves as a valve seat formed in the middle of an internal passage 22 of a case 21, and a cup-shaped valve body 24 opens to the stepped portion 23. It is urged to be biased by a spring 25 that regulates the valve pressure.
ばね室26の開放端には内部に油路27を形成したプラ
グ28がねじ結合によって装着されている。A plug 28 having an oil passage 27 formed therein is attached to the open end of the spring chamber 26 by screw connection.
上記プラグの油路27はばね室26へ侵入したオイルを
オイルパイプ30を介してオイルパン1へ戻すものであ
る。The oil passage 27 of the plug returns oil that has entered the spring chamber 26 to the oil pan 1 via an oil pipe 30.
一方、内部通路22の他方の開放端には、オイルフィル
タ5よりの油路となるオイルパイプ31が連結されてい
る。On the other hand, an oil pipe 31 serving as an oil path from the oil filter 5 is connected to the other open end of the internal passage 22 .
また、内部通路22の段部23の前方側部には補機部品
7への分岐路11が連結され、且つ弁体24によって閉
じられた後方側部にはオイルギヤラリ6への油路となる
オイルパイプ32が連結されている。Further, a branch passage 11 to the auxiliary equipment component 7 is connected to the front side of the stepped portion 23 of the internal passage 22, and an oil passage serving as an oil passage to the oil gear rally 6 is connected to the rear side closed by the valve body 24. A pipe 32 is connected.
また、前記弁体24の開弁圧は補機部品7の駆動に要す
る必要最低油圧値と等しくなるようにばね25の強さに
よって設定されるが、その大きさはオイルの循環の関係
からオイルポンプのリリーフバルブ8の開弁圧(8〜1
0に9/alりやオイルギヤラリ6のリリーフバルブ1
0の開弁圧(4〜5に9/aft)よりも小さいことが
必要で、例えば1〜3kg/crPL程度であることが
望ましい。Further, the opening pressure of the valve element 24 is set by the strength of the spring 25 so as to be equal to the minimum oil pressure required to drive the auxiliary equipment part 7, but the magnitude is determined by the oil circulation. Opening pressure of pump relief valve 8 (8 to 1
0 to 9/aliya oil gear rally 6 relief valve 1
It is necessary that the opening pressure is smaller than the valve opening pressure of 0 (4 to 5 to 9/aft), and is preferably about 1 to 3 kg/crPL, for example.
上述のように構成された駆動装置及びオイル循環系統に
おいては、加圧弁20の弁体24は補機部品7の駆動に
要する必要最低油圧値と等しい開弁圧となるまでは閉じ
ている。In the drive device and oil circulation system configured as described above, the valve body 24 of the pressurizing valve 20 is closed until the opening pressure reaches a valve opening pressure equal to the minimum oil pressure required to drive the auxiliary component 7.
そして、上記油圧がオイルポンプ3の駆動によりばね2
5の力に打ち勝って弁体24を図で右方に押してオイル
ギヤラリ6側へのパイプ32側へ流れはじめると、内部
通路22の油圧は補機部品7を駆動するための必要最低
油圧に到達しているからそれが分岐路11を介して補機
部品7の駆動部に作用し、補機部品7を駆動し始める。Then, the oil pressure is applied to the spring 2 by driving the oil pump 3.
5 and pushes the valve body 24 to the right in the figure and begins to flow toward the pipe 32 side toward the oil gear gallery 6 side, the oil pressure in the internal passage 22 reaches the minimum oil pressure required to drive the auxiliary parts 7. Therefore, it acts on the drive part of the auxiliary part 7 through the branch path 11, and starts driving the auxiliary part 7.
従って、エンジンの低回転時においても、補機部品7の
駆動に必要な最低油圧は常に確保されることとなり、補
機部品7の駆動に支障が来すことがない。Therefore, even when the engine rotates at low speeds, the minimum oil pressure necessary for driving the auxiliary parts 7 is always ensured, and the driving of the auxiliary parts 7 is not hindered.
また、補機部品7へのオイルはオイルクーラ4及びオイ
ルフィルタ5を通過させた後に加圧バルブ20に導くよ
うに威したので、高温低回転時における油圧低下や油圧
変動が防止でき、比較的安定した補機部品7の駆動が行
ない得ると共に、オイルの清浄度も保持できるから、補
機部品7の駆動部の損傷等も防止され、耐久性、信頼性
のある駆動装置が提供できる利点がある。In addition, since the oil to the auxiliary parts 7 is guided to the pressurizing valve 20 after passing through the oil cooler 4 and the oil filter 5, it is possible to prevent oil pressure drop and oil pressure fluctuation at high temperatures and low rotations, and it is relatively Since the auxiliary parts 7 can be driven stably and the oil can be kept clean, damage to the drive part of the auxiliary parts 7 can be prevented, and a durable and reliable drive device can be provided. be.
尚、上記実施例では第3図に示す如き加圧バルブを使用
したが、その機能さえ満足するものであれば、上記加圧
バルブの構造に限定されないことは当然である。Incidentally, in the above embodiment, a pressurizing valve as shown in FIG. 3 was used, but it is natural that the structure of the pressurizing valve is not limited to the above as long as the function is satisfied.
また、上記実施例では、オイルクーラ4の次にオイルフ
ィルタ5を配設したが、その逆に配設するようにしても
良い。Further, in the above embodiment, the oil filter 5 is disposed next to the oil cooler 4, but the oil filter 5 may be disposed in the opposite manner.
【図面の簡単な説明】
第1図は従来例を示す概略系統図、第2図は本案の実施
例を示す概略系統図、第3図は同実施例における加圧バ
ルブの縦断面図である。
1ニオイルパン、3ニオイルポンプ、4ニオイルクーラ
、5ニオイルフイルタ、6:オイルギヤラリ、7:補機
部品、20:加圧バルブ、24:弁体。[Brief Description of the Drawings] Fig. 1 is a schematic system diagram showing a conventional example, Fig. 2 is a schematic system diagram showing an embodiment of the present invention, and Fig. 3 is a longitudinal sectional view of a pressurizing valve in the same embodiment. . 1. Oil pan, 3. Oil pump, 4. Oil cooler, 5. Oil filter, 6. Oil gear, 7. Auxiliary parts, 20. Pressure valve, 24. Valve body.
Claims (1)
ィルタを経てオイルギヤラリにオイルを圧送するように
した潤滑油経路を有するエンジンにおいて、上記オイル
ギヤラリの直前にオイルポンプのリリーフバルブの開弁
圧よりも小さい圧力で開く加圧バルブを配設すると共に
、その加圧バルブの前方より油圧駆動の補機類の駆動部
にオイルを供給するようにしたことを特徴とするエンジ
ンの補機類の油圧駆動装置。In an engine that has a lubricating oil path that pumps oil at least from the oil pump through an oil cooler and an oil filter to an oil gear gallery, pressurization opens at a pressure lower than the opening pressure of the relief valve of the oil pump immediately before the oil gear gallery. 1. A hydraulic drive device for engine auxiliary machinery, characterized in that a valve is provided and oil is supplied to a driving part of hydraulically driven auxiliary machinery from the front of the pressurizing valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP15525680U JPS6024912Y2 (en) | 1980-10-30 | 1980-10-30 | Hydraulic drive system for engine accessories |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP15525680U JPS6024912Y2 (en) | 1980-10-30 | 1980-10-30 | Hydraulic drive system for engine accessories |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS5776238U JPS5776238U (en) | 1982-05-11 |
JPS6024912Y2 true JPS6024912Y2 (en) | 1985-07-26 |
Family
ID=29514460
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP15525680U Expired JPS6024912Y2 (en) | 1980-10-30 | 1980-10-30 | Hydraulic drive system for engine accessories |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS6024912Y2 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0212253Y2 (en) * | 1985-02-20 | 1990-04-06 |
-
1980
- 1980-10-30 JP JP15525680U patent/JPS6024912Y2/en not_active Expired
Also Published As
Publication number | Publication date |
---|---|
JPS5776238U (en) | 1982-05-11 |
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