| JPH06317111 | ROLLER VALVE LIFTER |
| WO/1996/037687 | VALVE GEAR FOR AN INTERNAL COMBUSTION ENGINE |
KESKE F
| US2765783A | 1956-10-09 | |||
| US3998190A | 1976-12-21 | |||
| US0992089A | 1911-05-09 | |||
| US3291107A | 1966-12-13 | |||
| US3545415A | 1970-12-08 | |||
| US1840633A | 1932-01-12 |
| 1. | In a roller follower (10) haying a roller (12) rotatably mounted on a pair of bearing surfaces (26,28) which are mounted on a body structure (16), the Improvement comprising: said body structure (16) including an outer structure (18) and an Inner structure (20) at least partially disposed within said outer structure (18); and wherein said bearing surfaces (26,28) are on said inner structure (20). |
| 2. | An improvement as in claim 1, wherein said roller (12) has a generally central cylinder (30) having a roller surface (32) and a pair of ends (34,36) of lesser diameter than said roller surface (32) extending from said cylinder (30) into contact with said bearing surfaces (26,28); and said bearing surfaces (26,28) are generally open in a direction away from said body structure (16), and including: means (42) for maintaining said ends (34,36) in contact with said bearing surfaces (26,28) when said inner structure (20) is disposed at least partially within said outer structure (18). |
| 3. | An improvement as in claim 2, wherein the sum of the length of said cylinder (30) and both of said ends (34,36) is greater than the length of said roller (12), said roller surface (32) overhangs a portion of each of said ends (34;36) and defines a pair of annular channels (38,39) in said cylinder (30) opening towards said ends (34,36) and said maintaining means extends Into at least one of said annular channels (38,39). |
| 4. | An improvement as in claim 1, wherein said inner structure (20) has a pair of inner members (22,24) and said bearing surfaces (2β,28) are each on a respective one of said pair of inner members (22,21). |
| 5. | An improvement as in claim 4, wherein said outer structure (18) is a sleeve, said inner members (22,24) are half tubular shells, said roller (12) has a generally central cylinder (30) having a roller surface (32) and a pair of ends (34,36) of lesser diameter than said roller surface (32) extending axially from said cylinder (30) into contact with said bearing surfaces (26,28); and said bearing surfaces (26,28) are generally open in a direction away from said body structure (lβ), and including: means (42) for maintaining said ends (34,36) in contact with said bearing surfaces (26,28) when said halfsheels are disposed at least partially within said sleeve . |
| 6. | An improvement as in claim 5, wherein the sum of the length of said cylinder (30) and both of said ends (34,3β) is greater than the length of said roller (12), said roller surface (32) overhangs a portion of each of said ends (34,36) and defines a pair of annular channels (38,39) in said cylinder (30) opening towards said ends (34,36); and said maintaining means (42) is carried by said inner member (22,24) and extends from said inner member (22,24) into at least one of said annular channels (38,39) •. |
| 7. | An improvement as in claim 1, wherein said inner structure (20) and said outer structure (18) are formed of different materials and said inner structure (20) having a hardness less than said outer structure (18). |
| 8. | An Improvement as in claim 1, wherein said outer structure (18) is generally rectangular in crosssection.. OM WIP. |
' Cam Roller Follower
Technical Field
This invention relates to roller followers of the type utilizable with internal combustion engines. Such roller followers are particularly useful for transmitting the rotary motion of a camshaft into linear motion for a push rod. Background Art Roller followers are well known in the art for use with internal combustion engines. Generally, the roller of such structures is in contact with a camshaft, and, as the camsha t rotates the roller -follower reciprocates within a bore in a block or the like. The end of the roller follower removed from the camshaft has means thereon for imparting its motion to a push rod which bears against a' rocker arm to open an engine valve, which valve is conventionally spring biased against such motion, thus contributing to the reciprocal motion. Generally, the prior art roller followers have been relatively expensive to manufacture since the ' roller portion thereof has generally had to use a relatively soft stationary and expensive pin, for example a bronze pin, thus increasing the expense of the apparatus, or, when stationary steel pins have been used, the bearings in the roller in which the pins have sat, have normally needed soft bushings, often bronze, thus again increasing the cost of the materia-s as well as the fabrication costs for such an apparatus. Still further, it has generally been necessary to provide means for delivering pressurized lubricant to the bushings so that the roller would turn sufficiently easily in use.
In one particular roller follower, specifical a roller follower as disclosed in U.S. Patent 3,998,190 issued on December 21, 1976 to Frank Edward Keske, the ends of the roller are not completely surrounded by the journaling apertures therefor, and, if the roller is positioned where oil splash will fall on the open porti of the pin ends, pressurized lubrication is not require It is noted that the body of the roller follower of thi patent is of a single piece construction, whereby eithe bushings must be utilized as bearing surfaces in the journaling apertures for the pin ends, or the entire bo must be made of a material such as bronze or aluminum which has good bearing properties. However, if such a bearing material is utilized for the body of the roller follower, then when this body reciprocates within a ste bore in an engine block, it can be severely worn if the bore of the block is somewhat rough. Further, the journaling apertures cannot be open beyond a certain po if they are to retain the pin ends therein. Disclosure of Invention
The present invention is directed to overcomi one or more of the problems as set forth above.
In one aspect of the present invention, an improvement is provided in a roller follower having a roller rotatably mounted on a bearing structure on a bo structure. The Improvement is attained when the body structure has an outer structure and an Inner structure which Is at least partially within the outer structure wherein the bearing structure is supported by the inner structure.
Through operating in accordance with the pres invention, a roller follower is provided which does not require pressurized lubrication of its bearings, and do
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not require bushings to serve as bearings. Further, by making the outer structure of-a harder material than the inner structure, damage to the body structure does not occur when the roller follower reciprocates within a hard and somewhat rough bore in an engine block. In preferred embodiments, the roller is also prevented from falling out • of the roller follower even if the apertures in which the ends of the roller sit are open lδ0° or more. Brief Description of Drawings Figure 1 illustrates, in side view, an embodiment of the present invention;
Figure 2 illustrates a sectional view taken along the line II-II of Figure 1;
Figure 3 illustrates a view taken along a line III-III of Figure 1;
Figure 3A illustrates a view similar to that of Figure 3, but showing an alternate embodiment of the geometric construction of a roller follower In accordance with an embodiment of the present invention; Figure 4 illustrates in partial bottom view, the embodiment of the present Invention shown in Figure 1 in its use environment; and
Figure 5 illustrates a sectional view taken along the line V-V of Figure 4. Best Mode For Carrying Out The Invention
While the following disclosure will be limited to discussing a roller follower for use with an internal combustion engine between a camshaft and a push rod, it should be understood that roller followers as taught herein find uses in other environments, and the invention is not meant to be limited to these specific described environments.
With reference to Figure 1, an embodiment In accordance with the present invention will be described. The embodiment comprises a roller follower 10 having a roller 12 rotatably mounted on a bearing structure 1-4 which is mounted on a body structure 16. The body structure lβ is formed of an outer structure 18 and an inner structure 20 which is at least partially disposed within the outer structure 18. The bearing structure 1*. is mounted on the inner structure 20. As shown in Figure 2, the inner structure 20 preferably includes a pair of inner members 22 and 24, with the inner member 22, which is generally in the form of a half tubular shell, and the inner member 24, which i also generally in the form of a half tubular shell, supporting bearing surfaces (journaling apertures), 26 an 28, respectively which together form the bearing structur 14. The inner structure 20 is generally made of a relatively soft bearing material, preferably aluminum. The outer structure 18 is generally made of a relatively hard abrasion resistant material different than the inner structure 20, such as steel, which can reciprocate in an equally hard bore in an engine block without damage. Thus, the inner structure 20 generally has a lesser hardness than does the outer structure 18. As will be most apparent from Figure 1, the bearing structure 14 is generally open in a direction away from the body structure lβ. Thus, at first glance it would seem that the roller 12 will simply fall out of the bearing structure 14. As will be pointed out, however, such is not the case.
Referring again to Figure 2, it will be noted that the roller 12 has a generally central cylinder 30 having a roller surface 32. The roller 12 further has a
pair of ends 34 and 36, of lesser diameter than the central cylinder 30, which extend axially from the cylinder 30 and into contact with the bearing surfaces 26 and 28 respectively. It should further be noted from Figure 2 that the sum of the axial length of the cylinder 30 and both of the ends 34 and 36, is greater than the overall length of the roller 12. Basically, the roller surface 32 overhangs a portion of each of the ends 34 and 36 and defines a pair of annular channels 38 and 39, respectively, in the cylinder 30 which channels 38 and 39 open towards the respective ends 34 and 36. The respective bearing surfaces 26 and 28, extend at inner ends or flanges 40 and 41, respectively, into the respective channels 38 and 39. The entire structure thereby provides means 42 for maintaining the ends 34 and 36 of the roller 12 in,contact with the bearing surfaces 26 and 28 when the inner members 22 and 24 are disposed together, such as when they are disposed at least partially within the outer structure 18. Turning now to a consideration of the outer structure 18, it will be noted that it Is generally in the form of a sleeve closed at a first end 44 thereof and defining a cavity 45 extending therein from a second end 47 thereof, with the first end 44 having a socket 46 formed therein. Reference to Figure 3 will make it clear that the sleeve 18 generally has one or more flats 48 provided thereon to prevent rotation of the outer structure 18, and thereby of the entire roller follower 10, within a bore 50 in a block 52 (see Figures 4 and 5). A spring clip 54 can be utilized in combination with the flats 48 to prevent such rotation. This assures that the roller 12 will be always properly aligned relative to a camshaft C, partially shown in phantom In Figure 1. The
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outer structure 18 Is generally made of a harder material than the Inner structure 20_, for example, the outer structure 18 is normally made of an iron alloy such as., steel, whereby when the roller follower 10 reciprocates within the bore 50 in the block 52, the outer structure 1 is not badly worn thereby. Meanwhile, since the inner structure 20 is normally of a softer material, preferably aluminum, it provides good bearing surfaces 26 and 28 for the ends 34 and 36 of the roller 12. Figure 3A illustrates an embodiment wherein an outer structure 18a and an inner structure 20a are rectangular in cross-section. A socket 46a would generally, however, have a similar configuration to the socket 46 of Figures 2, 3 and 5. Such a structure is useful when rectangular bores are formed within a block and eliminates the need for using a spring clip such as 54. Industrial Applicability
The industrial applicability of the invention will perhaps be best understood by reference to Figure 5. Briefly, the roller 12, or more particularly the roller . surface 32 thereof, is placed in contact with a camshaft (which would run from left to right in Figure 5 if shown therein). As the camshaft, C (shown in Figure 1), rotates, a lobe thereof forces the roller follower 10 awa from the center of the camshaft, C, (upwardly In Figure 5). A push rod (not shown) Is propelled by the socket 46, and a rocker arm spring, which acts against the other end of the push rod, provides a force downwardly on the push arm and thus on the roller follower 10 which, in combination with the action of the lobes of the camshaft, causes the roller follower 10 to reciprocate within the bore 50. Since the bearing structure 14 Is exposed to
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the camshaft, I.e., since the bearing structure 14 Is open away from the body structure 16, lubricant splashes up on the ends 34 and 36 of the roller 12 thus providing .. adequate lubrication thereto without the need for providing any* pressurized lubricant flow thereto. The roller 12 cannot fall out of the. roller follower 10, since the removal preventing means 42 prevents removal of the ends 34 and 36 of the roller 12 from the bearing structure 14. Since the material of the outer structure 18 of the body structure 16 is relatively hard, the roller follower 10 can reciprocate within the bore 50 without being unduly worn thereby. Since the inner structure 20 is made of a relatively soft material, it can serve as an excellent bearing structure 14. Thus, the bearing structure 14 does not require expensive bushings and the roller 12 can have a pin made of relatively inexpensive steel rather than brass or bronze.
Other aspects, objects, and advantages of this invention can be obtained from a study of the drawings, the disclosure, and the appended claims.
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