Title of Invention

JOINT SEALING BELLOWS WITH SEALING RING AND ASSEMBLY / INSTALLATION METHOD

Abstract

A ball and socket joint bellows seal is provided with a ball pivot pin (38) with a connection piece (40) a bellows (12) with an annular engagement surface (16) with a sliding ring groove (20) and a bellows seal element (14). The bellows seal element (14) has a connection piece sealing face (22) statically engaged with said connection piece, a radially extending sealing portion (26) and a sliding ring portion (30) connected to said radially extending sealing portion and extending into the sliding ring groove (20).

Full Text

FORM 2 THE PATENT ACT 1970 (39 Of 1970) & The Patents Rules, 2003 COMPLETE SPECIFICATION (See Section 10, and rule 13) 1. TITLE OF INVENTION JOINT SEALING BELLOWS WITH SEALING RING AND ASSEMBLY/INSTALLATION METHOD 2. APPLICANT(S) a) Name : ZF FRIEDRICHSHAFEN AG b) Nationality : GERMAN Company C) Address : GEWERBLICHE SCHUTZRECHTE, TORALF HUTTNER, GRAF-VON-SODEN PLATZ 1, 88046 FRIEDRICHSHAFEN, GERMANY 3. PREAMBLE TO THE DESCRIPTION The following specification particularly describes the invention and the manner in which it is to be performed : - FIELD OF THE INVENTION The present invention relates generally to ball and socket joints and more particularly to a ball and socket joint sealing bellows and a ball and socket joint assembly with a bellows or sealing boot to ball stud (ball pin) connection and to a sealing boot. BACKGROUND OF THE INVENTION Ball and socket joins are known that have a sealing boot connected at one end to a housing of the ball joint and connected at another end to a ball stud (ball pin) and/or a knuckle (the connected piece or mating part - connected to the ball pin). The end of the sealing boot is either directly applied to the ball stud or knuckle or is applied by the use of a sealing ring. Sealing rings are known that apply pressure to a bellows to urge it into engaging with the ball pin or knuckle or to form an engagement surface to facilitate the sealing of the sealing boot relative to the ball pin or knuckle. Such sealing rings are difficult to form and use radial press fit to define a sealing surface. The parts must be handled very carefully to avoid damage or handling marks. After the parts are pressed on they cannot adjust with regard to axial length if the knuckle has to be changed. An axial seal to the knuckle is not present. SUMMARY OF THE INVENTION It is an object of the invention to provide an easy assembly of a sealing boot (bellows seal) to ball and socket joint parts that presents a good seal, particularly in an axial direction of the sealing boot, knuckle (connected part)and stud (pin) interface. According to the invention a ball and socket joint bellows seal is provided with a ball pivot pin with a connection piece, a bellows with an annular engagement surface with a sliding ring groove and a bellows seal element. The bellows seal element has a connection piece sealing face statically engaged with said connection piece, a 2 radially extending sealing portion and a sliding ring portion connected to said radially extending sealing portion and extending into the sliding ring groove. The radially extending sealing portion may provide a static engagement with the connection piece. With this an axial seal is provided and the sliding ring portion slides in the ring groove. The radially extending sealing portion may be fixed to the connection piece. The sliding ring groove may have a widened portion spaced axially inwardly of the substantially radially extending engagement surface. The sliding ring portion may have a widened portion spaced axially inwardly of the radially extending sealing portion. Lubricant may be disposed in the sliding ring groove. The substantially radially extending engagement surface may have a lubricant retaining portion defined by one of a narrowed gap and a material barrier at an entrance of the sliding ring groove. The lubricant retaining portion then acts to retain at least a portion of the lubricant in the sliding ring groove in a pre-assembly state prior to the sliding ring portion being inserted into the widened portion of the sliding ring groove and to form a seal in a state with the sliding ring portion inserted into the widened portion of the sliding ring groove with an amount of lubricant at each of two sealing sides of the widened portion. The annular engaging surface may extend substantially in a radial direction with respect to the connection piece. The bellows seal element may have a pivot pin sealing surface engaged with the pivot pin. A clamping ring acting on an outside of the bellows may be provided to apply force to the bellows such that the pivot pin sealing surface statically engages with the pivot pin. 3 According to another aspect of the invention, a process is provided for forming a ball and socket joint. The process includes providing a ball pivot pin seated in a ball joint housing and providing a connection part with a radially extending surface having an opening for receiving the ball pivot pin. A bellows is provided with a first connection end with an annular housing connection surface and another end with an annular engagement surface having a sliding ring groove. The bellows is connected to the housing. A bellows seal element is with a connection piece sealing face, a radially extending sealing portion and a sliding ring portion connected to the radially extending searing portion. The radially extending sealing portion of the bellows seal element is connected to the connection part radially extending surface. The ball pivot pin is moved into the opening of the connection part. The sliding ring portion is inserted into the sliding ring groove. According to still another aspect of the invention, a sealing boot is provided comprising a bellows with an annular engagement surface with a sliding ring groove and a bellows seal element with a connection piece sealing face to statically engage with a joint connection part, a radially extending sealing portion and a sliding ring portion connected to the radially extending sealing portion and extending into the sliding ring groove. The sliding ring groove may have a widened portion spaced axially inwardly of the substantially radially extending engagement surface. A lubricant may be disposed in the sliding ring groove. The slipping ring may have plural slipping ring portions, arranged concentrically and coaxial to engage in corresponding concentric and coaxial grooves of the bellows element. The various features of novelty which characterize the invention are pointed out with particularity in the claims annexed to and forming a part of this disclosure. For 4 a better understanding of the invention, its operating advantages and specific objects attained by its uses, reference is made to the accompanying drawings and descriptive matter in which preferred embodiments of the invention are illustrated. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an exploded view of the boot seal and slipping ring assembly according to the invention; Figure 2 is an exploded sectional view showing a detail of the assembly of Figure 1; Figure 3 is a sectional view showing the structure of Figure 2 A in an assembled state; Figure 4 is a partial sectional view of a ball joint ball and pin seated in a housing connected to a bellows (sealing boot); Figure 5 is a sectional view showing a connection piece (knuckle) with a slipping ring attached to an upper surface thereof; Figure 6 A is a sectional view of a knuckle facing side of the sealing boot with lubricant in a guiding groove; Figure 6 B is a sectional view of an alternative embodiment of the sealing boot, with the flaps or a membrane limiting the entrance to the guiding groove having lubricant therein; Figure 7A is a sectional view showing a state of assembly with the sealing boot contacting the slipping ring; 5 Figure 7 B is a sectional view showing another state of assembly as the ball pin advances with respect to the connection piece; Figure 7 C is a sectional view showing the assembled state; Figure 8 A is an enlarged sectional view showing the sealing boot and sliding ring in a pre-assembly state, relatively positioned for engagement; Figure 8B is an enlarged sectional view showing the sealing boot and sliding ring in an assembled state; Figure 8 C is an enlarged sectional view showing the sealing boot and sliding ring in an assembled state illustrating the axial seal (sealing in an axial direction to prevent water ingress in a radial direction); Figure 9 A is an enlarged sectional view showing a state of the sealing boot and the sliding ring assembly process with an embodiment not using a clamping ring; Figure 9B is an enlarged sectional view showing another state of the sealing boot and sliding ring assembly process; Figure 9C is an enlarged broken away sectional view showing the assembled state of sealing boot and sliding ring with pin and knuckle according to the embodiment of Figure 9A; DESCRIPTION OF THE PREFERRED EMBODIMENT Referring to the drawings in particular, the invention comprises a bellows seal arrangement or boot seal arrangement generally designated 10. The boot seal arrangement 10 includes a boot seal 12 and a snap in slipping ring or bellows seal element 14. The boot seal 12 has a housing end 15 and a connection piece end 18. The 6 connection piece end 18 has an annular surface 16 with an annular guiding groove 20. The slipping ring 14 has a connection piece engagement portion with surface 22 and opposite boot seal engaging surface 26. The slipping ring 14 also has a sliding ring portion 28. Figure 2 shows the sealing ring 14 with boot sealing engaging surface 26 in a position ready to be seated in contact with sealing boot surface 16. The sliding ring portion 30 snaps into guiding groove 20 with widened portion 32 passing through a narrow entranceway 64 into widened portion 23 of guiding groove 20. Figure 3 shows the sliding ring portion 30 snapped into the dining groove 20. The boot seal arrangement 10 is advantageously used with a ball and socket joint including ball 36 with pin 38 as shown in Figure 4. The ball 36 is seated in a housing 44 (via intermediate bearing insert). The pin 38 is connected to a connecting piece or knuckle 40. The sealing boot 12 is connected at end 15 to the housing 44 via a clamping ring 46. The end 18 of sealing boot 12 is connected to the pin 38 by a clamping ring 48. The clamping ring 48 may be omitted as discussed further below. Figure 5 shows the knuckle 40 with a sealing boot facing surface 42. The slipping ring surface 22 is positioned on the surface 42 to form a seal between the slipping ring surface 22 and knuckle 40 based on a soft gripping material coating (e.g. rubber) at the surface 22 or by the use of a sticky material such or an adhesive (e.g. contact glue). The guiding groove 20 may be provided with a lubricant 66 as shown in Figure 6A. This may be supplied in a preassembled state with the lubricant 66 already in position. The guide groove 20 may have an advantageous ratio of the width d of the opening 64 to the width D of the widened portion 23. With a sufficiently small dimension d, the lubricant may be substantially retained in the space 23, even during shipping and handling. Further, a film may be applied over the gap 64 during 7 shipping and handling. Further, according to an alternative embodiment according to Figure 6B, flaps 70 or a film or membrane thickness of material 70 is integrally formed with the sealing boot 12. In this case the lubricant 66 is injected through the membrane 70 or passes through a gap in the flaps 70. Figure 7 A - 7C show the assembly process in which a tapered surface of the pin 38 is seated in contact with the tapered surface of the knuckle 40. In Figure 7A the surface 16 is positioned over the surface 26 and the gap 64 is aligned with the ring 30 (see also Figure 8A). The ring 30 snaps into guiding groove 20 and the pin or stud 38 is advanced as shown in Figure 7B. With the movement of the stud 38 into a seated position in three opening of the knuckle 40 the sealing boot 12 applies force toward the knuckle 40. Some amount of lubricant 66 may exit the space 23 for reducing friction for relative slip between sealing boot 12 and slipping ring 14 and for improving sealing characteristics. As shown in Figure 8C, a good seal is provided based on the water ingress path 55 passing through to oil barriers 66. Figure 9 A - 9C show the assembly process in which a tapered surface of the pin 38 is seated in contact with the tapered surface of the knuckle 40 for an alternate embodiment. In the embodiment of Figures 9A - C no clamping ring is used at sealing boot end 18. Instead, the snap in connection between the sealing boot 12 and the slipping ring 14 as well as the geometry of the arrangement is such that the ring 30 grasps the sealing boot 12 and applies a radial force sufficient to replace the clamping ring. The length of the ring 30 may be a bit longer to provide a varied degree of radial pressure. The shape of the widened portion 32 may be varied for different properties such as maintaining more lubricant in the region of widened portion 32, in order to apply more radial pressure or to provide different fit aspects (snap fit). In Figure 9A the surface 16 is positioned over the surface 26 and the gap 64 is aligned with the ring 30. The ring 30 snaps into guiding groove 20 and the stud 38 is advanced as shown in Figure 9B. With the movement of the stud 38 into a seated position in the opening of the knuckle 40 the sealing boot 12 applies force toward the 8 knuckle 40. Some amount of lubricant 66 will exit the space 23, reducing friction for relative slip between sealing boot 12 and slipping ring 14 and improving sealing characteristics. The water ingress path is again through two oil barriers 66. Figure 9C shows the assembled position with the pin 38 bearing on the engagement surface 24, the bellows 12 applying force from an upper direction toward the surface 26 and the ring 30 cooperating to retain the bellows end 18 in the assembled position. While specific embodiments of the invention have been shown and described in detail to illustrate the application of the principles of the invention, it will be understood that the invention may be embodied otherwise without departing from such principles. 9 APPENDIX bellows seal arrangement or boot seal arrangement 10 boot seal/bellows seal 12 snap in slipping ring/ bellows seal element 14 housing end 15 annular surface 16 connection piece end 18 annular guiding groove 20 surface 22 widened portion 23 boot seal engaging surface 26 sliding ring portion 28 sliding ring portion 30 widened portion 32 ball 36 pin/stud 38 housing 44 connecting piece/knuckle 40 sealing boot facing surface 42 housing clamping ring 46 boot clamping ring 48 water ingress path 55 narrow entranceway/opening 64 lubricant 66 material/ flaps/ film /membrane 70 10 WE CLAIM: 1. A ball and socket joint bellows seal, comprising: a ball pivot pin with a connection piece; a bellows with an annular engagement surface with a sliding ring groove; a bellows seal element with a connection piece sealing face statically engaged with said connection piece, a radially extending sealing portion and a sliding ring portion connected to said radially extending sealing portion and extending into said sliding ring groove. 2. A bellows seal according to claim 1, wherein said radially extending sealing portion provides a static engagement with said connection piece to provide an axial seal and said sliding ring portion slides in said ring groove. 3. A bellows seal according to claim 2, wherein said radially extending sealing portion is fixed to said connection piece. 4. A bellows seal according to claim 2, wherein said sliding ring groove has a widened portion spaced axially inwardly of said substantially radially extending engagement surface and said sliding ring portion has a widened portion spaced axially inwardly of said radially extending sealing portion. 5. A bellows seal according to claim 4, further comprising lubricant disposed in said sliding ring groove. 6. A bellows seal according to claim 5, wherein said substantially radially extending engagement surface has a lubricant retaining portion defined by one of a narrowed gap and a material barrier at an entrance of said sliding ring groove, said lubricant retaining portion acting to retain at least a portion of said lubricant in said sliding ring groove in a pre- assembly state prior to 11 said sliding ring portion being inserted into said widened portion of said sliding ring groove and to form a seal in a state with said sliding ring portion inserted into said widened portion of said sliding ring groove with an amount of lubricant at each of two sealing sides of said widened portion. 7. A bellows seal according to claim 5, wherein said annular engaging surface extends substantially in a radial direction with respect to said connection piece. 8. A bellows seal according to claim 1, wherein said bellows seal element has a pivot pin sealing surface engaged with said pivot pin. 9. A bellows seal according to claim 1, further comprising a clamping ring acting on an outside of the bellows to apply force to the bellows such that the pivot pin sealing surface statically engages with said pivot pin. 10. A process for forming a ball and socket joint, the process comprising: providing a ball pivot pin seated in a ball joint housing; providing a connection part with a radially extending surface having an opening for receiving the ball pivot pin; providing a bellows with a first connection end with an annular housing connection surface and another end with an annular engagement surface having a sliding ring groove; connecting the bellows to the housing; providing a bellows seal element with a connection piece sealing face, a radially extending sealing portion and a sliding ring portion connected to said radially extending sealing portion; connecting said radially extending sealing portion of said bellows seal element to said connection part radially extending surface; 12 moving said ball pivot pin into the opening of the connection part and inserting said sliding ring portion into said sliding ring groove. 11. A process according to claim 1, wherein said radially extending sealing portion provides a static engagement with said connection piece to provide an axial seal and said sliding ring portion slides in said ring groove to provide a dynamic seal. 12. A process according to claim 11, wherein a surface of said radially extending sealing portion facing away from the radially extending surface of the connection part engages said annular engagement surface of the bellows at each side of the sliding ring groove. 13. A process according to claim 12, wherein said radially extending sealing portion is fixed to said connection piece. 3 14. A process according to claim 12, wherein said sliding ring groove has a widened portion spaced axially inwardly of said substantially radially extending engagement surface and said sliding ring portion has a widened portion spaced axially inwardly of said radially extending sealing portion. 15. A process according to claim 12, further comprising disposing lubricant in said sliding ring groove prior to inserting said sliding ring portion into said sliding ring groove. 16. A process according to claim 15, wherein said substantially radially extending engagement surface has a lubricant retaining portion defined by one of a narrowed gap and a material barrier at an entrance of said sliding ring groove, said lubricant retaining portion acting to retain at least a portion of said lubricant in said sliding ring groove in a pre- assembly state prior to said 13 sliding ring portion being inserted into said sliding ring groove and to form a seal in a state with said sliding ring portion inserted into said sliding ring groove with an amount of lubricant at each of two sealing sides of said widened portion. 17. A process according to claim 15, wherein said annular engaging surface extends substantially in a radial direction with respect to said connection piece. 18. A process according to claim 1, wherein said bellows seal element has a pivot pin sealing surface and a clamping ring is provided acting on an outside of the bellows such that the pivot pin sealing surface statically engages with said pivot pin. 19. A sealing boot, comprising: a bellows with an annular engagement surface with a sliding ring groove; a bellows seal element with a connection piece sealing face to statically engage with a joint connection part, a radially extending sealing portion and a sliding ring portion connected to said radially extending sealing portion and extending into said sliding ring groove. 20. A sealing boot according to claim 19, wherein said sliding ring groove has a widened portion spaced axially inwardly of said substantially radially extending engagement surface and further comprising lubricant disposed in said sliding ring groove. Dated this 15th day of January, 2007 14 ABSTRACT A ball and socket joint bellows seal is provided with a ball pivot pin (38) with a connection piece (40) a bellows (12) with an annular engagement surface (16) with a sliding ring groove (20) and a bellows seal element (14). The bellows seal element (14) has a connection piece sealing face (22) statically engaged with said connection piece, a radially extending sealing portion (26) and a sliding ring portion (30) connected to said radially extending sealing portion and extending into the sliding ring groove (20). To, The Controller of Patents, The Patent Office, Mumbai 15

Documents:

86-mumnp-2007-abstract(18-1-2007).pdf

86-MUMNP-2007-ABSTRACT(9-1-2009).pdf

86-mumnp-2007-abstract(granted)-(6-3-2009).pdf

86-mumnp-2007-abstract.doc

86-mumnp-2007-abstract.pdf

86-MUMNP-2007-CANCELLED PAGES(9-1-2009).pdf

86-mumnp-2007-claims(18-1-2007).pdf

86-MUMNP-2007-CLAIMS(9-1-2009).pdf

86-MUMNP-2007-CLAIMS(AMENDED)-(9-1-2009).pdf

86-mumnp-2007-claims(granted)-(6-3-2009).pdf

86-mumnp-2007-claims.doc

86-mumnp-2007-claims.pdf

86-MUMNP-2007-COPY OF US PATENT(9-1-2009).pdf

86-mumnp-2007-correspondence(19-4-2007).pdf

86-MUMNP-2007-CORRESPONDENCE(9-1-2009).pdf

86-mumnp-2007-correspondence(ipo)-(20-3-2009).pdf

86-mumnp-2007-correspondence-received.pdf

86-mumnp-2007-description (complete).pdf

86-mumnp-2007-description(complete)-(18-1-2007).pdf

86-MUMNP-2007-DESCRIPTION(COMPLETE)-(9-1-2009).pdf

86-mumnp-2007-description(granted)-(6-3-2009).pdf

86-mumnp-2007-drawing(18-1-2007).pdf

86-MUMNP-2007-DRAWING(9-1-2009).pdf

86-mumnp-2007-drawing(granted)-(6-3-2009).pdf

86-mumnp-2007-drawings.pdf

86-MUMNP-2007-FORM 1(18-1-2007).pdf

86-MUMNP-2007-FORM 1(19-4-2007).pdf

86-mumnp-2007-form 2(9-1-2009).pdf

86-mumnp-2007-form 2(complete)-(18-1-2007).pdf

86-mumnp-2007-form 2(granted)-(6-3-2009).pdf

86-MUMNP-2007-FORM 2(TITLE PAGE)-(9-1-2009).pdf

86-mumnp-2007-form 2(title page)-(complete)-(18-1-2007).pdf

86-mumnp-2007-form 2(title page)-(granted)-(6-3-2009).pdf

86-mumnp-2007-form 26(1-5-2007).pdf

86-MUMNP-2007-FORM 26(3-5-2007).pdf

86-MUMNP-2007-FORM 3(18-1-2007).pdf

86-MUMNP-2007-FORM 3(9-1-2009).pdf

86-MUMNP-2007-FORM 5(18-1-2007).pdf

86-MUMNP-2007-FORM 5(9-1-2009).pdf

86-mumnp-2007-form-1.pdf

86-mumnp-2007-form-18.pdf

86-mumnp-2007-form-2.doc

86-mumnp-2007-form-2.pdf

86-mumnp-2007-form-3.pdf

86-mumnp-2007-form-5.pdf

86-mumnp-2007-form-pct-ib-301.pdf

86-mumnp-2007-form-pct-ib-304.pdf

86-mumnp-2007-form-pct-isa-220.pdf

86-mumnp-2007-form-pct-isa-237.pdf

86-mumnp-2007-form-pct-isa-seperate sheet-237.pdf

86-mumnp-2007-pct-search report.pdf

86-mumnp-2007-wo international publication report(18-1-2007).pdf

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