This is a Non-Provisional Patent Application, filed under the Paris Convention, claiming the benefit of European Patent Application Number 15305567.8, filed on 15 Apr. 2015, which is incorporated herein by reference in its entirety.
The invention concerns a cam follower. The invention also concerns an injection pump and a valve actuator for a motor vehicle, each comprising such a cam follower. The invention also concerns a method for manufacturing such a cam follower.
JP-A-2001/329809 discloses a cam follower, comprising a tappet, a pin and a roller. The tappet extends along a longitudinal axis, while the pin and the roller are centered on a transverse axis. The tappet is movable back and forth along the longitudinal axis in a housing, while the roller is movable in rotation around its central axis on a cam. A projecting portion is formed at the outer surface of the tappet and disposed in a groove formed in the housing. Thus, the tappet is prevented from rotating around its longitudinal axis in the housing. In other words, the projecting portion forms an antirotation member formed integral with the tappet.
The aim of the invention is to provide an improved cam follower.
To this end, the invention concerns a cam follower, comprising: a tappet having a cylindrical outer surface centered on a longitudinal axis and adapted to slide in a housing surrounding the tappet, a pin extending between two opposite ends along a transverse axis perpendicular to the longitudinal axis, a roller element movable in rotation relative to the pin around the transverse axis and adapted to roll on a cam, and an antirotation member for preventing a rotation of the tappet around the longitudinal axis in the housing. According to the invention, the antirotation member is overmoulded onto the tappet, or the tappet is overmolded onto the antirotation member.
Thanks to the invention, wear of the antirotation member can be reduced and lifetime of the cam follower can be improved. Since the tappet and the antirotation member are two different components, they can each be made of specific materials, chosen for specific conditions of operation. Besides, the mechanical connection obtained by overmolding is tighter than by clipping.
According to further aspects of the invention which are advantageous but not compulsory, such a cam follower may incorporate one or several of the following features:
The invention also concerns an injection pump or a valve actuator for a motor vehicle, comprising a cam follower as defined here-above.
The invention also concerns a method for manufacturing a cam follower as described here-above. The method provides a step of overmolding the antirotation member onto the tappet, or the tappet onto the antirotation member.
The invention will now be explained in correspondence with the annexed figures, and as an illustrative example, without restricting the object of the invention. In the annexed figures:
The cam follower 1 represented on
The cam follower 1 provides a tappet 10, an insert 20, a pin 30, a roller 40 and a bush 50, together forming a plain bearing. Pin 30, roller 40 and bush 50 are centered on a transverse axis X1, while tappet 10 is centered on a longitudinal axis Y1. Axes X1 and Y1 are perpendicular. The tappet 10 is mounted in a housing 2, represented only on
Tappet 10 has an overall tubular shape centered on axis Y1. Tappet 10 extends along axis Y1 between two ends 11 and 12. Tappet 10 has a cylindrical outer surface 14 and a cylindrical inner bore 15. Tappet 10 also has two inner protruding parts 16, formed on either side of axis X1. Bore 15 and parts 16 delimit a cavity 17 open at both ends 11 and 12. Cavity 17 receives a shaft not shown through end 12, for moving tappet 10 along axis Y1. Surface 14 is adapted to slide in housing 2 surrounding tappet 10. Tappet 10 is preferably made of synthetic material, by example polyamide 6,6 (PA) or polyether-ether-ketone (PEEK). Material of tappet 10 is chosen as a compromise between weight, cost and resistance (to oil flow and temperature variations).
Each inner protruding part 16 has a plane surface 61 extending perpendicular to axis X1. A recess 62 is formed in part 16 and open at surface 61. Recess 62 includes a parallelepiped section 63 and a half-cylindrical section 64 in communication with each other. Sections 63 and 64 are open toward end 12 of tappet 10. Sections 64 are centered on axis X1.
Insert 20 provides a plane central portion 21 and two plane lateral portions 22. Insert 20 provides curved portions 23 connecting portions 21 and 22. Portions 22 form two lateral flanges extending parallel to axis Y1 in a bifurcated manner, from portion 21 toward end 11, on both side of axis Y1. Insert 20 provides a half-cylindrical section 24 formed in each portion 22. Portions 22 are fitted in respective recesses 62, with sections 24 centered on axis X1 and open toward sections 64. Insert 20 is preferably made of stamped metal sheet, for example made of steel. Insert 20 is assembled with tappet 10 by insertion from end 12 and force-fitting in recesses 62
Thanks to insert 20, the shape of tappet 10 can be simplified in comparison with a tappet supporting a pin 30, without support element. Moreover, tappet 10 and insert 20 can each be made of specific materials, chosen for specific conditions of operation. Thus, lifetime of cam follower 1 can be improved.
Pin 30 has a cylindrical outer surface 32 extending between two pin ends 34. Roller 40 has an inner cylindrical bore 41 and an outer cylindrical surface 42 extending between two lateral faces 44. Bush 50 has an inner cylindrical bore 51 and an outer cylindrical surface 52 extending between two lateral faces 54. Surface 32 of pin 30 is adjusted with bore 51 of bush 50, while surface 52 of bush 50 is adjusted with bore 41 of roller 40.
During assembly of cam follower 1, each end 34 of pin 30 is received in a bore centered on axis X1 and formed by sections 24 and 64. Pin, roller and bush axes merge with axis X1. Roller 40 is then adapted to roll on cam 4, more precisely surface 42 can roll on the outer surface of cam 4, while can follower 1 moves back and forth along axis Y1. When roller 40 rolls on cam 4, each section 26 bears a respective end 36 of pin 30, on which roller 40 is mounted. In other words, insert 20 forms a support element for pin 30 and roller 40.
Cam follower 1 is provided with an antirotation member 80 for preventing tappet 10 from rotating in housing 2 around axis Y1. Member 80 has a leg 81 and a head 82 formed integral with each other. Leg 81 is positioned in a hole 18 formed in tappet 10. Hole 18 is open at both surface 14 and bore 15. Head 82 protrudes from leg 81 and surface 14 opposite axis Y1. Head 82 has an outer surface 83 with a curved shape in a sectional plane perpendicular to axis Y1. Head 82 is positioned in groove 3 of housing 2, thus preventing rotation of tappet 10 around axis Y1. Tappet 10 is maintained in the right angular position around axis Y1 inside housing 2.
According to the invention, tappet 10 is overmolded onto the antirotation member 80, or the antirotation member 80 is overmoulded onto tappet 10. Tappet 10 and member 80 are two different components forming cam follower 1. Thus, tappet 10 and member 80 can each be made of specific materials, chosen for specific conditions of operation. Member 80 is preferably made of a harder material than tappet 10. Member 80 is still preferably made of metal, for example steel. Alternately, member 80 can be made of iron, bronze alloy, glass, wood or synthetic material harder than tappet 10. Tappet 10 is preferably made of synthetic material. Weight and cost of cam follower 1 are reduced in comparison with a tappet 10 made of metal. Besides, wear of member 80 is reduced and lifetime of cam follower 1 is improved in comparison with an antirotation member made of synthetic material.
Other non-shown embodiments can be implemented without leaving the scope of the invention.
According to a non-show embodiment, the antirotation member 80 may have a different shape and/or position. For example, its outer surface 83 may have a triangular or rectangular shape in a sectional plane perpendicular to axis Y1.
According to another non-show embodiment, tappet 10 may be overmolded onto several antirotation members 80. Preferably, the antirotation members 80 are regularly distributed around axis Y1.
According to another non-show embodiment, bush 50 may be replaced by a rolling bearing including a series of needles or rollers distributed around axis X1 between pin 30 and roller 40. According to another non-shown embodiment, cam follower 1 may be devoid of bearing or bush 50, so that pin 30 and roller 40 form together a plain bearing. In this case, surface 32 of pin 30 is adjusted with bore 41 of roller 40.
Whatever the embodiment, at least on antirotation member 80 is overmoulded onto tappet 10, or tappet 10 is overmolded onto at least one antirotation member 80. In addition, technical features of the different embodiments can be, in whole or part, combined with each other. Thus, the cam follower 1 and its manufacturing method can be adapted to the specific requirements of the application.
Number | Date | Country | Kind |
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15305567 | Apr 2015 | EP | regional |
Number | Name | Date | Kind |
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6257185 | Groh et al. | Jul 2001 | B1 |
7146952 | Kreil | Dec 2006 | B2 |
8104442 | Dorn | Jan 2012 | B2 |
Number | Date | Country |
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102004036108 | Feb 2006 | DE |
2853696 | Apr 2015 | EP |
H06146819 | May 1994 | JP |
2001329809 | Nov 2001 | JP |
Number | Date | Country | |
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20160305290 A1 | Oct 2016 | US |