Claims
- 1. In a drive tool comprising means to engage an axially moveable first fastener component and supporting means for the engagement means, said engagement means moveable axially with the first fastener component relative to a fastening installation,
- sensing means on the drive tool adapted to move axially relative to the engagement means and to simultaneously remain stationary relative to the fastening installation as the engagement means tightens the first fastener component into the fastening installation, said relative movement of the sensing means signifying the deflection of a second fastener component as the first fastener component is tightened,
- means in the drive tool urging the sensing means axially in opposition to the relative movement of the sensing means,
- and a sensor on the drive tool adapted to externally communicate the relative movement of the sensing means.
- 2. The drive tool of claim 1 wherein the sensing means comprises a sleeve surrounding the engagement means.
- 3. The drive tool of claim 1 including universal joint means in the supporting means and connected to the engagement means to permit the engagement means to accommodate angular misalignment of the first fastener component, and
- means engaging the sensing means and sensor to accommodate angular misalignment of the sensing means to the axis of the drive tool.
- 4. The drive tool of claim 3 wherein the sensing means is mechanically constrained to angularly move with the engagement means.
- 5. A validator comprising a load cell adapted to mimic a fastener installation, a plunger adapted to mimic a fastener engagement means axial movement, a sensor sleeve adapted to mimic the sensing means of a drive tool, an indicator adapted to communicate relative movement of the sensor sleeve to the plunger and means to actuate the plunger whereby with a fastener inserted between the load cell and the plunger the deflection of the fastener can be determined from the indicator and the corresponding axial clamping force can be determined from the load cell.
- 6. The validator of claim 5 including a force monitor in communication with the load cell and a statistical analyzer in communication with the force monitor and the indicator whereby a plurality of fasteners can be sequentially tested for clamping force versus deflection relationships and a statistical clamping force versus deflection relationship for the plurality of fasteners obtained.
- 7. The validator of claim 6 including a printer in communication with the statistical analyzer to print out the statistical clamping force versus deflection relationship for the plurality of fasteners.
Parent Case Info
This application is a national divisional application arising from international application PCT/US 93/04661, filed May 14, 1993. Reference is also made to related U. S. patent application Ser. No. 07/730,643, filed Jul. 16, 1991, now U. S. Pat. No. 5,211,061, issued May 18, 1993.
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
102e Date |
371c Date |
PCT/US93/04661 |
5/14/1993 |
|
|
1/13/1995 |
1/13/1995 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO94/27126 |
11/24/1994 |
|
|
US Referenced Citations (8)
Foreign Referenced Citations (2)
Number |
Date |
Country |
373658 |
Mar 1977 |
JPX |
27126 |
Nov 1994 |
WOX |
Non-Patent Literature Citations (3)
Entry |
Patent Abstracts of Japan Grp M649, vol. 11, No. 377, Abs Pub. Date Dec. 9, 1987 (G2-148128) Hisakado "Screw Fastening Device". |
Patent Abstracts of Japan Grp M1017, Vol. 14, No. 399 Abs Pub. Date Aug. 29, 1990 (2-152734) Tomita et al. "Measuring Device for Axial Tension of Bolt Fastening". |
Patent Abstracts of Japan Grp M1400, vol. 17, No. 206 Abs Pub Date Apr. 22, 1993 (4-348878) Tsuji et al. "Bolt Fastening Tool White(Which) Can Measure Axial Force of Bolt". |