The present invention relates to a cam phaser, and, more particularly, to a cam phaser having a retention feature for aiding assembly.
Cam phasers include nesting and adjacent components which must be aligned in certain relative radial positions during assembly. Proper alignment is needed, for example, to ensure an oil path is created through corresponding openings in the components. During assembly, some components, such as a check valve plate, are loosely positioned while other components are moved into place. These loose components may inadvertently move and rotate as other components are added, complicating the assembly process, rendering handling of the parts difficult, and possibly resulting in assembled devices that have misaligned parts.
The present disclosure is directed to overcoming these and other problems of the prior art.
In one aspect, the present disclosure is directed to a cam phaser. The cam phaser includes a stator, a rotor positioned in the stator and including a locking pin, a locking cover including a receiving feature for receiving the locking pin, a cover plate on an opposite side of the stator from the locking cover, and a check valve plate positioned between the stator and the locking cover and including a plurality of valve elements. The cam phaser also has a plurality of first openings in each of the stator, locking cover, and check valve plate, a plurality of second openings in the locking cover, and a third opening formed in the check valve plate. The cam phaser further includes a retention feature for aligning components of the cam phaser during assembly, the retention feature including one or more tabs on a first component, for example the check valve plate, and one or more indentations on a second component, for example the locking cover and/or the stator, located in complementary positions to and receiving the one or more tabs.
In a further aspect, the retention feature helps to keep at least some of the components of the cam phaser aligned. In the assembled cam phaser, the check valve plate is aligned with the stator, the rotor, and the locking cover such that the plurality of first openings are aligned for receiving a fastener, the plurality of second openings are aligned with the plurality of valve elements, and the third opening is aligned with a receiving feature such that the locking pin is configured to extend through the third opening into the receiving feature.
In another aspect the present disclosure is directed to a method of assembling a cam phaser. The method includes positioning a stator, a rotor, a locking cover, and a check valve plate with respect to each other. As a result of the positioning of these components, a plurality of first openings in the stator, locking cover, and check valve plate are aligned for receiving a fastener, a plurality of second openings in the locking cover are aligned with a plurality of valve elements of a check valve plate, and a third opening in the check valve plate is aligned with a receiving feature in the locking plate such that a locking pin on the rotor is configured to extend through the third opening into the receiving feature. Moreover, positioning at least the check valve plate with respect to at least one of the stator or the locking cover includes inserting one or more tabs on a first component into one or more indentations on a second component in order to align the first and second components with each other.
The foregoing Summary and the following detailed description will be better understood when read in conjunction with the appended drawings, which illustrate a preferred embodiment of the invention. In the drawings:
Certain terminology is used in the following description for convenience only and is not limiting. The words “front,” “rear,” “upper” and “lower” designate directions in the drawings to which reference is made. The words “inwardly” and “outwardly” refer to directions toward and away from the parts referenced in the drawings. A reference to a list of items that are cited as “at least one of a, b, or c” (where a, b, and c represent the items being listed) means any single one of the items a, b, or c, or combinations thereof. The terminology includes the words specifically noted above, derivatives thereof and words of similar import.
As shown in
In one embodiment, the cam phaser 10 further includes a plurality of fasteners 22. The plurality of fasteners 22 are preferably bolts which hold at least some of the components of the cam phaser 10 together. For example, at least the stator 12, check valve plate 16, and locking cover 18 each include a plurality of first openings 24A, 24B, 24C, respectively, for receiving the fasteners 22. During assembly, the first openings 24A, 24B, 24C must be aligned in order to allow the fasteners 22 to pass through all of the components.
As shown in
In order to control the flow of fluid from the cavities, the one-way valve elements 32 in the cutouts 30A must be properly aligned with the openings 30B during assembly of the cam phaser 10. In addition, the check valve plate 16 must face a proper axial direction for proper alignment of the one-way valve elements 32 if the same valve plate 16 is to be used as a universal part for different cam phasers, such as an intake phaser or an exhaust phaser.
The cam phaser 10 further includes a locking pin 34 positioned in a vane 28 of the rotor 14. The locking pin 34 selectively locks the rotor 14 to the locking cover 18 to fix the rotor 14 relative to the stator 12. For example, the locking pin 34 is forced by a spring through a third opening 36 in the check valve plate 16 and into a receiving feature 38 in the locking cover 18. In order to allow proper functioning of the locking pin 34, the check valve plate 16 and the locking cover 18 must be aligned during assembly such that the third opening 36 and the receiving feature 38 are aligned with each other.
The receiving feature 38 may be any integral or separate component part of the locking cover 18 which is configured to receive an end of the locking pin 34. For example, the receiving feature 38 may be a bushing which is inserted in an opening, bore, or aperture in a body of the locking cover 18. The bushing may be cylindrical, cup-shaped, open-ended, etc. In another example, the receiving feature 38 may be a fine-blanked hole formed in the body of the locking cover 18 or an indentation. The hole may be heat-treated to attain a hardness suitable for receiving the locking pin 34. In yet another example the receiving feature 38 may be a hardened insert placed in a receiving aperture formed within the locking cover 18 to serve as a reception area for the locking pin 34.
Proper assembly of the cam phaser 10 thus requires alignment of the first openings 24A, 24B, 24C, the plurality of cutouts 30A and valve elements 32 with the plurality of second openings 30B, and the third opening 36 and receiving feature 38. During an assembly process, especially a manual assembly process, it may be difficult to keep all of the components of the cam phaser 10 in their proper relative positions and install the fasteners 22. In order to ensure proper alignment during assembly, the cam phaser 10 further includes a retention feature 40. In an exemplary embodiment, the retention feature acts to align the check valve plate 16 with an adjacent component in an angular position (“angular position” refers to the position in which the component sits relative to a rotational direction about the axial direction of the cam phaser 10).
In an exemplary embodiment, the retention feature 40 includes a plurality of tabs 42 and a plurality of indentations 44 which receive the tabs 42. In one embodiment, the tabs 44 are formed on and extend from a perimeter of the check valve plate 16. The indentations 44 are preferably formed on one or more of the stator 12, the locking cover 18, or the rear cover plate 21. The indentations 44 are preferably formed as axially-extending slots which are sized and shaped to receive the tabs 42 therein.
The disclosed retention feature 40 includes a plurality of tabs 42 and at least one plurality of indentations 44. The tabs 42 may be inserted into the indentations 44 such that at least two components are connected to each other and held in a proper angular position while the remainder of the components are moved into position. For example, the check valve plate 16 may be connected to either the stator 12 or the locking cover 18 (or the rear cover plate 21), thereby inhibiting inadvertent rotation of the check valve plate 16 during an assembly process. In some embodiments, only one of the stator 12, the locking cover 18, and the rear cover plate 21 include the indentations 44, depending on the direction in which the tabs 42 are bent. Further, it should be understood that in alternative embodiments, the tabs 42 and/or indentations 44 may be reversed or rearranged. For example, the stator 12 and/or the locking cover 18 may include tabs while the check valve plate 16 may include indentations for receiving tabs.
In some embodiments, both the stator 12 and the locking cover 18 (or stator 12 and rear cover plate 21) include the indentations 44 (e.g., indentations 44A, 44B). In this way, the check valve plate 16 may be reversible such that the body of the check valve plate 16 can be selectively flipped to face in an opposite axial direction, thereby allowing the check valve plate 16 to function in different cam phaser configurations. For example, the tabs 42 of the check valve plate 16 may be inserted into the indentations 44A of the stator 12 such that the one-way valve elements 32 are arranged for an intake configuration and the same check valve plate 16 may be reversed with the tabs 42 inserted into the indentations 44B of the locking cover 18 so that the one-way valve elements 32 are arranged for an exhaust configuration. Similarly, this construction allows the same components to be used in different types of cam phasers without adjusting the fabrication processes of the respective components.
During an assembly process, the rotor 14 is positioned in the stator 12, the check valve plate 16 and the locking cover 18 are positioned over the rotor 14, the front and rear cover plates 20, 21 are moved into place, and the fasteners 22 are inserted through the aligned first openings 24A, 24B, 24C. In other words, the plurality of first openings 24A, 24B, 24C in the stator 12, locking cover 18, and check valve plate 16 are aligned for receiving a fastener 22, the plurality of second openings 30B are aligned with the valve elements 32 for forming at least a portion of a pressure-controlled fluid channel, and the third opening 36 in the check valve plate 16 is aligned with the receiving feature 38 in the locking plate 18 such that the locking pin 34 on the rotor 14 is configured to extend through the third opening 36 into the receiving feature 38.
During the course of the assembly, the tabs 42 are inserted into the indentations 44. When the configuration of
Consistent with disclosed embodiments, the retention feature 40, including tabs 42 and indentations 44, simplifies an assembly process of the cam phaser 10. The retention feature 40 allows the check valve plate 16 to be connected to an adjacent component (the stator 12 or the locking cover 18) in an angular position which aligns the first openings 24B of the check valve plate 16 with either the first openings 24A of the stator 12 or the first openings 24C of the locking cover 18. In configurations in which the tabs 42 are inserted in the indentations 44B, the check valve plate 16 is connected to the locking cover 18 with the second openings 30B aligned with the valve elements 32 and the third opening 36 aligned with the receiving feature 38. In either configuration, the check valve plate 16 is inhibited from rotating to an unaligned positioned while other assembly steps are performed, thus providing a more efficient and effective assembly process of cam phaser 10.