The present invention relates generally to a pulley assembly having a cap retainer for retaining a bearing cap to protect an exposed side of a bearing from contaminants, and more particularly to an insert moldable cap retainer.
Pulleys such as drive pulleys (both front-side and back-side), idler pulleys, tensioner pulleys, and the like are frequently employed for automotive use, e.g. to drive or tension a belt of a drive system. The belt drive system can be accomplished by using a driver pulley and one or more idler pulleys and a belt trained around the belt surface of each of the various pulleys. The belt surface may be, for example, smooth, deep V-shaped, cogged or multi-ribbed.
In such automotive and other industrial applications, contaminants such as dust, sand, salt, and/or other foreign matter can find a way into the pulley's bearing. Bearings wear more quickly when left open to contaminants, thereby reducing the lifespan of the bearing. Contaminants can also cause the ball or rolling element to seize up, which is a serious problem. Seizing can cause the driving belt to break as a result of the belt sliding on a locked pulley.
A bearing seal is a first line of defense against contaminants, but is often not enough. Various sealing rings or covers to reduce the amount of dirt and other contaminants like those described in U.S. Pat. No. 3,537,725, No. 4,113,328, and No. 7,011,593 have been attempted. Some bearing caps have been designed to attach directly to the pulley or pulley body, for example the snap-on bearing cap described in U.S. Pat. No. 4,793,457 and the flanged bearing cap grooved bearing cap retainer combination described in U.S. Published Patent Application 2007/0072714. The aforementioned pulley-bearing cap designs are not ideal, especially for injection molded pulley assemblies.
Injection molding is a well-known technique for forming pulley assemblies. However, the molds place limits on the complexity of the pulley body's design. Particularly, complex features for attaching a bearing cap to the pulley body, for example snap-fit configurations, are difficult to achieve due to the complexity of the under cuts required to form such features within the mold.
Accordingly, a new design for retaining a bearing cap on a pulley is needed that does not increase the complexity of the pulley body's design and accordingly the design of the mold used to form the pulley body.
One aspect of the disclosed invention is an insert moldable cap retainer for securing a bearing cap to a pulley assembly. The insert moldable cap retainer includes a hollow neck configured to receive a bearing cap, a plate extending outward from the neck with the neck protruding from the plate, and a continuous or discontinuous flange extending downward from the outer periphery of the plate. The hollow neck defines an opening allowing access to the bearing and the fastener connecting the pulley to a mounting base. The plate is configured to be juxtaposed with an upper surface of an outer race of a bearing and the flange is configured to be juxtaposed with an outer surface of the outer race of the bearing. The cap retainer is insert-moldable with the bearing to have a pulley body molded integrally to the cap retainer and the bearing.
In another aspect, a pulley assembly including the insert moldable cap retainer is disclosed. The pulley includes a bearing that includes an inner race, an outer race, and a rolling element between the inner race and the outer race, a cap retainer having a hollow neck configured to receive a bearing cap and a plate extending outward from the neck with the neck protruding upward from the plate, and an injection molded pulley body integrally molded to the bearing and the cap retainer. The plate is configured to be juxtaposed with the upper surface of the outer race of the bearing and the cap retainer is positioned on the bearing with the plate juxtaposed with the upper surface of the outer race.
In another aspect a pulley assembly including a mounting base and a pulley having the insert moldable cap retainer is disclosed. The mounting base defines an axis of rotation and the pulley is mounted on the mounting base for rotation about the axis. The pulley comprises a bearing comprising an inner race, an outer race, and a rolling element between the inner race and the outer race, a cap retainer comprising a hollow neck configured to receive a bearing cap and a plate extending outward from the neck with the neck protruding upward from the plate, a continuous or discontinuous flange extending downward from the outer periphery of the plate, and a pulley body integrally molded to the bearing and the cap retainer. The cap retainer is positioned on the upper surface of the bearing with the plate adjacent to the upper surface and the flange adjacent to the outer surface of the outer race of the bearing.
In another aspect a method for molding a pulley is disclosed. The method includes providing an injection mold configured to form a pulley body, positioning a bearing comprising an inner race, an outer race, and a rolling element between the inner race and the outer race in the injection mold, positioning a cap retainer on an upper surface of the bearing, and injecting a resin into the injection mold to form a pulley body integrally molded to the bearing and the cap retainer. The cap retainer includes a hollow neck configured to receive a bearing cap and a plate extending outward from the neck with the neck protruding upward from the plate. The method may also include positioning a shield on the lower surface of the bearing before injecting the resin.
The new cap retainer and bearing cap disclosed herein eliminates the need to mold an additional feature into the pulley body to retain a bearing cap, which makes the mold and the molding process simpler. Another advantage of the cap retainer and bearing cap, depending upon the features used to attach the bearing cap to the cap retainer, is that the bearing cap is removable. The present cap retainer and bearing cap also make mold modifications minimal and should be universally useful for all pulley bodies.
Referring now to the embodiment shown in
The pulley 101 is rotatable relative to the mounting base 170 about axis 105. Mounting base 170 may be disposed at one end of a tensioner arm 171 for tensioning a belt of a drive system, such as those disclosed in U.S. Pat. No. 5,190,502, No. 5,620,385, No. 6,863,631, but not limited thereto. The side of the pulley positioned on the mounting base 170 is referred to herein as the “arm side” 107 and the opposite side of the pulley is referred to as the “exposed side” 117. While the mounting base 170 is described for use with a belt tensioner, the application of the bearing cap and cap retainer is not limited thereto.
Pulley 101 includes a bearing 102, a cap retainer 104, a pulley body 106, and optionally an arm side shield 160 positioned on the arm side 117 opposite the cap retainer 104, and a bearing cap 140 connected to the cap retainer 104. The bearing 102 includes an inner race 108, an outer race 109, and one or more rolling elements 110 positioned between the inner and outer races and has an upper surface 111 and a lower surface 112. The bearing 102 may be a ball type bearing, a journal bearing, or a roller bearing, and may alternatively include other suitable roller elements 110, such as rollers or a cartridge. The outer race 109 has an upper surface 181, a lower surface 182, an inner surface 183, and an outer surface 184.
The cap retainer 104 is positioned on the upper surface 111 of the bearing 102 and the pulley body 106 is injection molded integrally to the bearing and the cap retainer, i.e., the bearing and cap retainer are insert molded. If an arm side shield 160 is present it may be positioned on the lower surface of the bearing 102 and may be insert molded at the same time as the cap retainer.
Pulley body 106 may include an outer ring 122 that includes a belt-running surface 124 for engaging a belt, such as an automotive power transmission belt, a core 126 that radially supports the outer ring 122 and a bearing housing portion 128 centrally located within the core. The bearing housing portion 128 may have a neck 129 that transitions the bearing housing portion 128 into the core 126.
The bearing 102 is located within the bearing housing portion 128 of the pulley body 106 such that the outer ring 122 including the belt-running surface 124, the core 126, the bearing housing portion 128, and the outer race 109 rotate together relative to the inner race 108. Core 126 may include a web of supports 134 extending outward from the central portion of the core.
The belt-running surface 124 may be generally flat or may have a textured surface, such as the non-limiting example of an undulating contour of peaks 130 separated by valleys 132 as shown in
Pulley body 106 may be formed by injection molding a material around an insert including the bearing 102, the cap retainer 104, and optionally arm side shield 160. The pulley body may be formed of one material or a plurality of materials. As used herein, “material” refers to the substance or substances out of which a thing is made and can refer to a mixture such as a composite including a filler disposed within a resin matrix. In one embodiment, it may be advantageous to form the pulley body from at least two distinct materials that can be selected to optimize certain physical properties of the pulley, such as wear resistance for the outer ring 122 and/or the belt-running surface 124 and compressive strength for the core 126 as taught in U.S. Published Patent Application 2006/0160647 to Swane. Suitable materials include, for example, polymers such as nylon 6, nylon 6/6, nylon 6/6/6 copolymer or blend, nylon 4/6, polypropylene, polyethylene, polystyrene, polyvinyl chloride, polyester, acetal, polyetherimide, polysulfone, polyphenylene sulfide, polyether sulfone, polyetheretherketone, polythalamide, and many other engineering plastics as appreciated by one of skill in the art, even those including fibers may be used.
Now referring to
Now referring to
Now referring to
Regardless of the embodiment of the cap retainer it may be made of any suitable material or combinations of materials. Suitable materials may include metals, composites, plastics, or combinations thereof. Metal includes generally pure metals, metal alloys, and compositions containing metal or metal alloys. Plastics include injection molded plastics that are thermoset or thermoplastic.
The cap retainer may be formed by stamping, for example using progressive stamping techniques. In another embodiment, the cap retainer may be formed from powder metal by press and sintering techniques. In another embodiment, the cap retainer may be a molded piece.
When any of the various embodiments of the cap retainer are positioned on the bearing, the plate portion of the cap retainer is juxtaposed with the upper surface 181 of the outer race 109 and the flange portion is juxtaposed with the outer surface 184 of the outer race 109. The cap retainer and bearing are placed into a mold and the pulley body is molded thereto.
Now referring to
Bearing cap 140 includes appropriate feature(s) on the interior or exterior of the sidewall 146 or rim 148 to connect it to the neck 114 of the cap retainer 104. In the case of spot welding or spin welding the bearing cap 140 to neck 114, no such features may be needed. However, if the cap retainer's neck 114 includes an inside or an outside snap-fit feature, then the bearing cap 140 on the interior or exterior of the sidewall 146 or the rim 148 will have a snap-fit connector 150 configured appropriately to mate with the snap-fit feature present on the neck, such as the outside snap-fit connector shown in
Bearing cap 140 may be made of any suitable material or combinations of materials, such as metals or plastics, including injection molded plastics. A molded bearing cap 140, such that shown in
In another embodiment, bearing cap 140 may include an umbrella 154 as shown in
Bearing cap 140′ generally includes a top 142 having one or more sidewalls 146 and optionally may include a shoulder 144 that transitions the top 142 into the one or more sidewalls and transitions into a cover 156 portion of umbrella 154. The bearing cap 140 may also include a rim 148 at the end of the sidewall 146 opposite where it connects to top 142 or shoulder 144. Umbrella 154 includes cover 156 extending outward from the top 142 and/or shoulder 144 of the bearing cap. Cover 156 may extend outward and downward at an angle sloping away from the top 142, which will direct the umbrella 154 toward the pulley body 106, but is not limited thereto, and may be configured to extend beyond the portion of the pulley body 106 that forms the bearing housing portion 128. A flange 158 may be included that extends from cover 156 at an end opposite where the cover connects to the top 142 with the flange extending downward from the outer periphery of the cover 156, which directs the flange toward the pulley body. As shown in
In
Now referring to
An alternate embodiment for the arm side shield, generally designated arm side shield 160′, is shown in
The embodiments of this invention shown in the drawing and described above are exemplary of numerous embodiments that may be made within the scope of the appended claims. It is contemplated that numerous other configurations of the tensioner assemblies may be created taking advantage of the disclosed approach. In short, it is the applicant's intention that the scope of the patent issuing herefrom will be limited only by the scope of the appended claims.
This is a divisional application of application Ser. No. 12/566,088 filed Sep. 24, 2009.
Number | Name | Date | Kind |
---|---|---|---|
665569 | Little | Jan 1901 | A |
1096805 | Gohlke | May 1914 | A |
1206505 | Blume | Nov 1916 | A |
1603596 | Harley | Oct 1926 | A |
1693538 | Allen | Nov 1928 | A |
1875097 | Mitchell | Aug 1932 | A |
2044380 | Cobb | Jun 1936 | A |
2221553 | Okun | Nov 1940 | A |
2266300 | Bebinger | Dec 1941 | A |
2512148 | Gaines | Jun 1950 | A |
2622934 | Phelps | Dec 1952 | A |
2622944 | Bergstrom | Dec 1952 | A |
2717808 | Owsen | Sep 1955 | A |
2759243 | Smith | Aug 1956 | A |
3010771 | Cogger | Nov 1961 | A |
3126232 | Reilly | Mar 1964 | A |
3169809 | Pendleton | Feb 1965 | A |
3330563 | De Puydt | Jul 1967 | A |
3460437 | Roggenburk | Aug 1969 | A |
3460874 | Johnson | Aug 1969 | A |
3537725 | Frost | Nov 1970 | A |
3577833 | Skelton | May 1971 | A |
3770992 | Veglia | Nov 1973 | A |
4025132 | Watanabe | May 1977 | A |
4054335 | Timmer | Oct 1977 | A |
4113328 | VanderMeulen | Sep 1978 | A |
4230230 | Mumford | Oct 1980 | A |
4342490 | Swinley | Aug 1982 | A |
4364614 | Weis | Dec 1982 | A |
4368933 | Motsch | Jan 1983 | A |
4793457 | Siewert | Dec 1988 | A |
4960335 | Otto | Oct 1990 | A |
5172984 | Lederman | Dec 1992 | A |
5190502 | Gardner et al. | Mar 1993 | A |
5380103 | Lederman | Jan 1995 | A |
5590968 | Dretzka | Jan 1997 | A |
5620385 | Cascionale et al. | Apr 1997 | A |
5678934 | Fischer | Oct 1997 | A |
5711393 | Gage | Jan 1998 | A |
5711617 | Scheller | Jan 1998 | A |
5711618 | Waskiewicz | Jan 1998 | A |
5798589 | Ohi et al. | Aug 1998 | A |
5947612 | Dennison Buck | Sep 1999 | A |
6149244 | Wagner | Nov 2000 | A |
6435722 | Horng | Aug 2002 | B1 |
6485185 | Conway, Jr. | Nov 2002 | B1 |
6854893 | Schmidt | Feb 2005 | B2 |
6863631 | Meckstroth et al. | Mar 2005 | B2 |
6872005 | Steinebach | Mar 2005 | B2 |
7011221 | Smith et al. | Mar 2006 | B2 |
7011593 | Schenk | Mar 2006 | B2 |
7448807 | Schenk | Nov 2008 | B2 |
8012053 | Filip | Sep 2011 | B2 |
20020102039 | Horng | Aug 2002 | A1 |
20030039422 | Nisley | Feb 2003 | A1 |
20060160647 | Swane | Jul 2006 | A1 |
20070072714 | Filip | Mar 2007 | A1 |
Entry |
---|
PCT, International Search Report and Written Opinion, PCT/US2010/049082 (Nov. 5, 2010). |
US, Office Action, U.S. Appl. No. 12/566,088 (Mar. 27, 2012). |
US, Office Action, U.S. Appl. No. 12/566,088 (Aug. 15, 2012). |
US, Advisory Action, U.S. Appl. No. 12/566,088 (Nov. 20, 2012). |
US, Office Action, U.S. Appl. No. 12/566,088 (Apr. 8, 2014). |
US, Office Action, U.S. Appl. No. 12/566,088 (Jul. 31, 2014). |
US, Advisory Action, U.S. Appl. No. 12/566,088 (Oct. 9, 2014). |
US, Notice of Allowance, U.S. Appl. No. 12/566,088 (Nov. 7, 2014). |
Number | Date | Country | |
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20150145167 A1 | May 2015 | US |
Number | Date | Country | |
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Parent | 12566088 | Sep 2009 | US |
Child | 14612383 | US |