Title of Invention	"A STEER AXEL AND A METHOD OF FORMING THE SAME"
Abstract	A steer axle comprising: an axle body having a pair of spaced ends, said axle body being generally hollow at each of said pair of spaced ends; an insert inserted into at least one of said pair of spaced ends; an aperture formed within at least one wall of said at least one of said pair of spaced ends, and through at least a portion of said insert; and a king pin mounted within said aperture. FIG. 1

Title of Invention

"A STEER AXEL AND A METHOD OF FORMING THE SAME"

Abstract

A steer axle comprising: an axle body having a pair of spaced ends, said axle body being generally hollow at each of said pair of spaced ends; an insert inserted into at least one of said pair of spaced ends; an aperture formed within at least one wall of said at least one of said pair of spaced ends, and through at least a portion of said insert; and a king pin mounted within said aperture. FIG. 1

Full Text	The present invention relates to a steer axle and a method of forming the same. This application relates to the use of a solid insert plug at an end of a hollow axle to provide a mount location for a king pin. ' Hollow axles are known, and are utilized in vehicles to provide various benefits. The hollow axle provides a lightweight alternative to solid axles. One challenge with a hollow axle is the provision of components at the end of the axle that are to be mounted to the axle. As an example, king pins are typically mounted at the end of axles for heavy vehicles, and provide a pivot axis for steering associated wheels. One family of methods of forming hollow axles to have structure at their ends is disclosed in co-pending United States Application Serial No. 10/056,945. This application, invented by the inventor of the present application, discloses a family of methods of forming axles, and for attaching structure at the end of the axles. Among the structures that may be attached are various king pin mount structures. Some of these methods may be cumbersome, and somewhat difficult to achieve in production. Thus, a simpler manner of providing a mount location for a king pin would be desirable. SUMMARY OF THE INVENTION A hollow formed axle is provided with a plug insert at each of its two ends. The plug insert has a hole, as do outer walls of the hollow formed axle. A king pin is inserted through these holes. Other holes receive draw keys (bolts) to lock the king pin within the plug insert and hollow formed axle. By providing this insert with aligned holes, the present invention provides a relatively simple manner of attaching a king pin mount structure to a hollow axle, without unduly complicating the manufacture of the hollow axle. These and other features of the present invention can be best understood from the following specification and drawings, the following of which is a brief description, BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a highly schematic view of an axle mounting a steering knuckle assembly. Figure 2 is an end view along line 2-2 of Figure 1. Figure 3 is a side view of the axle of Figure 1. Figure 4 is a top view of Figure 1. Figure 5A is a first step in the manufacture of the inventive axle. Figure 5B shows a subsequent step. Figure 5C shows yet another subsequent step. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A steer axle 20 is illustrated in Figure 1 that mounts a king pin 22 at an end section 24. The steer axle 20 is preferably formed as a hollow axle from a tubular or other shaped component. As shown, steer axle 20 has a first relatively large dimension section 19, angled sections 21, and then the smaller end section 24. A steering knuckle 26 is mounted on the king pin 22, as known. The steering knuckle 26 turns with an associated vehicle wheel, as known. A stop pin 128 is mounted in a side face of the axle 20 and serves as a stop for the steering knuckle 26 to limit the range of rotation, As shown in Figure 2, the end section 24 preferably has a rectangular shape with top and bottom walls 32 and side walls 30. Inner periphery 34 is defined by the top and bottom walls 32 and the side walls 30. Preferably, the end section 24 is formed on a mandrel and may be drawn or formed over the mandrel. A tube may be used as a starting point for forming the steer axle 20. The tube may be seamless, seam welded or formed of some other tube forming technique. Figure 3 is a side view of the steer axle 20. As shown, an insert 40 is force fit into end section 24 of the steer axle 20, and extends to an inner extent 42. It should be understood that a similar end section 24 and insert 40 is found on an opposed end of the steer axle 20 (i.e., to the right of Figure 1). As also shown in Figure 3, a hole 44 extends through the top and bottom walls 32, and through the insert 40 (hole 144, see Figure 5A). Further, draw key holes 46 extend through the side walls 30 and the insert 40 (draw key holes 146, see Figure 5A). Also shown, an aperture 28 in one of the side wall 30 of the steer axle 20 will receive the stop pin 128. As can be appreciated from Figure 4, the top wall 32 has the hole 44 extending therethrough. The draw key holes 46 are shown as lines in this figure. As shown in Figure 5A, the end section 24 of the steer axle 20 is initially formed as a hollow part. Any manner of manufacturing the steer axle 20, such as those disclosed in the above-referenced co-pending United States application may be utilized. The insert 40 is then inserted into the end section 24. The hole 144 in the insert 40 is aligned with the hole 44 in the end section 24. The hole 144 in the insert 40 comprises a king pin hole that receives the king pin 22. As can be appreciated from Figure 5A, the insert 40 also has the draw key holes 146 extending transversely to an axis of the hole 144, and which at least partially intersect the hole 144. The draw key holes 146 in the insert 40 comprise bolt holes for receiving bolts 246. As shown in Figure 5B, the next step is to insert the king pin 22 into the holes 44 and 144. As can be appreciated, small notches 122 are formed in the king pin 22. As shown in Figure 5C, once the king pin 22 is inserted into the holes 44 and 144, the bolts 246 may be inserted into the draw key holes 46, and also extend through the draw key holes 146 in the insert 40. As known, these bolts 246 catch within the notches 122, and thus lock the king pin 22 within the end section 24. The Figure 5A steps and the Figures 5B and 5C steps could be performed at different locations. In this manner, a method of securely mounting the king pin within the end of a hollow axle is provided. This method is much simpler to manufacture than prior methods, and provides valuable benefits. Although a preferred embodiment of this invention has been disclosed, a worker of ordinary skill in this art would recognize that certain modifications would come within the scope of this invention. For that reason, the following claims should be studied to determine the true scope and content of this invention. WE CLAIM: 1. A steer axle comprising: an axle body having a pair of spaced ends, said axle body being generally hollow at each of said pair of spaced ends; an insert inserted into at least one of said pair of spaced ends; and an aperture formed within at least one wall of said at least one of said pair of spaced ends, and through at least a portion of said insert, said aperture being adapted for mounting a king pin therein. 2. The steer axle as claimed in claim 1, wherein said aperture is formed through both of a top and bottom wall of said axle body, and entirely through said insert. 3. The steer axle as claimed in claim 1, wherein at least one draw key hole is formed through said axle body and said insert, said at least one draw key hole intersecting said aperture within said insert, and including a lock member inserted through said at least one draw key hole to lock said king pin within said aperture. 4. The steer axle as claimed in claim 3, wherein said at least one draw key hole comprises a pair of draw key holes each including one lock member. 5. The steer axle as claimed in claim. 1, wherein each end of said pair of spaced ends includes said insert and king pin. 6. A steer axle as claimed in claim 1, wherein a king pin received within said aperture. 7. The steer axle as claimed in claim 11, wherein a king pin is mounted within said aperture. 8. The steer axle as claimed in claim 12, wherein said aperture is formed through both of a top and bottom wall of said axle body, and entirely through said insert. 9. The steer axle as claimed in claim 12, wherein at least one draw key hole is formed through said axle body and said insert, said at least one draw key hole intersecting said aperture within said insert, and including a lock member inserted through said at least one draw key hole to lock said king pin within said aperture. 10. The steer axle as claimed in claim 14, wherein said at least one draw key hole comprises a pair of draw key holes each including one lock member. 11. The steer axle as claimed in claim 11, wherein each end of said pair of spaced ends includes said insert and king pin. 12. A method of forming a steer axle including the steps of: (1) providing a hollow axle body having a pair of spaced ends, said hollow axle body being generally hollow at each of said pair of spaced ends; (2) inserting an insert into each end of said pair of spaced ends; and (3) providing an aperture within at least one wall at each end of said pair of spaced ends, and through at least a portion of each of said inserts. 13. The method as claimed in claim 6, including forming said apertures through both of a top and bottom wall of the hollow axle body, and entirely through each of said inserts. 14. The method as claimed in claim 6, including inserting a king pin into each of said apertures. 15. The method as claimed in claim 8, including forming at least one draw key hole through the hollow axle body and insert at each end of said pair of spaced ends intersecting said apertures within said inserts, and inserting a lock member through each of said draw key holes to lock said king pins within said apertures. 16. The method as claimed in claim 9, wherein said at least one thaw key hole comprises a pair of draw key holes at each end, and including inserting a lock member through each draw key hole.

Full Text

The present invention relates to a steer axle and a method of forming the same.
This application relates to the use of a solid insert plug at an end of a hollow axle to provide a mount location for a king pin.
' Hollow axles are known, and are utilized in vehicles to provide various benefits. The hollow axle provides a lightweight alternative to solid axles.
One challenge with a hollow axle is the provision of components at the end of the axle that are to be mounted to the axle. As an example, king pins are typically mounted at the end of axles for heavy vehicles, and provide a pivot axis for steering associated wheels.
One family of methods of forming hollow axles to have structure at their ends is disclosed in co-pending United States Application Serial No. 10/056,945. This application, invented by the inventor of the present application, discloses a family of methods of forming axles, and for attaching structure at the end of the axles. Among the structures that may be attached are various king pin mount structures.
Some of these methods may be cumbersome, and somewhat difficult to achieve in production. Thus, a simpler manner of providing a mount location for a king pin would be desirable.
SUMMARY OF THE INVENTION
A hollow formed axle is provided with a plug insert at each of its two ends. The plug insert has a hole, as do outer walls of the hollow formed axle. A king pin is inserted through these holes. Other holes receive draw keys (bolts) to lock the king pin within the plug insert and hollow formed axle. By providing this insert with aligned holes, the present invention provides a relatively simple manner of attaching a king pin mount structure to a hollow axle, without unduly complicating the manufacture of the hollow axle.

These and other features of the present invention can be best understood from the following specification and drawings, the following of which is a brief description,
BRIEF DESCRIPTION OF THE DRAWINGS
Figure 1 is a highly schematic view of an axle mounting a steering knuckle assembly.
Figure 2 is an end view along line 2-2 of Figure 1.
Figure 3 is a side view of the axle of Figure 1.
Figure 4 is a top view of Figure 1.
Figure 5A is a first step in the manufacture of the inventive axle.
Figure 5B shows a subsequent step.
Figure 5C shows yet another subsequent step.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
A steer axle 20 is illustrated in Figure 1 that mounts a king pin 22 at an end section 24. The steer axle 20 is preferably formed as a hollow axle from a tubular or other shaped component. As shown, steer axle 20 has a first relatively large dimension section 19, angled sections 21, and then the smaller end section 24. A steering knuckle 26 is mounted on the king pin 22, as known. The steering knuckle 26 turns with an associated vehicle wheel, as known. A stop pin 128 is mounted in a side face of the axle 20 and serves as a stop for the steering knuckle 26 to limit the range of rotation,
As shown in Figure 2, the end section 24 preferably has a rectangular shape with top and bottom walls 32 and side walls 30. Inner periphery 34 is defined by the top and bottom walls 32 and the side walls 30.
Preferably, the end section 24 is formed on a mandrel and may be drawn or formed over the mandrel. A tube may be used as a starting point for forming the steer axle 20. The tube may be seamless, seam welded or formed of some other tube forming technique.
Figure 3 is a side view of the steer axle 20. As shown, an insert 40 is force fit into end section 24 of the steer axle 20, and extends to an inner extent 42. It
should be understood that a similar end section 24 and insert 40 is found on an opposed end of the steer axle 20 (i.e., to the right of Figure 1). As also shown in Figure 3, a hole 44 extends through the top and bottom walls 32, and through the insert 40 (hole 144, see Figure 5A). Further, draw key holes 46 extend through the side walls 30 and the insert 40 (draw key holes 146, see Figure 5A). Also shown, an aperture 28 in one of the side wall 30 of the steer axle 20 will receive the stop pin 128.
As can be appreciated from Figure 4, the top wall 32 has the hole 44 extending therethrough. The draw key holes 46 are shown as lines in this figure.
As shown in Figure 5A, the end section 24 of the steer axle 20 is initially formed as a hollow part. Any manner of manufacturing the steer axle 20, such as those disclosed in the above-referenced co-pending United States application may be utilized. The insert 40 is then inserted into the end section 24. The hole 144 in the insert 40 is aligned with the hole 44 in the end section 24. The hole 144 in the insert 40 comprises a king pin hole that receives the king pin 22. As can be appreciated from Figure 5A, the insert 40 also has the draw key holes 146 extending transversely to an axis of the hole 144, and which at least partially intersect the hole 144. The draw key holes 146 in the insert 40 comprise bolt holes for receiving bolts 246.
As shown in Figure 5B, the next step is to insert the king pin 22 into the holes 44 and 144. As can be appreciated, small notches 122 are formed in the king pin 22. As shown in Figure 5C, once the king pin 22 is inserted into the holes 44 and 144, the bolts 246 may be inserted into the draw key holes 46, and also extend through the draw key holes 146 in the insert 40. As known, these bolts 246 catch within the notches 122, and thus lock the king pin 22 within the end section 24. The Figure 5A steps and the Figures 5B and 5C steps could be performed at different locations.
In this manner, a method of securely mounting the king pin within the end of a hollow axle is provided. This method is much simpler to manufacture than prior methods, and provides valuable benefits.
Although a preferred embodiment of this invention has been disclosed, a worker of ordinary skill in this art would recognize that certain modifications would
come within the scope of this invention. For that reason, the following claims should be studied to determine the true scope and content of this invention.

WE CLAIM:
1. A steer axle comprising:
an axle body having a pair of spaced ends, said axle body being generally
hollow at each of said pair of spaced ends;
an insert inserted into at least one of said pair of spaced ends; and
an aperture formed within at least one wall of said at least one of said pair of
spaced ends, and through at least a portion of said insert, said aperture being adapted
for mounting a king pin therein.
2. The steer axle as claimed in claim 1, wherein said aperture is formed through both of a top and bottom wall of said axle body, and entirely through said insert.
3. The steer axle as claimed in claim 1, wherein at least one draw key hole is formed through said axle body and said insert, said at least one draw key hole intersecting said aperture within said insert, and including a lock member inserted through said at least one draw key hole to lock said king pin within said aperture.
4. The steer axle as claimed in claim 3, wherein said at least one draw key hole comprises a pair of draw key holes each including one lock member.
5. The steer axle as claimed in claim. 1, wherein each end of said pair of spaced ends includes said insert and king pin.
6. A steer axle as claimed in claim 1, wherein a king pin received within said aperture.
7. The steer axle as claimed in claim 11, wherein a king pin is mounted within said aperture.
8. The steer axle as claimed in claim 12, wherein said aperture is formed through both of a top and bottom wall of said axle body, and entirely through said insert.
9. The steer axle as claimed in claim 12, wherein at least one draw key hole is formed through said axle body and said insert, said at least one draw key hole intersecting said aperture within said insert, and including a lock member inserted through said at least one draw key hole to lock said king pin within said aperture.
10. The steer axle as claimed in claim 14, wherein said at least one draw key hole comprises a pair of draw key holes each including one lock member.
11. The steer axle as claimed in claim 11, wherein each end of said pair of spaced ends includes said insert and king pin.
12. A method of forming a steer axle including the steps of:

(1) providing a hollow axle body having a pair of spaced ends, said hollow axle body being generally hollow at each of said pair of spaced ends;
(2) inserting an insert into each end of said pair of spaced ends; and
(3) providing an aperture within at least one wall at each end of said pair of spaced ends, and through at least a portion of each of said inserts.

13. The method as claimed in claim 6, including forming said apertures through both of a top and bottom wall of the hollow axle body, and entirely through each of said inserts.
14. The method as claimed in claim 6, including inserting a king pin into each of said apertures.
15. The method as claimed in claim 8, including forming at least one draw key hole through the hollow axle body and insert at each end of said pair of spaced ends intersecting said apertures within said inserts, and inserting a lock member through each of said draw key holes to lock said king pins within said apertures.
16. The method as claimed in claim 9, wherein said at least one thaw key hole comprises a pair of draw key holes at each end, and including inserting a lock member through each draw key hole.

Documents:

1505-DEL-2006-Abstract-(29-06-2009).pdf

1505-del-2006-abstract.pdf

1505-DEL-2006-Claims-(29-06-2009).pdf

1505-del-2006-claims.pdf

1505-del-2006-correspondence-other.pdf

1505-DEL-2006-Correspondence-Others-(29-06-2009).pdf

1505-DEL-2006-Description (Complete)-(29-06-2009).pdf

1505-del-2006-description (complete).pdf

1505-DEL-2006-Drawings-(29-06-2009).pdf

1505-del-2006-drawings.pdf

1505-DEL-2006-Form-1-(29-06-2009).pdf

1505-del-2006-form-1.pdf

1505-del-2006-form-18.pdf

1505-DEL-2006-Form-2-(29-06-2009).pdf

1505-del-2006-form-2.pdf

1505-del-2006-form-26.pdf

1505-del-2006-form-3.pdf

1505-del-2006-form-5.pdf

1505-DEL-2006-GPA-(29-06-2009).pdf

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Patent Number

240399

Indian Patent Application Number

1505/DEL/2006

PG Journal Number

20/2010

Publication Date

14-May-2010

Grant Date

07-May-2010

Date of Filing

27-Jun-2006

Name of Patentee

ARVINMERITOR TECHNOLOGY, LLC.

Applicant Address

2135 WEST MAPLE, TROY, MICHIGAN 48084, UNITED STATES OF AMERICA

Inventors:

#	Inventor's Name	Inventor's Address
1	DAVID K. PLATNER	8999 SHELBY WOODS DRIVE, SHELBY, MICHIGAN 48317-2556, USA

PCT International Classification Number

G02C 1/08

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	11/340,290	2006-01-26	U.S.A.