Tools – Wrench – screwdriver – or driver therefor – Having work engaging and force exerting portion inserted...
Reexamination Certificate
1999-07-19
2002-04-09
Scherbel, David A. (Department: 3723)
Tools
Wrench, screwdriver, or driver therefor
Having work engaging and force exerting portion inserted...
C081S460000, C081S452000
Reexamination Certificate
active
06367358
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to drive systems for threaded fasteners, tools for their manufacture and drivers for driving the fasteners.
BACKGROUND OF THE INVENTION
Threaded fasteners commonly used in industrial applications typically are driven by power tools at high speeds and under high torque loads. Such conditions present difficult design considerations, particularly with respect to the drive systems and, more particularly, with threaded fasteners having a driver engageable recess in the fastener head. Ideally, such a drive system should be easily manufactured, both as to recess and head geometry as well as to associated tooling for forming the fastener head and drivers for engaging the recess. The strength of the head of the fastener should not be adversely affected by the recess. The driver should be easily insertable into and easily withdrawn from the recess. The driver and recess, when mated, should distribute the stress loads uniformly to avoid formation of highly localized regions of stress that might result in deformation of the recess, or driver, or both, leading to premature failure of the drive system. The drive system should resist cam-out of the driver from the recess when the fastener is driven. In many applications, it is very important that the fastener must be capable of withstanding several cycles, as in applications where the fasteners must be removed in order to repair or replace parts or to remove and replace access panels. The fastener drive system ideally should be capable of such repeated cycling, particularly in environments where the recess may become contaminated, painted, corroded or otherwise adversely affected in use. In such environments, it is essential that the drive system maintain driving engagement while applying torque in a removal direction. It may be necessary for the drive system to be capable of applying even higher levels of torque when removing the fastener, as may occur when the fastener is over-torqued during initial assembly, or where corrosion develops at the interface at the engaged threads, or if thermal cycling of the assembled components has placed increased stress on the fastener. Where one or more of these, and other, characteristics may present competing considerations, compromises of one in favor of another may be made.
A variety of recess and driver configurations are in common use, including a number of cross-recesses, such as those described in U.S. Pat. No. 24,878 (Smith et al.); U.S. Pat. No. 3,237,506 (Muenchinger) and U.S. Pat. No. 2,474,994 (Tomalis). Other fastener geometries include multi-lobe geometries of the type described in U.S. Pat. No. 3,763,725 (Reiland) and ribbed drive systems as described in U.S. Pat. No. 4,187,892 (Simmons). Also among the common recess configurations is the Allen system which is essentially a straight walled hexagonally shaped socket receptive to a similarly shaped driver. With the exception of the ribbed systems, the walls and faces of the driver and recess typically are designed to fit closely with each other in an effort to achieve face-to-face contact of the driving and driven surfaces. With cross-recess fasteners, such face-to-face engagement can occur only, if at all, when the driver is properly aligned and seated within the recess. As a practical matter, however, in order to enable the driver to be inserted into the recess, there necessarily must be some clearance between the two. The necessity for such clearance is even more critical with recesses having substantially vertical drive walls, as in the Reiland '725 patent and Allen head systems. In all of these systems, the practical result of the necessity for such clearance is that substantial face-to-face, broad area contact between the driver and recess surfaces is seldom achieved, if at all. With most drive systems for threaded fasteners, the driver mates with the recess in the head in a manner that results in point or line contact rather than face-to-face broad area contact. The actual area of contact typically is substantially less than full face-to-face contact. Consequently, when torque is applied by the driver, the forces applied to the screw head tend to be concentrated in localized areas with resulting high localized stresses. Such localized high stress can plastically deform the recess, forming ramps or other deformations resulting in premature, unintended disengagement of the driver from the recess.
The foregoing difficulties have been recognized in the art. For example, U.S. Pat. No. 2,248,695 (Bradshaw) discloses a screw head and driver arrangement in which the driving and driven faces of the driver and fastener, respectively, are curved and located eccentrically with respect to the screw axis. In the Bradshaw fastener, any “suitable curvature” such as circular or log spiral may be used as long as it is oriented to bind or lock together by frictional engagement. Notwithstanding Bradshaw's teachings, later fastener drive systems, as those referred to above, do not appear to have adopted the Bradshaw teaching of relying on frictional engagement.
It is among the general objects of the invention to provide a drive system for a threaded fastener that achieves many of the desirable characteristics for threaded fastener drive systems with less compromise of competing characteristics than has been the case with the prior art.
SUMMARY OF THE INVENTION
The advantages of the invention may be achieved by configuring the driving and driven surfaces of the driver and fastener, respectively, to conform to a segment of a spiral and, particularly, in a spiral configuration that enables a substantial and generous clearance between the driver and the recess during insertion and removal of the driver but in which the fully seated driver is permitted to rotate to take up that clearance. The spiral configurations of the drive walls of the driver and the driver-engageable walls of the recess are such that when the spiral walls engage, they do so over a relatively broad area thereby applying and distributing the stress over that broad area. The spirally configured driving and driven walls are oriented to direct a major portion of the applied torque substantially normal to the fastener radius with little, if any, reliance on frictional, near-tangential engagement. The drive walls of the driver and the driver-engageable walls of the recess may be formed to be as close to vertical as is practical, although some draft angle of several degrees may be acceptable. The configuration of the drive walls enables high levels of torque to be delivered without inducing substantial axially directed cam-out forces tending to urge the driver axially out of the recess. By so minimizing the tendency for cam-out, the recess may be relatively shallow, thereby resulting in a stronger screw head than would be the case with a deep, conventional recess.
A recess embodying the invention preferably includes a central portion and a plurality of generally radial wings, at least two of which have at least one heightwise extending, spiral driver-engageable wall. Recesses may be provided in which the spiral drive surfaces engage only in an installation direction, or only in a removal direction, or in both installation and removal directions. Additionally, the spiral surfaces may be arranged to have different arc lengths and orientations so that the torque capacity can be higher in one direction than in the other. A screw thus can be made capable of transmitting higher torque loads in a removal direction than in the installation direction so that sufficient torque can always be applied to overcome the torque that was previously applied during installation.
In a further aspect of the invention, the spiral configuration of the engageable driver and recess faces is configured and located with respect to the longitudinal axis of the screw so that when the driver face meets its associated recess face, it will tend to do so uniformly along the common engaging area of the those faces. The spiral configuration of the driver face preferably is su
Kirkpatrick & Lockhart LLP
Phillips Screw Company
Scherbel David A.
Shakeri Hadi
LandOfFree
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