Self-tapping screw

Expanded – threaded – driven – headed – tool-deformed – or locked-thr – Externally threaded fastener element – e.g. – bolt – screw – etc. – Thread or shank structure

Reexamination Certificate

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Details

C411S310000, C411S386000, C411S411000

Reexamination Certificate

active

06340277

ABSTRACT:

BACKGROUND AND SUMMARY OF THE INVENTION
The invention relates to a self-tapping screw having an at least partially non-round enveloping curve for the thread, and having a penetrating section and a retaining section.
Such a screw is disclosed in European Patent 86 852. This patent described different enveloping curves for the thread of a self-tapping screw, namely, successively, in a penetrating region with a trilobular thread form with an increasing envelope diameter, an adjoining region with a likewise trilobular thread form, but with a constant envelope diameter, and finally a region with a cylindrical enveloping curve. Furthermore, the patent discloses an enveloping curve for the thread which, rather than having the trilobular thread form, has one with just two high points, which is essentially similar to an elliptical enveloping curve. In this case, the region with the cylindrical envelope forms the retaining section.
DE Patent 27 06 246 discloses a self-tapping screw which, over its entire thread length, has a cross section in the manner of an arcuate polygon. In specific terms, the figures of the patent present, for this purpose, a more or less triangular polygon (similar to the trilovular configuration according to the abovementioned European Patent 86 852). The screw according to DE Patent 27 06 246 has a penetrating section and a retaining section. In the region of the penetrating section, the polygonal configuration is more pronounced than in the retaining section, in which the curvature at the outer points of the polygon is more rounded than in the region of the penetrating section. This achieves a correspondingly low screw-in torque in the penetrating section. Furthermore, the penetrating section is configured with a smaller enveloping curve than the retaining section, in order to facilitate the screwing-in operation of the screw. Elliptical cross sections are not mentioned in said patent.
U.S. Pat. No. 3,978,760 discloses a further configuration of a thread-forming screw, in the case of which the penetrating section is of elliptical configuration and merges into a cylindrical cross section in the direction of the retaining section.
The idea of keeping the screw-in torque as low as possible by a specific configuration of the thread in the penetrating section is important in the case of the above described screws. When a self-tapping screw is screwed in, first of all the material of the relevant nut part into which the thread is to be cut resists the screw. There is also an additional torque requirement during the screwing-in operation as a result of friction of the screwed-in thread turns. There are thus numerous other documents which deal with the problem in question. The relevant prior art proposes, inter alia, to provide flattened portions on the leading thread turns in the penetrating section of self-tapping screws, with the result that the cutting of the thread and the friction produced as the screw is screwed in further are limited to those parts of the thread turns which are left. Despite these varied efforts, the task of reducing the screw-in torque while maintaining a firm fit of a self-tapping screw over its retaining section still remains a problem.
The object of the invention is thus to provide a self-tapping screw of the type specified in the introduction which ensures a low screw-in torque and has good properties as far as the firm fit of the screw in a nut part is concerned. The screw according to the invention is thus characterized in that the penetrating section contains a plurality of successive thread stages which each have at least one thread turn and, along the thread stage, have essentially the same, aligned enveloping curve which runs either cylindrically or elliptically, the thread stages with an elliptical enveloping curve (elliptical thread stage) being combined such that the major axes of the successive elliptical thread stages, forming a stage group, are offset with respect to one another.
The screw according to the invention is based on the utilization of the properties of an elliptical enveloping curve, to be precise to the effect that at least two thread stages with an elliptical enveloping curve (referred to as a stage group) follow one another such that the major axes of said elliptical thread stages are offset with respect to one another, with the result of which, as the screw is screwed in, the latter has a stable position in relation to the relevant nut part. This results from the fact that the screw, of which the thread is supported in relation to the nut part first of all via two diametrically opposite points (ends of the major axes), obtains, upon penetration of the following thread stage with an offset elliptical enveloping curve, supporting points at the ends of the major axis of the following thread stage. There are thus at least two pairs of diametrically related supporting points, the pairs being offset with respect to one another, which results in the screw which is to be screwed in being positioned in the nut part with the abovementioned stability. This has the result that, when a stage group is screwed in, the latter supports the screw against tilting in relation to the nut part, so that the screwing-in operation can take place in a largely automated manner without special centring measures.
Enveloping curve is intended to mean the progression of a lateral surface area which encloses the relevant thread stage, said lateral surface area running through the respectively radially outermost points of the thread stage. In the case of an elliptical thread stage, the enveloping curve is an ellipse. If, in contrast, the thread stage is cylindrical, then the relevant enveloping curve runs in the manner of a circle.
In the simplest case, the stage group contains two thread stages, of which the major axes are offset by 90° with respect to one another. It is also possible to include further elliptical thread stages in the stage group, in which case, from one thread stage to the next, the major axes of the latter are offset by 90° in each case.
A variant of this consists in constructing the stage group from three thread stages and in this case, from one thread stage to the next, the major axes of the latter are offset by 60° with respect to one another. It is also possible, of course, with such a configuration for further thread stages to be included in the stage group, in which case the major axis of each thread stage is offset by 60° in relation to the respectively adjacent thread stage.
According to a further variant, it is expediently possible, in the construction of the stage group from four thread stages, for the major axes of said thread stages to be offset by 45° with respect to one another in each case from one thread stage to the next. In this case too, it is, of course, possible for further thread stages, with the same offset arrangement, to be included in the relevant stage group.
Finally, the case where, in order to achieve a particularly long penetrating section, the stage group can be constructed from six thread stages, of which the major axes are offset by 30° with respect to one another from one thread stage to the next, should also be mentioned. It is also possible in this case for further, correspondingly offset thread stages to be added.
The screw can be stabilized particularly well, as it is screwed into a nut part, when the enveloping curves of the elliptical thread stages of a stage group are selected to be of the same size. In this case, the thread stages of a stage group are supported in relation to the nut part in a symmetrical and uniform manner from one thread stage to the next.
It is possible to facilitate the operation of screwing the screw into a nut part in that arranged upstream of a stage group (remote from the screw head), is an elliptical thread stage, of which the enveloping curve is smaller than the enveloping curve of the elliptical thread stage following to the rear.
The upstream elliptical thread stage with smaller enveloping curve can be used to perform something of a pre-cutting operation

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