No-lash telescoping steering shaft

US 4,418,582 A
Filed: 06/04/1981
Issued: 12/06/1983
Est. Priority Date: 06/04/1981
Status: Expired due to Fees

First Claim

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1. An axially elongatable shaft comprising first and second elongate parts, one of which is axially movable with respect to the other of said parts, said first part being polygonal or noncircular in transverse cross section, and said second part having a substantially corresponding polygonal or noncircular bore therein for receiving said first part, and axially movable means extending from one end of said first part to an opposite end of said first part, said axially movable means being operatively engageable with said first and second parts for causing a moment therebetween substantially about said first part one end in a first axial plane upon axial movement of said means to thereby resist side-to-side and axial relative movement of said first and second parts in said first axial plane, said moment also urging said axially movable means into engagement with said first part substantially at said opposite end to resist side-to-side movement therebetween.

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Abstract

A no-lash telescoping steering shaft (10) comprises first and second telescopically arranged parts (12, 18) which are configured to transmit torque therebetween. The first and second parts carry an axially and radially movable locking piece (68) engaging the first and second parts at points which are axially spaced apart. The locking piece is coupled for axial movement with the inner of the two parts and frictionally engages the outer part to prevent relative axial movement thereof. Because the locking piece engages the first and second parts at axially spaced points, it creates a moment therebetween. The moment opposes side-to-side relative movement of the two parts in a first axial plane. The moment also urges cooperating surface (86, 88) of the two parts into engagement. The cooperating surfaces resist side-to-side relative movement of the two parts in a second axial plane which is substantially perpendicular to the first plane and also eliminate rotational lash from the steering shaft.

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10 Claims

1. An axially elongatable shaft comprising first and second elongate parts, one of which is axially movable with respect to the other of said parts, said first part being polygonal or noncircular in transverse cross section, and said second part having a substantially corresponding polygonal or noncircular bore therein for receiving said first part, and axially movable means extending from one end of said first part to an opposite end of said first part, said axially movable means being operatively engageable with said first and second parts for causing a moment therebetween substantially about said first part one end in a first axial plane upon axial movement of said means to thereby resist side-to-side and axial relative movement of said first and second parts in said first axial plane, said moment also urging said axially movable means into engagement with said first part substantially at said opposite end to resist side-to-side movement therebetween.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The invention of claim 1 wherein said first part includes a surface which is angulated with respect to the axis of said first part, said axially movable means including mating surface means for engaging said angulated surface to move said axially movable means radially in response to axial movement of the latter, said axially movable means including a radially extending projection slidably and frictionally engaging said bore of said second part at a point which is axially spaced from the point of engagement of said angulated surface and said mating surface means and said point is also axially spaced from said first part.
  - 3. The invention of claim 2 wherein said angulated surface is defined by an axially extending conical bore on said first part, said axially movable means including a cone-shaped portion which is slidably received in said conical bore, said radially extending projection moving said cone-shaped portion radially so that the axis of the latter is displaced from the axis of said conical bore, said cone-shaped portion slidably engaging said conical bore diametrically oppositely from said radially extending projection.
  - 4. The invention of claim 2 wherein said radially extending projection defines a radially outer surface which substantially conforms to a circumferential portion of said bore of said second part.
  - 5. The invention of claim 2 wherein said first part defines axially extending surfaces which intersect to define a substantially V-shaped external corner on said first part, said second part defining axially extending surfaces which intersect to define a V-shaped internal corner on said bore which substantially coincides with said V-shaped external corner, said internal and external corners lying substantially in said first axial plane and diametrically oppositely from said radially extending projection, said moment forcing said V-shaped corners into engagement with one another to substantially eliminate rotational lash from said shaft.

6. A no-lash telescoping steering shaft comprising an elongate first shaft-part derfining an axially extending bore therein, said axially extending bore being polygonal in transverse cross section, a second shaft part defining an elongate portion which is slidably received in said axially extending bore for reciprocation along the axis thereof, said elongate portion of said second part being polygonal in transverse cross section and substantially coinciding to said polygonal bore to couple said first and said second parts for rotation in unison, and means for frictionally coupling said first and second parts to prevent relative axial motion thereof while eliminating lash from said steering shaft, characterized by said frictional coupling means including said second shaft part defining an axially extending through bore, said through bore including a tapered section tapering outwardly to an opening on the elongate portion of said second part within said axially extending bore of said first part, an elongate locking part slidably received in said through bore for reciprocation along the axis thereof, said elongate locking part including a tapered portion received in and slidably engaging said tapered through bore section, said elongate locking part further including an axially and radially extending projection defining a radially outer surface slidably engaging and substantially coinciding with a circumferential portion of said polygonal bore of said first shaft part, said radially extending projection extending diametrically oppositely from a substantially V-shaped internal corner defined by said polygonal bore of said first shaft part, and the engagement of said radially extending projection with said polygonal bore of said first part being spaced axially from the engagement of said tapered portion with said tapered through bore section, and means for forcing said tapered portion axially into said tapered through bore section in response to an operator input, whereby said tapered locking part portion cooperates with said tapered bore section to force said radially extending projection into frictional engagement with said polygonal bore to prevent relative axial movement of said first and second shaft parts, reaction forces forcing said second shaft part into said V-shaped corner to eliminate rotational lash and side-to-side relative movement of said shaft parts in a first axial plane, said reaction forces also creating a moment between said shaft parts eliminating side-to-side relative movement of said shaft parts in a second axial plane which is perpendicular to said first axial plane.
- View Dependent Claims (7)
- - 7. The invention of claim 6 wherein said means for forcing said tapered portion axially into said tapered through bore section includes an elongate shank connecting at its one end to said locking part and projecting at its other end from said through bore, and means for co-acting with said shank and second part for moving said shank relative to said second part in response to an operator input.

8. An axially movable steering shaft comprising:
- a first elongate part including means at one end thereof for torque-transmitting connection to a steering gear, said first part defining an axial bore opening on the other end thereof, said bore being substantially polygonal in transverse cross section;
  
  a second elongate part including means at one end thereof for carrying and drivingly coupling with a steering wheel, said second part including an elongate portion slidably received in said bore for reciprocation along the axis thereof, said elongate portion being substantially polygonal in transverse cross section and substantially coinciding with said bore to couple said first and second parts for rotation in unison;
  
  said second part defining an axially extending through bore opening on the ends thereof, said through bore including a conical section tapering axially outwardly to the one of said openings within said first part;
  
  an elongate locking piece movably received in said through bore, said locking piece including a conical portion received into and substantially correlating with said conical section of said through bore, said conical portion carrying an axially and radially extending projection;
  
  said axially and radially extending projection defining a radially outer surface slidably engaging and substantially coinciding with a circumferential segment of said polygonal bore of said first part, said circumferential segment of said polygonal bore including at least two axially extending surfaces which are non parallel in transverse cross section, said axially extending surfaces cooperating to define a first internal cusp on said circumferential segment and said projection cooperating with said first cusp to substantially prevent rotation of said locking piece relative to said first part;
  
  said locking piece extending from said through bore at the end thereof opposite from said conical section and defining a threaded portion;
  
  a rotatable member threadably engaging said threaded locking piece portion and engaging said second part, rotation of said rotatable member drawing said conical portion into said conical bore section;
  
  said conical portion slidably engaging said conical bore section diametrically oppositely from and axially spaced from said radially extending projection to provide a radially directed force moving said radially outer surface into frictional engagement with said polygonal bore to prevent relative axial movement of said first and second parts in response to rotation of said rotatable member which draws said conical portion into said conical bore section, the point of engagement of said conical portion with said conical bore section defining a first axial plane in cooperation with the axis of said polygonal bore, said polygonal bore defining a second internal cusp lying substantially in said first axial plane diametrically opposite said first cusp, and radially directed reaction forces moving a corresponding external cusp defined on said second part into engagement with said second cusp to eliminate rotational lash from said steering shaft.
- View Dependent Claims (9, 10)
- - 9. The invention of claim 8 wherein said radially directed force and reaction force create a moment on said second part, said moment lying in said first axial plane and moving said second part into engagement with said first part to eliminate side-to-side relative movement thereof in said first plane.
  - 10. The invention of claim 8 or 9 wherein said first and second external cusp lie substantially in said first axial plane, said first and second cusp in response to said moment cooperating with corresponding external cusp defined on said second part to substantially eliminate side-to-side relative movement of said first and second parts in an axial plane which is substantially perpendicular to said first axial plane.

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Litigation Campaign Assessment

Current Assignee
The Bendix Corporation (Honeywell International Inc.)
Original Assignee
The Bendix Corporation (Honeywell International Inc.)
Inventors
Martin, Michael D.
Primary Examiner(s)
Herrmann, Allan D.

Application Number

US06/270,448
Time in Patent Office

915 Days
Field of Search

74/493, 74/531, 280/278, 280/279, 280/775, 403/374
US Class Current

74/493
CPC Class Codes

B62D 1/184   Mechanisms for locking colu...

B62D 1/185   adjustable by axial displac...

Y10T 403/7069   Axially oriented

Y10T 74/2066   Friction

Y10T 74/20834   Hand wheels

No-lash telescoping steering shaft

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

20 Citations

10 Claims

Specification

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No-lash telescoping steering shaft

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

20 Citations

10 Claims

Specification

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Use Cases

Quick Links

Others