Differential ball screw and nut assembly and method of obtaining relative linear motion differentially

US 5,899,114 A
Filed: 08/14/1997
Issued: 05/04/1999
Est. Priority Date: 08/14/1997
Status: Expired due to Term

First Claim

Patent Images

1. A differential ball screw and nut assembly comprising:

a. an axially and rotatably fixed nut having an internal helical groove with a first lead and a ball return;

b. a first tubular ball screw with an external helical groove having a corresponding lead cooperating with said nut groove to provide a first raceway;

c. a train of balls in said first raceway transmitting load to move said tubular ball screw rotatably and axially relative to said nut;

d. said tubular ball screw having an internal helical groove of the same hand as said external helical groove and generally coextensive therewith, with a second different reduced lead relative to said first lead providing a lead differential;

e. a second rotatably fixed, radially inner screw having an external helical groove with a lead corresponding to said second lead and cooperating with said internal groove of said tubular screw to provide a second raceway, the inner screw having an internal raceway ball return passage; and

f. a second train of load bearing balls in said second raceway transmitting load between said tubular screw and second screw to move said second screw axially differentially in the same axial direction as said tubular screw only an axial distance corresponding to the number of rotations of the tubular screw times the lead differential.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A differential ball screw and nut assembly has an axially and rotatably fixed nut with an internal helical groove having a first lead to cooperate with a tubular ball screw having an external helical groove with a corresponding lead to provide a first raceway for a train of balls. The tubular ball screw also has an internal helical groove of the same hand with a second reduced lead relative to the first lead. A second rotatably fixed, radially inner screw having an external helical groove with a lead corresponding to the second lead cooperates with the internal groove of the tubular screw to provide a second raceway. A second train of load bearing balls transmits load between the tubular screw and second screw to move the screws differentially an axial distance corresponding to the number of rotations of the tubular screw times the lead differential.

23 Citations

View as Search Results

18 Claims

1. A differential ball screw and nut assembly comprising:
- a. an axially and rotatably fixed nut having an internal helical groove with a first lead and a ball return;
  
  b. a first tubular ball screw with an external helical groove having a corresponding lead cooperating with said nut groove to provide a first raceway;
  
  c. a train of balls in said first raceway transmitting load to move said tubular ball screw rotatably and axially relative to said nut;
  
  d. said tubular ball screw having an internal helical groove of the same hand as said external helical groove and generally coextensive therewith, with a second different reduced lead relative to said first lead providing a lead differential;
  
  e. a second rotatably fixed, radially inner screw having an external helical groove with a lead corresponding to said second lead and cooperating with said internal groove of said tubular screw to provide a second raceway, the inner screw having an internal raceway ball return passage; and
  
  f. a second train of load bearing balls in said second raceway transmitting load between said tubular screw and second screw to move said second screw axially differentially in the same axial direction as said tubular screw only an axial distance corresponding to the number of rotations of the tubular screw times the lead differential.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The assembly of claim 1 wherein said second train of balls includes balls of predetermined greater diameter than the balls of said first train to provide greater load carrying capacity.
  - 3. The assembly of claim 1 including a brake operating member and wherein said inner screw is axially aligned to operate said brake actuating member.
  - 4. The assembly of claim 1 wherein said inner screw has end cap members secured to its ends and said internal raceway return passage includes a passage extending axially in said inner screw and axially inclined radially extending passages at either end of said axially extending passage leading to said external helical groove on said inner screw;
    - said axially inclined passages being partly defined by the generally axially projecting portions of said end cap members.
  - 5. The assembly of claim 1 wherein a motor having a rotary drive shaft and housing incorporates said nut and said tubular screw axially slidably connects with said drive shaft.
  - 6. The assembly of claim 1 wherein said helical grooves of said tubular screw are generally co-axial.

7. A method of operating a differential ball nut and screw assembly incorporating an axially and rotatable fixed nut;
- a tubular drive screw having an externally helical groove providing a first raceway with said nut and a generally co-extensive internal helical groove;
  
  a rotatably fixed inner actuator screw received in said tubular drive screw and having an external helical groove forming a second raceway with said internal groove of the drive screw; and
  
  a first ball train in said first raceway and a second ball train in said second raceway comprising;
  
  a. providing said tubular screw with external and internal helical grooves of the same hand but different lead, with the lead of the internal groove being reduced to provide a lead differential between said external and internal grooves;
  
  b. moving said tubular drive screw in one axial direction by revolving it relative to said axially and rotatably fixed ball nut;
  
  c. providing said actuator screw external groove with a reduced lead corresponding to said reduced lead of the internal groove of the tubular drive screw;
  
  d. internally carrying said actuator screw axially along with the tubular screw; and
  
  e. utilizing a recirculating ball train between said internal groove of the tubular screw and exterior groove of the inner actuator screw to differentially change axial movement of said inner actuator screw relative to the axial movement of said tubular screw and move said inner screw an axial distance corresponding only to the number of rotations of the tubular screw times the lead differential.
- View Dependent Claims (8, 9)
- - 8. The method of claim 7 comprising providing said actuator screw with a partly axial internal raceway return passage communicating with said exterior helical groove of the actuator screw, and recirculating said ball train therethrough.
  - 9. The method of claim 8 comprising rotatably connecting a motor drive shaft to said tubular screw in a manner to permit relative axial movement of said tubular screw and drive shaft as they co-rotate.

10. A dual screw differential ball screw and nut assembly comprising:
- a. an axially and rotatably fixed nut having an internal helical groove with a first lead;
  
  b. a first tubular ball screw with an external helical groove having a corresponding lead cooperating with said nut groove to provide a first raceway;
  
  c. a train of balls in said first raceway;
  
  d. said tubular ball screw having an internal helical groove generally coextending with and of the same hand as said external helical groove, with a second different lead relative to said first lead;
  
  e. a second rotatably fixed, radially inner screw having an external helical groove with a lead corresponding to said second lead and cooperating with said internal groove of said tubular screw to provide a second raceway; and
  
  f. a second train of load bearing balls received in said second raceway to transmit load to move said screws axially in the same direction differentially.
- View Dependent Claims (11, 12, 13)
- - 11. The assembly of claim 10 wherein said first and second raceways are generally coextensive.
  - 12. The assembly of claim 11 wherein said inner screw has an internal ball return passage.
  - 13. The assembly of claim 10 wherein balls in said second train are of a predetermined greater diameter than balls in said first train.

14. A method of making a differential ball screw and nut assembly comprising the steps of:
- a. providing a tubular ball screw having generally co-axial differential lead helical groove portions of the same hand externally and internally, the lead of the internal groove being reduced relative to the external groove;
  
  b. inserting an inner screw, having an external helical groove with a lead corresponding to said reduced lead of said internal helical groove portion of the tubular screw to form an inner raceway, into said tubular screw;
  
  c. loading a train of abutting recirculating load transfer balls to said inner raceway;
  
  d. providing a fixed ball nut having an internal helical groove corresponding to and forming an outer raceway with said external groove portion on said tubular screw and loading a train of abutting recirculating load transfer balls to said outer raceway; and
  
  e. fixing said inner screw from rotating while permitting it to translate.
- View Dependent Claims (15, 16, 17, 18)
- - 15. The method of claim 14 wherein the balls loaded to said inner raceway are of greater diameter than the balls loaded to said outer raceway.
  - 16. The method of claim 14 comprising forming an internal ball return passage in said inner screw which has an axial component and axially inclined radially extending end components leading to said external groove on the inner screw.
  - 17. The method of claim 14 comprising rotatably connecting a rotary drive shaft to said tubular screw such as to permit axial movement of said screw relative to said drive shaft as they co-rotate.
  - 18. The method of claim 15 comprising axially aligning said inner screw with a brake actuating member.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Thomson Saginaw Ball Screw Company, LLC
Original Assignee
Thomson Saginaw Ball Screw Company, LLC
Inventors
Sepesi, David A., Lange, Greg F., Dolata, Randy W.
Primary Examiner(s)
Herrmann, Allan D.

Application Number

US08/916,910
Time in Patent Office

628 Days
Field of Search

74/424.8 B, 74/459
US Class Current

74/424.85
CPC Class Codes

F16D 2125/405   with differential thread

F16H 2025/2075   Coaxial drive motors

F16H 25/2056   Telescopic screws with at l...

F16H 25/2204   with balls

F16H 25/2228   the device for circulation ...

Y10T 74/19763   Roller return path in shaft

Differential ball screw and nut assembly and method of obtaining relative linear motion differentially

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

23 Citations

18 Claims

Specification

Solutions

Use Cases

Quick Links

Differential ball screw and nut assembly and method of obtaining relative linear motion differentially

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

23 Citations

18 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links