US2213195A - Valve actuating mechanism - Google Patents

Valve actuating mechanism Download PDF

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US2213195A
US2213195A US207747A US20774738A US2213195A US 2213195 A US2213195 A US 2213195A US 207747 A US207747 A US 207747A US 20774738 A US20774738 A US 20774738A US 2213195 A US2213195 A US 2213195A
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cylinder
liquid
piston
valve
chamber
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Oscar H Banker
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    • 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
    • F01L1/245Hydraulic tappets
    • F01L1/25Hydraulic tappets between cam and valve stem
    • F01L1/252Hydraulic tappets between cam and valve stem for side-valve engines

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  • the invention relates generally to a valve actuating mechanism for an internal combustion engine and more particularly to a valve lifter or silencer for eliminating clearance in the actuating mechanism.
  • the general object of the invention is to provide a selft-contained valve lifter of new and improved construction.
  • Another object is to provide a self-contained, hydraulic valve actuating device comprising two telescopically engaged members, one for engagement with the valve stem of a valve actuating mechanism and the other for engagement with the valve actuating cam, together with hydraulic means of novel construction for maintaining said members extended and in engagement with said valve stem and cam and for transmitting the force for opening the valve.
  • Another object is to provide a device of this character of a new and improved construction rendering the mechanism extremely quiet under all operating conditions, economical to manufacture, efiicient, durable, and easy to install either initially or as a replacement for noisy,
  • Fig. 1 is a view partly in section of a valve actuating mechanism for an internal combustion engine embodying features of the invention.
  • Fig. 2 is a fragmentary view partly in longi- 50 tudinal central section through the preferred form of the invention shown in Fig. 1..
  • Fig. 3 is a fragmentary plan view taken along line 33 of Fig. 2.
  • l0 represents the cylinder block of an internal combustion engine and H represents a valve having a valve head l2 controlling a port 10 opening into a cylinder of the engine.
  • the valve is mounted in the usual manner with its stem i3 projecting slidably through a sleeve bushing it secured in the cylinder block it.
  • the valve stem At the end. remote from the valve head, the valve stem carries a washer I5 between which and the cylinder block
  • a compression spring 15 is interposed to urge the valve toward seated position.
  • the valve is opened against the action of the spring 86 at proper intervals by means of a cam l'i formed on a camshaft 18 and acting through a valve lifter generally designated H9.
  • the valve lifter is guided for longitudinal reciprocatory movement in a bore 20 formed in a portion of the cylinder block it].
  • valve lifter or actuating device generally designated !9, this device being of a self-contained by embodying a liquid as a cushioning means.
  • the valve lifter comprises two telescopically engaged parts or members, one in the form of a cylinder 2
  • the cylinder 2! has a cylindrical exterior surface also so that this member can be slidably mountedin the bore 28 of the cylinder block.
  • the other member is in the form of a rod or plunger 22 which is maintained in contact with the valve stem.
  • the rod member 22 has a piston 22' formed on its lower 40 end which is slidable in the cylinder 2!
  • the check valve is so arranged as to permit rapid and substantially free flow of liquid from the reserve chamber through the passage, which includes an aperture 33 in the washer, to the head end chamber, the fit of the piston in the cylinder being such as to permit slow leakage of fluid past the piston from the head end chamber back to the reserve chamber.
  • an annular member or second piston 35 surrounds the rod 22 and has a rim 36 with a. sliding fit in the cylinder 2
  • This member is preferably formed of a material which is not affected by the liquid in the device (usually oil) and is backed by an annular metal collar 38 positioned against the upper surface thereof.
  • the sealing member is sufficiently resilient and flexible so that the pressure of the fluid may act against the inner surfaces of the hub 31 and rim 36 and press these parts into contact with the rod 22 and cylinder 2
  • the member 35, and the liquid as well, are selected to withstand the high temperatures encountered.
  • a commercial product called Neoprene, made from coal and having some of the characteristics of rubber, has been found satisfactory as a material for the member 35.
  • a very low viscosity oil or a liquid commonly known as brake fluid because of its use in hydraulic brakes may be used for the liquid.
  • the secondary piston thus formed is forced downwardly by means of a coiled spring 39 positioned intermediate the collar 38 andan apertured closure 40 for the open end of the cylinder.
  • the closure 40 is preferably retained against movement outwardly of the cylinder by means of a split wire ring 4
  • on the head 40 is beveled as shown so that the action of the spring 39 tending to move the closure outwardly causes the beveled surface 4
  • a split wire ring 43 is secured in an annular recess 44 of semi-circular cross-section in the rod 2
  • the head 40 is provided with an annular beveled or cam surface 4
  • a suitable liquid is placed in the cylinder and the piston 22' and annular member 35 are installed in a way which does not trap any air below the member 35.
  • the valve lifter is installed in an engine, as illustrated in Fig. 1, liquid under pressure in the reserve chamber is forced past the check valve and] into the head end chamber until the two parts of the device are extended sufiiciently to take up all clearance in the mechanism.
  • any leakage past the piston during the valve lifting strokes, or due to expansion of the liquid and parts with a rise in temperature, is immediately replaced in the head end chamber during the return strokes because of the pres sure maintained on the liquid in the reserve chamber.
  • this pressure need only be sufiiciently great so that the total pressure acting on the lower end of the piston is sufficient to overcome the pressure of atmosphere on the outer end of the piston rod.
  • a valve spring such as 6 (Fig. 1) is generally selected very carefully as to strength so as to insure proper operation of the valve.
  • a valve lifter such as I9
  • a spring were used in such a manner as to act directly between the cylinder 2
  • a relatively heavy spring 39 is utilized so as to obtain satisfactory operation and long life, and yetthe upward pressure exerted by the rod 22 on the valve stem, while the valve I2 is seated, is relatively light due to the arrangement of the parts.
  • the pressure of the spring 39 is exerted upon the liquid in the reserve reservoir through the annular member 35, and during the closing movement of the valve I2 the pressure in the head end chamber 23 is equal to the pressure in the reserve chamber 24. Since the liquid in the reserve chamber 24 acts to move the piston 22' downwardly and the liquid in the head end chamber 23 acts to move the piston upwardly, the resultant force tending to move the piston upwardly is equivalent to that exerted by the liquid acting on an area equal to the crosssectional area of the rod 22.
  • Therodarea may be so selected that the upward pressure on the rod is but a fraction of the total pressure exerted by the spring 39.
  • has a flat inner surface and the adjacent end of the piston 22' is also flat and of large area.
  • the head end of the piston is free from springs and other mechanisms, so that there are no fragile parts in the head end of the cylinder which would be crushed in the absence of liquid in the device.
  • Openings 45 are preferably provided in the closure '19 and drain openings 46 are provided in the sidewall of the cylinder 2
  • the invention provides an extremely compact device which is able to function continuously even though the liquid normally contained therein is absent. By maintaining the liquid in the reserve chamber under pressure, it is possible to utilize the liquid itself as a means for extending the parts.
  • a spring such as 39 is used for producing the pressure in the reserve chamber, a larger and stronger spring may be used than would be possible if the spring acted directly to extend the parts.
  • a valve actuating device comprising, in combination, a cylinder closed at the head end and having an apertured head at the other, a piston slidable in said cylinder and having a rod extending through said aperture, a flexible annular member between said rod and the wall of the cylinder and cooperating therewith to form a reserve chamber outside of the piston, said cylinder being completely filled with liquid between said fiexible member and the closed end of the cylinder, a check valve device permitting rapid flow of liquid from the reserve chamber to the head end ofthe cylinder, and resilient means acting against said flexible member to maintain the liquid in the reserve chamber under pressure sufiicient to move the piston outwardly in the cylinder.
  • a valve actuating device comprising, in combination, a cylinder closed at the head end and having an apertured head at the other, a piston slidable in said cylinder and having a rod extending through said aperture, an annular member between said rod and the wall of the cylinder and cooperating therewith to form a reserve chamber outside of the piston, said cylinder being completely filled with liquid between said annular member and the closed end of the cylinder, means permitting flow of liquid from the reserve chamber to the head end of the cylinder, and means carried on the cylinder and acting against said annular.member to maintain the liquid in the reserve chamber under pressure sufiicient to move the piston outwardly in the cylinder.
  • a valve actuating device comprising, in combination, a ,member forming a cylinder, a piston in said cylinder having a rod projecting from the open end thereof, a check valve device carried on said piston permitting liquid to flow freely from a reserve chamber on the outside of the piston to the head end of the cylinder and preventing reverse flow, an annular member mounted on said rod and forming one wall for the reserve chamber, an apertured closure for the open end of said cylinder through which the rod projects, and a. coiled spring intermediate said annular member and closure effective to depress the annular inember and maintain the liquid in the reserve chamber under pressure sufiicient to force liquid into the head end of the cylinder and move the piston outwardly in the cylinder.
  • a valve actuating device comprising, in combination, a member forming a cylinder, a piston in said cylinder having a rod projecting from the open end thereof, a check valve device carried on said piston permitting liquid to flow freely from a reserve chamber on the outside of the piston to the head end of the cylinder and preventing reverse flow, an annular member slidably mounted on said rod and forming one wall for the reserve chamber, and a spring efiective to press said annular member and maintain the liquid in the reserve chamber under pressure sufficient to force liquid into the head end of the cylinder and move the piston outwardly in the cylinder.
  • a valve operating mechanism in combination, two telescopically engaged members, hydraulic resisting means between said members cooperating therewith to permit the slow contraction and rapid extension of the same and including a first chamber filled with liquid, a second expansible chamber completely filled with liquid into which liquid from said first chamber leaks slowly and a check valve permitting rapid return of liquid from the second chamber to the first to extend said telescopic members, and means including a resilient device acting to contract said second chamber for exerting pressure on the liquid therein so as to force it past said check valve and into said first chamber and cause the extension of said members.
  • a valve operating mechanism in combination, two telescopically engaged members, hydraulic resisting means between said members cooperating therewith to permit the slow contraction and rapid extension of the same and including a first chamber filled with liquid, a second expansible chamber completely filled with liquid into which liquid from said first chamber leaks slowly and a check valve permitting rapid return of liquid from the second chamber to the first to extend said telescopic members, and means associating with said second chamber for exerting pressure on the liquid therein so as to force it past said check valve and into said first chamber and cause the extension of said members.
  • a valve operating mechanism in combination, two telescopically engaged members, hydraulic resisting means between said members cooperating therewith to permit the slow contraction and rapid extension of the same and including a first chamber filled with liquid, a second expansible chamber completely filled with liquid into which liquid from said first chamber leaks slowly and means permitting relatively rapid return of liquid from the second chamber to the first to extend said telescopic members, and means including a resilient device carried on one of said members for exerting pressure on the liquid in said second chamber so as toforce it past said check valve and into said first chamher and causethe extension of said members.
  • a valve actuating device comprising, in
  • a cylinder, a piston rod, a piston cylinder into two chambers completely filled with liquid, said piston permitting sloW leakage of liquid from the first chamber into the second, means permitting rapid return of liquid from the second chamber to the first to force the piston outwardly of the cylinder, and means carried on the cylinder for maintaining the liquid in said second chamber under pressure sufficient to force liquid into the first chamber and move the piston outwardly in the cylinder.
  • a valve actuating device comprising, in combination, a member forming a cylinder, a piston in said cylinder having a rod projecting from the open end thereof, means permitting liquid to flow freely from a reserve chamber on the outside of the piston to the head end of the cylinder and preventing reverse flow, an annular member surrounding said rod and forming one wall for the reserve chamber which is completely filled with liquid so as to exclude air, an apertured closure for the open end of said cylinder through which the rod projects, a coiled spring intermediate said annular member and closure efiective to depress the annular member and maintain the liquid in the reserve chamber under pressure sufiicient to force liquid into the head end of the cylinder and move the piston outwardly in the cylinder, and means for retaining said closure in said cylinder comprising an annular recess in the cylinder, a split - ⁇ vire :ring positioned partly in said recess and a beveled annular surface on said closure engaging said ring and acting under the force of said spring to expand the ring against
  • a valve actuating device comprising, in combination, a member forming a cylinder, a piston in said cylinder having a rod projecting from the open end thereof, means permitting liquid to flow freely from a reserve chamber on the outside of the piston to the head end of the cylinder and preventing reverse flow, an annular member surrounding said rod and forming one wall for the reserve chamber which is completely filled with liquid, an apertured closure for the open end of said cylinder through which the rod projects, a coiled spring intermediate said annular member and closure effective to depress the annular member and maintain the liquid in the reserve chamber under pressure sufiicient to force liquid into the head end of the cylinder and move the piston outwardly in the, cylinder, and means for limiting the outward movement of the rod through said closure when the device is removed from an engine comprising an annular recess in said rod within the closure, a split wire ring in said recess and an annular beveled surface on said closure arranged to engage said ring when the rod moves outwardly.
  • a valve actuating device comprising, in
  • piston in said cylinder having a rod projecting from the open end thereof, means permitting liquid to flow freely from a reserve chamber on the outside of the piston to the head end of the cylinder and preventing reverse flow, an annular member surrounding said rod and forming one wall for the reserve chamber which is completely filled with liquid, an apertured closure for the open end of said cylinder through which the rod projects, a coiled spring intermediate said annular member and closure effective to depress the annular member and maintain the liquid in the reserve chamber under pressure sufficient to force liquid into the head end of the cylinder and move the piston outwardly in the cylinder, means for retaining said closure in said cylinder comprising an annular recess in the cylinder, a split wire ring positioned partly in said recess and a beveled annular surface on said closure engaging said ring and acting under the force of said spring to expand the ring against the cylinder, and means for limiting'the outward movement of the rod through said closure when the device is removed from an engine comprising an annular recess in said rod within the closure,
  • a valve actuating device comprising, in combination, a member forming a cylinder, a piston in said cylinder having a part projecting in the cylinder and from the open end thereof, a check valve device carried on said piston permitting liquid to flow freely from a reserve chamber on one side of the piston to the head end of the cylinder on the other side of the piston and preventing reverse flow, a member slidably mounted on the projecting part of the piston and forming one wall for the reserve chamber, and a spring supported within the cylinder and effective to press said member in a direction to contract the reserve chamber and maintain the liquid in the reserve chamber under pressure sufficient to force liquid into the head end of the cylinder and move the piston outwardly in the cylinder.

Description

Sept. 3,- 1940. o. H. BANKER VALVE AGTUATING MECHANISM Filed May 13. 1938 1N VENT OR. Oscarfi. 5012M LLQ ' ATTORNEY. I
Patented Sept. 3, 1940 VALVE ACTUATING MECHANISM Oscar H. Banker, Chicago, Illa Application May 13, 1938, Serial No. 207,747
13 Claims.
The invention relates generally to a valve actuating mechanism for an internal combustion engine and more particularly to a valve lifter or silencer for eliminating clearance in the actuating mechanism.
The general object of the invention is to provide a selft-contained valve lifter of new and improved construction.
Another object is to provide a self-contained, hydraulic valve actuating device comprising two telescopically engaged members, one for engagement with the valve stem of a valve actuating mechanism and the other for engagement with the valve actuating cam, together with hydraulic means of novel construction for maintaining said members extended and in engagement with said valve stem and cam and for transmitting the force for opening the valve.
Another object is to provide a device of this character of a new and improved construction rendering the mechanism extremely quiet under all operating conditions, economical to manufacture, efiicient, durable, and easy to install either initially or as a replacement for noisy,
pressure to extend the piston andcylinder parts 1 of the device into' constant engagement with the valve stem and valve cam of the valve actuating mechanism.
Other objects and advantages will become readily apparent from the following detailed description taken in connection with the accompanying drawing, in which:
Fig. 1 is a view partly in section of a valve actuating mechanism for an internal combustion engine embodying features of the invention.
Fig. 2 is a fragmentary view partly in longi- 50 tudinal central section through the preferred form of the invention shown in Fig. 1..
Fig. 3 is a fragmentary plan view taken along line 33 of Fig. 2.
While the invention is disclosed in the drawing and will hereinafter be described as embodied in a preferred form, it is not intended that the invention be limited to the specific embodiment disclosed. It is intended to cover all modifications and alternative constructions falling within the spirit and scope of the invention as de- 5 fined in the appended claims.
Referring to the drawing, and particularly to Fig. 1, l0 represents the cylinder block of an internal combustion engine and H represents a valve having a valve head l2 controlling a port 10 opening into a cylinder of the engine. The valve is mounted in the usual manner with its stem i3 projecting slidably through a sleeve bushing it secured in the cylinder block it. At the end. remote from the valve head, the valve stem carries a washer I5 between which and the cylinder block In a compression spring 15 is interposed to urge the valve toward seated position. The valve is opened against the action of the spring 86 at proper intervals by means of a cam l'i formed on a camshaft 18 and acting through a valve lifter generally designated H9. The valve lifter is guided for longitudinal reciprocatory movement in a bore 20 formed in a portion of the cylinder block it].
The invention is directed more particularly to the valve lifter or actuating device generally designated !9, this device being of a self-contained by embodying a liquid as a cushioning means. Generally, the valve lifter comprises two telescopically engaged parts or members, one in the form of a cylinder 2| the lower and closed end 2| of which is maintained in contact with the valve actuating cam H. The cylinder 2! has a cylindrical exterior surface also so that this member can be slidably mountedin the bore 28 of the cylinder block. The other member is in the form of a rod or plunger 22 which is maintained in contact with the valve stem. The rod member 22 has a piston 22' formed on its lower 40 end which is slidable in the cylinder 2! and divides the cylinder into a first or head end chamber 23 below the piston, and a second or reserve chamber 24 above the piston. These chambers are interconnected by means of a passageway through the piston formed by radially extending ports 25 and an axial port 26,the axial port having an enlarged portion 27 with a beveled end 28 forming a seat for a ball check valve 29. This check valve is maintained in engagement with the seat by a coiled spring 30, one end of which engages the check valve and the other end of which abuts an apertured washer 3i pressed into a re-= cess 32 in the lower end of the piston and expanded therein. The check valve is so arranged as to permit rapid and substantially free flow of liquid from the reserve chamber through the passage, which includes an aperture 33 in the washer, to the head end chamber, the fit of the piston in the cylinder being such as to permit slow leakage of fluid past the piston from the head end chamber back to the reserve chamber.
In order to maintain the two parts of the device extended so as to eliminate clearance between the cylinder 2| and the cam H and between the upper end of the rod 22 and the valve stem l3, the invention provides means for maintaining the liquid in the reserve chamber under pressure. As illustrated in Fig. 2, an annular member or second piston 35 surrounds the rod 22 and has a rim 36 with a. sliding fit in the cylinder 2| and has a hub 31 with a sliding fit on the rod so as to form an upper wall for the reserve chamber 24. This member is preferably formed of a material which is not affected by the liquid in the device (usually oil) and is backed by an annular metal collar 38 positioned against the upper surface thereof. However, the sealing member is sufficiently resilient and flexible so that the pressure of the fluid may act against the inner surfaces of the hub 31 and rim 36 and press these parts into contact with the rod 22 and cylinder 2|, respectively, to provide a, good seal between these parts and prevent loss of liquid. The member 35, and the liquid as well, are selected to withstand the high temperatures encountered. A commercial product called Neoprene, made from coal and having some of the characteristics of rubber, has been found satisfactory as a material for the member 35. A very low viscosity oil or a liquid commonly known as brake fluid because of its use in hydraulic brakes may be used for the liquid.
The secondary piston thus formed is forced downwardly by means of a coiled spring 39 positioned intermediate the collar 38 andan apertured closure 40 for the open end of the cylinder. The closure 40 is preferably retained against movement outwardly of the cylinder by means of a split wire ring 4| positioned in an annular recess 42 of semi-circular cross-section in the wall of the cylinder. The adjacent annular surface 4| on the head 40 is beveled as shown so that the action of the spring 39 tending to move the closure outwardly causes the beveled surface 4| to cam or expand the locking ring into the recess 4|. This permits of the use of an inexpensive plain wire ring in place of the usual spring type. Similarly, a split wire ring 43 is secured in an annular recess 44 of semi-circular cross-section in the rod 2| so as to limit the outward movement of the piston in the cylinder when the device is removed from its position between the valve stem and valve cam, as shown in Figs. 10 and 12. Here again, the head 40 is provided with an annular beveled or cam surface 4|" which functions to contract the locking ring and retain it in the recess 44.
In assembling the form of the invention illustrated, a suitable liquid is placed in the cylinder and the piston 22' and annular member 35 are installed in a way which does not trap any air below the member 35. When the valve lifter is installed in an engine, as illustrated in Fig. 1, liquid under pressure in the reserve chamber is forced past the check valve and] into the head end chamber until the two parts of the device are extended sufiiciently to take up all clearance in the mechanism. During the operation of the,
engine, any leakage past the piston during the valve lifting strokes, or due to expansion of the liquid and parts with a rise in temperature, is immediately replaced in the head end chamber during the return strokes because of the pres sure maintained on the liquid in the reserve chamber. Actually, this pressure need only be sufiiciently great so that the total pressure acting on the lower end of the piston is sufficient to overcome the pressure of atmosphere on the outer end of the piston rod.
In a valve mechanism of the type illustrated, a valve spring such as 6 (Fig. 1) is generally selected very carefully as to strength so as to insure proper operation of the valve. In providing a valve lifter, such as I9, for incorporation in the valve actuating mechanism, it is highly desirable that the action of the valve lifter does not neutralize too large a portion of the pressure exerted by the spring 3 in maintaining the valve 2 in its closed position. Thus, if a spring were used in such a manner as to act directly between the cylinder 2| and the rod 22 to extend the parts into engagement with the valve cam and valve stem, respectively, such a spring must necessarily be relatively light and, as a result, would be somewhat fragile and subject to frequent breakage in view of the high speeds and vibration encountered when the engine is in operation. In the invention as illustrated, a relatively heavy spring 39 is utilized so as to obtain satisfactory operation and long life, and yetthe upward pressure exerted by the rod 22 on the valve stem, while the valve I2 is seated, is relatively light due to the arrangement of the parts. The pressure of the spring 39 is exerted upon the liquid in the reserve reservoir through the annular member 35, and during the closing movement of the valve I2 the pressure in the head end chamber 23 is equal to the pressure in the reserve chamber 24. Since the liquid in the reserve chamber 24 acts to move the piston 22' downwardly and the liquid in the head end chamber 23 acts to move the piston upwardly, the resultant force tending to move the piston upwardly is equivalent to that exerted by the liquid acting on an area equal to the crosssectional area of the rod 22. Therodarea may be so selected that the upward pressure on the rod is but a fraction of the total pressure exerted by the spring 39.
It will be readily apparent that by providing the reserve chamber with a movable wall which is constantly forced in a direction to compress the liquid in the reserve chamber, as well as the head end chamber and the connecting passage,
is completely filled with liquid under pressure.
' the engine is in operation, an unusually high back pressure is avoided by providing the reserve chamber with a yieldable wall.
Preferably, the end wall 2| of the cylinder 2| has a flat inner surface and the adjacent end of the piston 22' is also flat and of large area. In the event the liquid in the device is for any reason dissipated or none is placed therein, these contacting surfaces of the piston and cylinder endare of sufiicient area to withstand the shocks of continued operation of the engine, even in the absence of the usual cushioning effect of the liquid. With the construction shown herein, it is possible to leave an extremely small amount of clearance between the piston 22' and the closed end of the cylinder. This holds the piston to a short travel even in the event the liquid is lost or inadvertently left out, insuring proper opening and closing of the valve. Continued operation of the engine is thereby assured. Furthermore, the head end of the piston is free from springs and other mechanisms, so that there are no fragile parts in the head end of the cylinder which would be crushed in the absence of liquid in the device.
Openings 45 are preferably provided in the closure '19 and drain openings 46 are provided in the sidewall of the cylinder 2| so that any oil or other liquid which may leak from other parts of the engine into the upper portion of the cylinder cannot remain and build up a presssure which will destroy the normal efiect of the coiled spring 39. Oil passing out through the openings 46 serve to lubricate the outer surface of the cylinder and the bore 20.
The invention provides an extremely compact device which is able to function continuously even though the liquid normally contained therein is absent. By maintaining the liquid in the reserve chamber under pressure, it is possible to utilize the liquid itself as a means for extending the parts. When a spring such as 39 is used for producing the pressure in the reserve chamber, a larger and stronger spring may be used than would be possible if the spring acted directly to extend the parts.
I claim as my invention:
l. A valve actuating device comprising, in combination, a cylinder closed at the head end and having an apertured head at the other, a piston slidable in said cylinder and having a rod extending through said aperture, a flexible annular member between said rod and the wall of the cylinder and cooperating therewith to form a reserve chamber outside of the piston, said cylinder being completely filled with liquid between said fiexible member and the closed end of the cylinder, a check valve device permitting rapid flow of liquid from the reserve chamber to the head end ofthe cylinder, and resilient means acting against said flexible member to maintain the liquid in the reserve chamber under pressure sufiicient to move the piston outwardly in the cylinder.
2. A valve actuating device comprising, in combination, a cylinder closed at the head end and having an apertured head at the other, a piston slidable in said cylinder and having a rod extending through said aperture, an annular member between said rod and the wall of the cylinder and cooperating therewith to form a reserve chamber outside of the piston, said cylinder being completely filled with liquid between said annular member and the closed end of the cylinder, means permitting flow of liquid from the reserve chamber to the head end of the cylinder, and means carried on the cylinder and acting against said annular.member to maintain the liquid in the reserve chamber under pressure sufiicient to move the piston outwardly in the cylinder.
3. A valve actuating device comprising, in combination, a ,member forming a cylinder, a piston in said cylinder having a rod projecting from the open end thereof, a check valve device carried on said piston permitting liquid to flow freely from a reserve chamber on the outside of the piston to the head end of the cylinder and preventing reverse flow, an annular member mounted on said rod and forming one wall for the reserve chamber, an apertured closure for the open end of said cylinder through which the rod projects, and a. coiled spring intermediate said annular member and closure effective to depress the annular inember and maintain the liquid in the reserve chamber under pressure sufiicient to force liquid into the head end of the cylinder and move the piston outwardly in the cylinder.
4. A valve actuating device comprising, in combination, a member forming a cylinder, a piston in said cylinder having a rod projecting from the open end thereof, a check valve device carried on said piston permitting liquid to flow freely from a reserve chamber on the outside of the piston to the head end of the cylinder and preventing reverse flow, an annular member slidably mounted on said rod and forming one wall for the reserve chamber, and a spring efiective to press said annular member and maintain the liquid in the reserve chamber under pressure sufficient to force liquid into the head end of the cylinder and move the piston outwardly in the cylinder.
5. In a valve operating mechanism, in combination, two telescopically engaged members, hydraulic resisting means between said members cooperating therewith to permit the slow contraction and rapid extension of the same and including a first chamber filled with liquid, a second expansible chamber completely filled with liquid into which liquid from said first chamber leaks slowly and a check valve permitting rapid return of liquid from the second chamber to the first to extend said telescopic members, and means including a resilient device acting to contract said second chamber for exerting pressure on the liquid therein so as to force it past said check valve and into said first chamber and cause the extension of said members.
6. In a valve operating mechanism, in combination, two telescopically engaged members, hydraulic resisting means between said members cooperating therewith to permit the slow contraction and rapid extension of the same and including a first chamber filled with liquid, a second expansible chamber completely filled with liquid into which liquid from said first chamber leaks slowly and a check valve permitting rapid return of liquid from the second chamber to the first to extend said telescopic members, and means associating with said second chamber for exerting pressure on the liquid therein so as to force it past said check valve and into said first chamber and cause the extension of said members.
7. In a valve operating mechanism, in combination, two telescopically engaged members, hydraulic resisting means between said members cooperating therewith to permit the slow contraction and rapid extension of the same and including a first chamber filled with liquid, a second expansible chamber completely filled with liquid into which liquid from said first chamber leaks slowly and means permitting relatively rapid return of liquid from the second chamber to the first to extend said telescopic members, and means including a resilient device carried on one of said members for exerting pressure on the liquid in said second chamber so as toforce it past said check valve and into said first chamher and causethe extension of said members.
8. A valve actuating device comprising, in
combination, a cylinder, a piston rod, a piston cylinder into two chambers completely filled with liquid, said piston permitting sloW leakage of liquid from the first chamber into the second, means permitting rapid return of liquid from the second chamber to the first to force the piston outwardly of the cylinder, and means carried on the cylinder for maintaining the liquid in said second chamber under pressure sufficient to force liquid into the first chamber and move the piston outwardly in the cylinder.
10. A valve actuating device comprising, in combination, a member forming a cylinder, a piston in said cylinder having a rod projecting from the open end thereof, means permitting liquid to flow freely from a reserve chamber on the outside of the piston to the head end of the cylinder and preventing reverse flow, an annular member surrounding said rod and forming one wall for the reserve chamber which is completely filled with liquid so as to exclude air, an apertured closure for the open end of said cylinder through which the rod projects, a coiled spring intermediate said annular member and closure efiective to depress the annular member and maintain the liquid in the reserve chamber under pressure sufiicient to force liquid into the head end of the cylinder and move the piston outwardly in the cylinder, and means for retaining said closure in said cylinder comprising an annular recess in the cylinder, a split -\vire :ring positioned partly in said recess and a beveled annular surface on said closure engaging said ring and acting under the force of said spring to expand the ring against the cylinder.
11. A valve actuating device comprising, in combination, a member forming a cylinder, a piston in said cylinder having a rod projecting from the open end thereof, means permitting liquid to flow freely from a reserve chamber on the outside of the piston to the head end of the cylinder and preventing reverse flow, an annular member surrounding said rod and forming one wall for the reserve chamber which is completely filled with liquid, an apertured closure for the open end of said cylinder through which the rod projects, a coiled spring intermediate said annular member and closure effective to depress the annular member and maintain the liquid in the reserve chamber under pressure sufiicient to force liquid into the head end of the cylinder and move the piston outwardly in the, cylinder, and means for limiting the outward movement of the rod through said closure when the device is removed from an engine comprising an annular recess in said rod within the closure, a split wire ring in said recess and an annular beveled surface on said closure arranged to engage said ring when the rod moves outwardly.
12. A valve actuating device comprising, in
combination, a member forming a cylinder, a
piston in said cylinder having a rod projecting from the open end thereof, means permitting liquid to flow freely from a reserve chamber on the outside of the piston to the head end of the cylinder and preventing reverse flow, an annular member surrounding said rod and forming one wall for the reserve chamber which is completely filled with liquid, an apertured closure for the open end of said cylinder through which the rod projects, a coiled spring intermediate said annular member and closure effective to depress the annular member and maintain the liquid in the reserve chamber under pressure sufficient to force liquid into the head end of the cylinder and move the piston outwardly in the cylinder, means for retaining said closure in said cylinder comprising an annular recess in the cylinder, a split wire ring positioned partly in said recess and a beveled annular surface on said closure engaging said ring and acting under the force of said spring to expand the ring against the cylinder, and means for limiting'the outward movement of the rod through said closure when the device is removed from an engine comprising an annular recess in said rod within the closure, a split wire ring in said recess and an annular beveled surface on said closure arranged to engage said ring when the rod moves outwardly.
13. A valve actuating device comprising, in combination, a member forming a cylinder, a piston in said cylinder having a part projecting in the cylinder and from the open end thereof, a check valve device carried on said piston permitting liquid to flow freely from a reserve chamber on one side of the piston to the head end of the cylinder on the other side of the piston and preventing reverse flow, a member slidably mounted on the projecting part of the piston and forming one wall for the reserve chamber, and a spring supported within the cylinder and effective to press said member in a direction to contract the reserve chamber and maintain the liquid in the reserve chamber under pressure sufficient to force liquid into the head end of the cylinder and move the piston outwardly in the cylinder.
OSCAR H. BANKER.
US207747A 1938-05-13 1938-05-13 Valve actuating mechanism Expired - Lifetime US2213195A (en)

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2438631A (en) * 1946-06-24 1948-03-30 Johnson Products Inc Hydraulic tappet
US2547798A (en) * 1946-02-09 1951-04-03 Gen Motors Corp Self-contained hydraulic tappet
US2665670A (en) * 1950-10-02 1954-01-12 Harold E Adkins Hydraulic valve lifter
US2734495A (en) * 1956-02-14 yielding spacer
US2746436A (en) * 1951-07-20 1956-05-22 Draper M Harvey Hydraulic valve lifter mechanism
US2830566A (en) * 1954-10-07 1958-04-15 Thompson Prod Inc Hydraulic tappet
US2847982A (en) * 1955-01-07 1958-08-19 Thompson Prod Inc Automatic tappet
US2966152A (en) * 1958-04-09 1960-12-27 Donald C Wride Silent cam follower
DE1159211B (en) * 1956-12-19 1963-12-12 Anciens Etablissements Panhard Hydraulic valve lash adjuster for internal combustion engines
US4397271A (en) * 1981-03-02 1983-08-09 Stanadyne, Inc. Semi-self-contained hydraulic lash adjuster

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2734495A (en) * 1956-02-14 yielding spacer
US2547798A (en) * 1946-02-09 1951-04-03 Gen Motors Corp Self-contained hydraulic tappet
US2438631A (en) * 1946-06-24 1948-03-30 Johnson Products Inc Hydraulic tappet
US2665670A (en) * 1950-10-02 1954-01-12 Harold E Adkins Hydraulic valve lifter
US2746436A (en) * 1951-07-20 1956-05-22 Draper M Harvey Hydraulic valve lifter mechanism
US2830566A (en) * 1954-10-07 1958-04-15 Thompson Prod Inc Hydraulic tappet
US2847982A (en) * 1955-01-07 1958-08-19 Thompson Prod Inc Automatic tappet
DE1159211B (en) * 1956-12-19 1963-12-12 Anciens Etablissements Panhard Hydraulic valve lash adjuster for internal combustion engines
US2966152A (en) * 1958-04-09 1960-12-27 Donald C Wride Silent cam follower
US4397271A (en) * 1981-03-02 1983-08-09 Stanadyne, Inc. Semi-self-contained hydraulic lash adjuster

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