EP3181840A2 - Régulateur hydraulique de jeu - Google Patents

Régulateur hydraulique de jeu Download PDF

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Publication number
EP3181840A2
EP3181840A2 EP16204879.7A EP16204879A EP3181840A2 EP 3181840 A2 EP3181840 A2 EP 3181840A2 EP 16204879 A EP16204879 A EP 16204879A EP 3181840 A2 EP3181840 A2 EP 3181840A2
Authority
EP
European Patent Office
Prior art keywords
lash adjuster
hydraulic
hydraulic lash
air purge
hydraulic fluid
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
Application number
EP16204879.7A
Other languages
German (de)
English (en)
Other versions
EP3181840B1 (fr
EP3181840A3 (fr
Inventor
Alberto AIMASSO
Marco Aimo Boot
Luigi LIA
Yuriy MYSAK
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.)
Eaton Intelligent Power Ltd
Original Assignee
Eaton SRL
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 Eaton SRL filed Critical Eaton SRL
Publication of EP3181840A2 publication Critical patent/EP3181840A2/fr
Publication of EP3181840A3 publication Critical patent/EP3181840A3/fr
Application granted granted Critical
Publication of EP3181840B1 publication Critical patent/EP3181840B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01LCYCLICALLY OPERATING VALVES FOR MACHINES OR ENGINES
    • F01L1/00Valve-gear or valve arrangements, e.g. lift-valve gear
    • F01L1/20Adjusting or compensating clearance
    • F01L1/22Adjusting or compensating clearance automatically, e.g. mechanically
    • F01L1/24Adjusting or compensating clearance automatically, e.g. mechanically by fluid means, e.g. hydraulically
    • F01L1/2405Adjusting or compensating clearance automatically, e.g. mechanically by fluid means, e.g. hydraulically by means of a hydraulic adjusting device located between the cylinder head and rocker arm

Definitions

  • the present invention relates to lash adjustment, and more specifically to hydraulic lash adjustment in valve train assemblies.
  • a typical valve train assembly of an internal combustion engine comprises a hydraulic lash adjuster (HLA).
  • HLA hydraulic lash adjuster
  • a typical HLA comprises an oil-containing chamber defined between an outer body and a plunger assembly slidably mounted within the outer body.
  • the plunger assembly contacts, for example, a finger follower (rocker arm) of the valve train assembly.
  • the typical HLA comprises a spring arranged to enlarge the chamber by pushing the plunger assembly outwardly from the outer body to extend the HLA. Oil flows into the chamber via a one way valve, but can escape the chamber only slowly, for example, via closely spaced leak down surfaces.
  • a HLA can extend to accommodate any slack in a valve train assembly, such as between a cam and a roller of a valve train assembly, but after it is extended, the incompressible oil in the chamber provides rigid support for the finger follower (i.e. the incompressible oil prevents the plunger assembly being pushed back inwardly of the outer body so that the HLA acts as a solid body).
  • the HLA has a second chamber, defined by the plunger assembly, on the other side of the one way valve from the first chamber and which is in fluid communication with the engine's oil supply. Oil supplied from the engine's oil supply is retained within the second chamber and flows into the first chamber through the one way valve when the HLA extends.
  • Typical HLAs operate in a vertical or near vertical orientation, i.e. the axis of extension of the HLA is typically in a vertical direction, with the outer body sitting relatively below the plunger assembly.
  • HLAs that can work in other orientations, for example in near horizontal orientations, or even up-side-down with respect to the orientation of the typical HLAs described above.
  • FIGS 1a to 1c illustrate schematically side views of an exemplary hydraulic lash adjuster (HLA) 100 in different orientations with respect to a horizontal line (solid horizontal line in the figures) in which the exemplary HLA 100 may be used.
  • the horizontal line may be, for example, horizontal in the sense that it is perpendicular to the direction of gravity.
  • the HLA 100 comprises a ball body or body 102 towards a first end 100a of the HLA 100 and a shim 108 housed within the ball body 102 and that is towards an opposite, second end 100b of the HLA 100.
  • Figure 1a shows the HLA 100 in an orientation in which the principal axis of the HLA 100 (indicated by a dot-dashed line in the figures) is nearly parallel to the horizontal line (i.e. where the HLA 100 is orientated nearly horizontal).
  • the principal axis of the HLA 100 is rotated slightly with respect to the horizontal line such that the first end 100a of the HLA 100 is slightly lower than the second end 100b of the HLA 100.
  • Figure 1b shows the HLA 100 in an exemplary orientation in which the principal axis of the HLA 100 is perpendicular to the Horizontal line (i.e. where the HLA 100 is orientated vertically), with the first end 100a of the HLA 100 being below the second end 100b of the HLA 100.
  • Figure 1c shows the HLA 100 in two orientations intermediate to the orientations shown in Figure 1a and Figure 1b .
  • the HLA 100 may operate in a near horizontal orientation for example as shown in Figure 1a , the vertical orientation for example as shown in Figure 1b , or in any orientation intermediate to the near horizontal and vertical orientations, for example as shown in Figure 1c .
  • These orientations may be those required, for example, in a so called Boxer type engine, or a V type engine.
  • the orientation of the HLA 100 may change during operation of the engine.
  • the HLA 100 comprises a body 102, a leak down plunger (or “plunger") 114, a spring 121, a check ball valve 116, a shim 108, and a clip 110.
  • the body 102 comprises a partly spherical part (or "ball") 146 for engaging with a reciprocally shaped foot 148 of a finger follower (rocker arm) 104 of a valve train assembly (not shown in the figures).
  • rocker arms such as rocker arm 104
  • a valve stem (not shown) of a valve may be mechanically coupled to an end 104a of the rocker arm 104 opposite to the end 104b of the rocker arm 104 with which the HLA 100 is engaged.
  • a lobe (not shown) of the cam (not shown) engages with the roller 105
  • the rocker arm 104 is caused to pivot about the ball 146 of the HLA 100, thereby causing a valve event via the valve stem (not shown).
  • a valve spring causes the rocker arm 104 to pivot back about the ball 146 of the HLA 100, thereby ending the valve event.
  • a function of the HLA 100 is to take up any slack that may occur in the valve train assembly, and hence reduce mechanical lash in the valve train assembly, for example between the cam (not shown) and the roller 105.
  • the body 102 of the HLA 100 comprises a hollow bore 140 extending from an open end 102b of the body 102 towards an opposing closed end 102a of the body 102 (best seen in Figure 3 ).
  • the bore 140 of the body 102 is generally cylindrical and has received therein the plunger 114.
  • the plunger 114 is generally cylindrical in shape and is received in the bore 140 for reciprocal sliding movement with respect to the body 102.
  • the body 102 and the plunger 114 define between them a chamber 112, which performs the function of a so called "high pressure" chamber 112 as known per se in HLAs.
  • Side walls of the plunger 114 and the body 102 define closely spaced leak-down surfaces 117 that maintain a low leakage rate of oil out of the high pressure chamber 112.
  • the plunger 114 comprises an opening 115 used for HLA recharging controlled by a check ball valve 116 as is known per se in HLAs.
  • the bore 140 of the body 102 also has partly received therein the shim 108.
  • the shim 108 is located in the bore 140 behind the plunger 114.
  • the shim 108 defines a bore 108c extending from an open end 108a of the shim 108 towards the plunger 114 to a closed end 108b of the shim 108 away from the plunger 114.
  • the shim 108 and the plunger 114 define between them, in the shim bore 108c, a second chamber 118, which performs the function of a so called "low pressure" chamber 118 (reservoir) as known per se in HLAs.
  • the high pressure chamber 112 and the low pressure chamber 118 are separated by the check ball valve 116 as is known per se in HLAs.
  • the check ball valve 116 allows oil to flow from the low pressure chamber 118 to the high pressure chamber 112 via the opening 130, and hence for recharging of the high pressure chamber 112 with oil.
  • the HLA 100 comprises a spring 121 in the high pressure chamber 112, arranged to enlarge the high pressure chamber 112 by pushing the plunger 114 (and hence the shim 108) outwardly from the body 102 to extend the length of the HLA 100.
  • Oil flows into the high pressure chamber 112 from the low pressure chamber 118 via the check ball (one way) valve 116, but can escape the high pressure chamber 112 only slowly via the closely spaced leak down surfaces 117.
  • the HLA 100 can extend to accommodate any slack in the valve train assembly, such as between the cam (not shown) and the roller 105, but after it is extended, the incompressible oil in the high pressure chamber 112 provides rigid support for the rocker arm 104 (i.e. the incompressible oil prevents the plunger 114 being pushed back inwardly of the outer body 102 so that the HLA 100 acts as a solid body).
  • the HLA 100 is mounted in a retention socket (bore) 150 of an Engine Cylinder Head (ECH) 106 such that the ball 146 of the body 102 extends out and beyond the retention socket 150 of the ECH 106.
  • the closed end 108b of the shim 108 abuts against a closed end 150a of the retention socket 150 to provide support for the HLA 100.
  • the ECH 106 may be that of, for example, a Boxer engine, or a V engine.
  • the ECH 106 comprises an oil gallery (channel) 120 that supplies oil from the engine's oil supply (not shown in the figures) to the retention socket (bore) 150.
  • the ECH 106 comprises an air purge gallery (channel) 160 out of which air can be purged.
  • the bore 150 of the ECH 106 may be generally cylindrical and dimensioned for a tight fit of the body 102 of the HLA 100 therein.
  • the fit of the body 102 of the HLA 100 on insertion into the bore 150 of the ECH 106 may be such that portions of the outer surface of the body 102 contacting the surfaces of the ECH defining the bore 150 form a seal, such as an oil tight seal, there between. This allows for a simple and clean installation of the HLA 100 into the ECH 106.
  • the body 102 of the HLA 100 comprises a first oil flow path 137 for allowing oil from the oil gallery 120 of the ECH 106 to flow, via the HLA 100, to the rocker arm 104, for example to lubricate the foot 148 of the rocker arm 104 in which the ball 146 of the HLA is engaged.
  • a first part of the first oil flow path 137 is defined by an annular recess 126 in the outer diameter of the body 102.
  • the body 102 and the retention socket 150 define between them (i.e. in the recess 126) a channel into which oil provided by the oil channel 120 of the ECH 106 can flow.
  • a second part of the first oil flow path 137 comprises an oil gallery (conduit) 136 running through the body 102 from a first open end 136b at an outer surface of a side wall of the body 102 to a second open end 136a at the ball 146 at the first end 102a of the body 102.
  • an oil gallery (conduit) 136 running through the body 102 from a first open end 136b at an outer surface of a side wall of the body 102 to a second open end 136a at the ball 146 at the first end 102a of the body 102.
  • a third part of the first oil flow path 137 is defined by a portion 130 of the outer surface of a side wall of the body 102.
  • the portion 130 is substantially flat (best seen in Figure 5 ), and hence is recessed from the cylindrical shape of the bore 150 of the ECH 106.
  • the flat portion 130 extends from the annular recess 126 in the outer diameter of the body 102 to the first open end 136b of the conduit 136 of the body 102.
  • the outer body 102 and the retention socket 150 define between them (i.e. in the flat portion 130) a channel 130a into which oil provided by the oil channel 120 of the ECH 106 (via the annular recess 126) can flow.
  • the body 102 being directly mounted in the retention socket 150 and being slid into the retention socket 150 along its axis enables sealing of the first oil flow path 137.
  • Oil may thereby flow from the engine's oil supply, through the oil channel 120 of the ECH 106, through the annular recess 126 defined in the body 102, through the channel 130a defined between the flat portion 130 of the body 102 of the HLA 100 and the ECH 106, into the conduit 136 defined in the body 102 of the HLA 100, and out of the ball 148 at the first end 102a of the body 102. Oil flowing out of the ball 148 then lubricates the rocker arm 104 with which it is engaged, and hence other components of the valve train, such as the cam (not shown).
  • valve train can be lubricated via the HLA 100, which reduces the need to lubricate the valve train by separate means. Moreover the valve train can be lubricated via the first oil flow path 137 even when the HLA 100 is orientated near horizontally (as per Figure 1a ), "up-side-down" (as per Figure 1b ) or any orientation in between (e.g. as per Figure 1c ).
  • the HLA 100 defines a second oil flow path 122 for allowing oil from the oil supply 120 of the engine cylinder head 106 to flow to the low pressure chamber 118 of the HLA 100.
  • a first part of the second oil flow path 122 comprises an annular recess 126 in the outer diameter of the body 102 of the HLA 100.
  • the body 102 and the retention socket 150 define between them (i.e. in the recess 126) a channel into which oil provided by the oil channel 120 of the ECH 106 can flow.
  • a second part of the second oil flow path comprises a hole (aperture) 122 in the body 102 extending from the recess 126 of the body 102 into the bore 140 of the body 102. Oil may therefore flow from the recess 114 into the bore 140 of the body 102.
  • the shim 108 comprises two annular protrusions 128a, 128b in its outer diameter which form an annular channel 128 there between (best seen in Figure 6 ).
  • a third part of the second oil flow path 122 comprises a hole 124 defined by the shim 108, located between the annular protrusions 128a, 128b, extending from the outer diameter of the shim 108 to the inner chamber 118 of the shim 108.
  • Oil may therefore flow, in the second oil flow path 102, from the engine's oil supply, via the channel 120 of the ECH, via the hole 122 in the body, via the hole 124 in the shim 108, and into the "low pressure" chamber 118 formed between the shim 108 and the plunger 114.
  • the "low pressure" chamber 118 may therefore be kept topped up (fed) with oil.
  • the second oil flow path 122 is in fluidic communication with the first oil flow path 137 (the first oil flow path 137 and the second oil flow path both comprise the recess 126 in the body 102 of the HLA 100), and hence the second oil flow path 102 and the first oil flow path 137 are both fed by the same oil supply channel 120 in the ECH 106.
  • the first oil flow path 137 and the second oil flow path both comprise the recess 126 in the body 102 of the HLA 100 hence the second oil flow path 102 and the first oil flow path 137 are both fed by the same oil supply channel 120 in the ECH 106.
  • only one channel 120 need be provided in the ECH 106 in order to both supply oil to top up the low pressure chamber 118 and to lubricate the rocker arm 104. This reduces the complexity of the oil supply.
  • the shim 108 is arranged to allow air to purge from the low pressure chamber 118. This may be advantageous to ensure the oil reaching the high pressure chamber 112 is free from air.
  • the side wall of the shim 108 comprises small holes 144 on opposite sides of the shim 108 towards the closed end 108b of the shim 108 that extend from the outer diameter of the shim 108 to the low pressure chamber 118.
  • the holes 144 are small (e.g. ⁇ 1 mm) so as to allow air to purge from the low pressure chamber 118, whilst hindering oil from escaping there through, and not allowing the pressure in the low pressure chamber 118 to drop too low.
  • the HLA 100 may be provided as a single body, assembled as a single engine component.
  • the HLA comprises an annular clip 110 partially retained in a recess 138 in the inner diameter of the body 102 at the open end 102b of the body 102 (best seen in Figure 4 ).
  • the clip 110 extends partially into the bore 140 of the body 102.
  • the clip 110 abuts against the annular protrusion 128b of the shim 108, hence preventing the components of the HLA 100 received in the bore 140 of the body 102 from falling out of the bore 140, for example during installation of the HLA 100.
  • the clip 110 may be mounted either internally or externally.
  • the HLA 100 can be easily installed into the ECH retention socket 150.
  • Figure 7 illustrates schematically a cross section of an example of an alternative shim 208 for an HLA 100.
  • air purge from a bore 218 of the shim 208 is provided by air purge groves 244 in a side wall of the shim 208 at an open end 208a of the shim 208.
  • the diameter of the bore 218 decreases with decreasing distance from the closed end of the shim 208, that is the internal diameter of the bore 218 decreases (tapers) with increasing distance from the air purge groove 224. This helps the oil to sit within the low pressure chamber 118 such that air can be purged from (at least one) of the groves 224.
  • the increased diameter of the bore 218 in the vicinity of the air purge groove 224 provides a greater opportunity for (at least one of) the air purge grooves 224 to be above the level of the oil in the low pressure chamber 218, and hence for air to be readily purged.
  • the above described taper may also apply to the shim 108 with air purge holes 144.
  • the bore 118, 218 of the shim 108, 208 was described above as being cylindrical, this need not necessarily be the case, and other shapes may be used. It will therefore be appreciated that in these cases the internal diameter of the bore 118, 218 of the shim 108, 208 may taper from the one or more air purge holes 144 or air purge grooves 244.
  • the plunger 114 and the shim 108 were described as separate, this need not necessarily be the case, and in other examples the plunger 114 and the shim 108 may form a single piece, that is, integral to one another.
  • the plunger 114 and the shim 108 as a single piece may be formed, for example, using cold forming and roll forming.
  • air purge holes 114 or air purge groves 244 were described as being defined in a side wall of a shim 108, this need not necessarily be the case, and the air purge holes 114 or air purge grooves 224 may alternatively or additionally be in any side wall of the HLA 100 provided air is allowed to purge from a low pressure chamber 118 of the hydraulic lash adjuster 100.
  • the body 102 of the HLA 100 was for contacting and lubricating a finger follower (rocker arm) 104 of a valve train assembly, this need not necessarily be the case, and in other examples the HLA 100 may be for contacting and hence delivering oil to any valve train component of an internal combustion engine.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Valve-Gear Or Valve Arrangements (AREA)
EP16204879.7A 2015-12-17 2016-12-16 Régulateur hydraulique de jeu Active EP3181840B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
GBGB1522269.8A GB201522269D0 (en) 2015-12-17 2015-12-17 Hydraulic lash adjuster

Publications (3)

Publication Number Publication Date
EP3181840A2 true EP3181840A2 (fr) 2017-06-21
EP3181840A3 EP3181840A3 (fr) 2017-11-22
EP3181840B1 EP3181840B1 (fr) 2022-02-23

Family

ID=55311127

Family Applications (1)

Application Number Title Priority Date Filing Date
EP16204879.7A Active EP3181840B1 (fr) 2015-12-17 2016-12-16 Régulateur hydraulique de jeu

Country Status (2)

Country Link
EP (1) EP3181840B1 (fr)
GB (1) GB201522269D0 (fr)

Family Cites Families (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5888412A (ja) * 1981-11-20 1983-05-26 Honda Motor Co Ltd 頭上弁式動弁機構
US4607599A (en) * 1985-05-15 1986-08-26 Eaton Corporation Roller follower hydraulic tappet
US4633827A (en) * 1985-10-07 1987-01-06 Eaton Corporation Hydraulic lash adjuster with combined reservoir extension and metering system
US5129373A (en) * 1991-12-16 1992-07-14 General Motors Corporation Self-contained hydraulic lash adjuster with pressurizing diaphragm
DE19502497A1 (de) * 1995-01-27 1996-08-01 Schaeffler Waelzlager Kg Hydraulische Spielausgleichsvorrichtung
ATE435359T1 (de) * 2004-02-25 2009-07-15 Delphi Tech Inc Hydraulisches ventilspielausgleichselement
JP4178158B2 (ja) * 2005-10-04 2008-11-12 株式会社オティックス 内燃機関の休止機構付きラッシュアジャスタ
DE102008059192A1 (de) * 2007-12-21 2009-06-25 Schaeffler Kg Schaltbares hydraulisches Spielausgleichselement mit kugelförmigen Verriegelungsstiften
DE102008025036A1 (de) * 2008-05-24 2009-11-26 Schaeffler Kg Hydraulisches Abstützelement
DE102009037496A1 (de) * 2009-08-13 2011-02-17 Schaeffler Technologies Gmbh & Co. Kg Ventiltrieb einer Brennkraftmaschine
US9157340B2 (en) * 2013-03-25 2015-10-13 GT Technologies Dual feed hydraulic lash adjuster for valve actuating mechanism

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
None

Also Published As

Publication number Publication date
EP3181840B1 (fr) 2022-02-23
GB201522269D0 (en) 2016-02-03
EP3181840A3 (fr) 2017-11-22

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