The invention relates to screws, and more specifically to restricted torque fastening screws.
In the relevant industries, it is often required that fastening screws be tightened by a limited, controlled force, in order to avoid damage to the equipment or to fulfill other conditions, e.g. in case of a cover with a rubber seal which must not become over-squeezed.
Other, related examples, are cases where it is requested that once tightened, the screw cannot be slackened by ordinary tools such as a screwdriver, or at all.
Alternatively, a demand may be posed that it would be possible to unscrew the screw, but there will be clear and unmistakable indication that the screw has been tampered with by an unauthorized person.
The invention aims at proposing a solution satisfying any and all of these requisites.
It is a further object of the invention that the screw heads be produced by forging.
Thus provided according to the invention is a screw having a screw-threaded shank and a circular head, the head being provided with at least one radially extending screwdriver tip receiving portion defined between a first off-central, integrally formed projection designed to become shaved-off the screw head by a pre-set shear force applied during tightening of the screw, and a second, integrally formed projection designed to withstand a shear force greater than the said pre-set force applied during slackening of the screw.
There are preferably provided three pairs of the first and the second projections equi-angularly located on the head of the screw wherein the first projections are of a generally right-angled triangular cross-section seen in a plane normal to the radial direction of the screw head, and the second protrusions are of a generally isosceles triangle cross-section seen in a plane normal to the axis of the screw head.
A tool is provided for operating screws according to the invention, comprising a circular handle and three, equi-angularly arranged and radially extending ribs fitting into the said screwdriver tip receiving portions.
These and additional constructional features and advantages of the invention will become more clearly understood in the light of the ensuing description of few preferred embodiments thereof, given by way of example only with reference to the accompanying drawings, wherein
a schematically shows the tightening operation of the screw of
b shows the unscrewing operation of the screw using the same tool;
a shows the tightening operation of the screw at
b shows the unscrewing of the same screw.
The embodiment of
Hence, the screw generally denoted 10 comprises a shoulder (machine-screw) head 12 and a shank 14. As will be made clear, the screw can be of any kind, either of the standard or of special design.
A pattern of cavities or depressions is applied to the top of the head 12, most conveniently, and as normally applied in the production of bolts and screws, by forging, in a one-time operation, as will be now described with respect to the present example. Variations and modifications of the pattern will be readily apprehended after understanding the design principles governing this embodiment.
At least one—but preferably three—radially extending slots 16, 18, 20 are present, equi-angularly arranged as shown. The slot 16 (see
At the other side of the slot 16 there is formed a solid projection 16c of a generally isosceles triangle cross-section as seen in a plane normal to the axis of the head 12.
Similarly, slot 18 has triangular projection 18a and curved surface 18b at one side, and projection 18c at the other side; and the same applies to the slot 20. Preferably, a circular depression (or boss) 22 is made at the center (the apexes of the triangles 16c, 18c, and 20c).
An operating tool or driver for the screw 10 is shown in
In use, namely fastening a workpiece by the screw 10, the screw is turned by the tool 24 and tightened by an increased torque until the projections 16a, 18a, and 20a are simultaneously torn or shaved off by the shear force applied to the respective roots thereof.
The amount of the maximum applicable torque can be pre-determined by correctly calculating the collective shear strength that will cause the breaking of the projections, the relevant parameters being the cross-sectional area of the roots and the shear strength of the material the screw is made of.
Once broken, further rotation of the tool would simply “throw” the tool out of the respective slots to merely idle over the top of the screw head 12.
However, and in that respect uniquely different from prior art auto-torque screws, although opening of the screw 10 remains possible, by turning the head 12 in the opposite (counter-clockwise) direction by the tool 24, the re-fastening thereof is not possible.
Hence, let us take the following frequent example where a manufacturer of certain equipment makes it a condition to the validity of its warranty that no one except authorized personnel would be allowed to dismantle any part of it. Once a purchaser attempts to release the screws by himself, he will be compelled to replace them by “ordinary” screws when bringing the equipment to repair under the warranty, which will immediately indicate that the above condition has been violated and free the manufacturer of its obligation.
Hence, provided at the screw 110 are three slots 116, 118, 120 and their related shearable projections 116a-120a, etc.
In the modified embodiment of
Again emphasized is that this pattern is easily attained by press-forging so that, as in the preceding embodiments, the projections are integrally formed with the head 212.
The first set of projections 230-234 have a right-angled triangle cross-section. The hypotenuses of the triangles extend radially facing the same, clockwise direction.
The second set of projections 240-244 are spaced from the projections of the first set both in radial and in the angular directions, with hypotenuses facing the opposite, counter-clockwise direction.
The total roots area of the first set is calculated to yield (become shaved off) by shear, under a pre-determined force applied by a driving tool (see
The total roots area of the second projections would preferably be made to withstand a greater force, for unscrewing (in the appropriate cases—if at all) by turning the screw-driving tool in the counter-clockwise direction as depicted in
Once torn away by the shear force applied during the tightening stage (
The embodiment of
Also noteworthy is the fact that in this example the driving tool (seen as shadowed areas in
The invention thus offers a novel and efficient solution fulfilling the objectives as specified in the preamble paragraphs above.
Those skilled in the art to which this invention pertains will readily appreciate that numerous changes, variations and modifications can be effectuated without departing from the true spirit and scope of the invention as defined in and by the appended claims.
Number | Date | Country | Kind |
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151060 | Aug 2002 | IL | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IL03/00611 | 7/24/2003 | WO | 2/3/2005 |