SE449645B - SITE SCREW WITH A DRILL - Google Patents

Description

20 30 449 645 2 seen portion and a short threadless shaft portion. The diameter of the shaft portion is clearly smaller than the threaded retaining core diameter. spartiet's FR-A l D99 620 shows another self-tapping screw with a threadless shaft portion. This shank portion can have a thickened part with the same diameter as the outer diameter of the threads closest to the head of the screw intended to guide an outer plate or outer plates. DE-A 28 31 439 describes a method for producing a self-drilling and self-tapping screw. This screw has a diameter of its drill bit which is the same as the core diameter of the thread and as the diameter of a shank portion closest to the head. The screw has an axial thread cutting groove for cutting material out of a hole wall.

In order to prevent the twisting of the screws in thin plates, it is now proposed according to the invention that the diameter of the drill bit is smaller than the core diameter of the plate thread supporting shaft, that the diameter of the threadless shaft portion at least partially corresponds to the core diameter and that the underside of the screw head is preferably is flat. Thanks to these measures, the sheet metal screw forms, as is conventionally the case with threads, into the plates, the plates running upwards and finally reaching into the area corresponding to the threadless portion. The threadless shaft portion has the technical effect that even the lower plate is no longer in threaded engagement. Until now, however, it has been assumed that in the case of sheet metal connections, the lower plate must be completely in threaded engagement with the screw. The present invention is in opposition to the theory and practice of hitherto known fastening techniques. If the plates are located in this threadless portion, a twisting of the threads is impossible, as the plates are held between the screw head and the threaded end. The screw can then be turned without further ado, until the collection device is switched off, and despite this, tear-out strength and shear strength are achieved, since these are no longer questioned due to distortion of the threads. This applies, however, provided that the sum of the thicknesses of the plates to be connected corresponds to the axial length of the threadless shaft. As experiments with screws according to the invention have shown, the shear loads absorbable by the sheet metal connections are higher than with a sheet metal screw with the same but continuous thread. The sheet metal screw according to the invention further provides a non-slip fastening.

The screw thread is no longer in direct contact with the threaded thread. When screwing the screw through the plates, the threaded inlet in the plate is easily deformed by the flank ends of the screw threads, which serves as an additional safety against loosening.

As sheet metal threads, those of a conventional type can be used. It is expedient then to use a kind of sawtooth threads, the upper thread edges of which approach a rectangular position in relation to the shaft axis, bearing surface is obtained at the lower plate, and furthermore whereby an enlarged, subordinate increase in shear strength values can be obtained.

When assessing an invention, one should take into account the technical field in which the invention has emerged. The problem underlying the invention, the measures for its solution and the technical effect obtained have been clearly stated in the above paragraph. It is thus measures in violation of current expertise, which have been taken to achieve an improved joining technique for sheet metal. That the measures themselves may seem simple with an attraction to a "simple" dimensioning measure should, of course, be weighed against what is achieved by the measures. Characteristic of the invention is a combination of all the features stated in claim 1. All of these are necessary to achieve a sheet metal screw, which can be used in a quick way with simple tools to join sheet metal, where the connection thus obtained has very good strength values.

None of the above publications shows a sheet metal screw with the features and characteristics which our invention shows and has, respectively. German patent publication 1,575,120 does not disclose a sheet metal screw with a self-drilling tip. Since the diameter of the threadless portion appears to be clearly smaller than the core diameter of the threaded portion, an effect aligning on the joined plates via the threadless portion is not achievable. In most cases it is of crucial importance that the joined plates are kept in a firm and playful connection with the screws, since the wind effect tends to lift the plates, which in turn entails a risk of expansion of the holes in the longer term. All movement in the plates is thus undesirable both for strength reasons and for sound reasons. There is thus a risk of noise from the plate in windy weather, when the plate is allowed to loosen in its screw connections.

The screws according to FR-A 1 099 620 and DE-A 2 831 439 also do not meet all the conditions specified in claim 1.

When plates to be connected are inserted into the threadless portion, with thin aluminum plates the risk arises that the threaded end of the screw can damage the threads in the lower plate when driving the screw. In order to prevent this, it is proposed in accordance with a further distinguishing feature that the threadless shaft portion, at least in the portion located immediately adjacent to the projecting sheet metal thread, carries a sheath or sleeve of plastic, the outer diameter of which does not exceed the thread outer diameter. . This plastic sleeve now has the property of serving as a "soft" threaded end, so that this damage to the threads in the lower plate can be prevented. In this plastic sleeve, the plastic material is further compressed during the formation of the threads, thereby providing an optimal support for the thin aluminum plates.

This plastic sleeve can then be arranged at a short distance from the end portion of the threads, in which case it is expedient to slightly chamfer the side which faces the thread outlet. Such a conical chamfer facilitates the formation of threads in the plastic. However, the plastic sleeve can also be arranged in such a way that it immediately connects to the outwardly extending threads. In this case, it would in principle be possible from the beginning in this plastic sleeve to at least partially arrange an advanced thread and manufacture the sleeve and this at the same time by means of spraying.

In order to make the screw corrosion-proof, it is proposed according to a further exemplary embodiment of the invention that the plastic sleeve extends over the screw head and completely surrounds it.

As the plastic sleeve in this case also becomes part of the head, it is possible to arrange sealing loops at the underside. Furthermore, it is possible to insert and integrate this plastic shelf in a storage belt, when the machining speed of the 1 v K plate screws comes into play. This is shown in more detail with reference to the explanatory embodiments below.

Embodiments of the invention will be explained in more detail below with reference to the accompanying drawing. In the drawing: Fig. 1 shows a sheet metal screw with drill bit, "2 a detail of the screw in connection with the plates," 3-4 a sheet metal screw with a plastic sleeve in the threadless portion, "5 a sheet metal screw with a corrosion-resistant main part," 6 -B arranging the plastic sleeve in the non-threaded shank in a storage belt, and "9 a special design of the non-threaded shank portion under the screw head.

The sheet metal screw according to Fig. 1 has a drilling tip 1 with a diameter dl. Via a conical shoulder 2, this is transferred to a shaft 3 supporting a sheet metal thread with a core diameter of dk. However, this sheet metal thread 3 does not extend to the underside 4 of the screw head 5 but ends at the distance L before this and forms a threadless shank portion 6, which likewise has a diameter corresponding to the core diameter dk. The plates 7 and 8 connected to this screw have a total thickness which corresponds to the axial length L of the threadless shaft portion. At the sheet metal screws according to Figs. 3 and 4, a plastic sleeve 12 and 13, respectively, is formed on a threadless shaft portion 10 and 11, respectively. In the first case (Fig. 3) this plastic sleeve merges via a conical shoulder 14 into a cylindrical portion, the diameter of which the front side of the plastic sleeve 12 is at an axial distance from the plate thread 9 at most corresponds to the outer diameter of the threads. race. In the exemplary embodiment according to Fig. 4, however, the plastic sleeve 13 connects directly to the sheet metal thread 9 ', and more specifically without a conical transition zone. In the two embodiments according to Figs. 3 and 4, the plastic sleeve extends only over a part of the axial length of the threadless portion. In principle, it is also possible to pull this plastic sleeve over the head of the sheet metal screw, as shown in Fig. 5, whereby a corrosion-resistant sheet metal screw is obtained with all the advantages mentioned above. Furthermore, at the underside of the head surrounded by the plastic sleeve, sealing lips 20 can be formed.

However, the plastic sleeve of the threadless shank portion can also be used for another function, namely to form part of a storage belt, as shown in Figs. 6-8. Such storage of the screws is then advantageous, as the screws are manufactured mechanically and automatically. Between successive sheet metal screws (Fig. 6) a connecting life is also formed of plastic, which is connected to the plastic sleeves 12 of the screws via a breaking point 17. This breaking point can be designed in different ways, but essentially each design of the breaking point means that the cross section of the belt is weakened. In the exemplary embodiment according to Fig. 7, screws and connecting life 16 follow one another alternately. In the exemplary embodiment according to Fig. 8, however, in the case of a continuous storage belt 16 ', plastic sleeves 12' on adjacent screws are connected laterally via the breaking points 17 '.

The threadless shank portion under the screw head can be stepped along its axial length, as shown in Fig. 9. Such a design is expedient when the plates to be connected are to be subjected to large thermal expansion movements. Instead of a step in the ledges, as shown in Fig. 9, the threadless shaft portion can also run conically. Even in such a case, an equalization and an uptake of the heat expansion movement is possible.

Fig. 2 illustrates the relationship between the length of the threadless shaft and the thickness t of the plates to be connected. The axial length L of the threadless shaft is selected, for example, for connecting two plates each of the thickness t in the following way: In the connection shown (Fig. 2) it is shown why the two plates are optimally clamped and why the length of the thread The loose shaft is greater than the sum of the thicknesses of the two plates.

During the penetration of the upper plate, it is deformed slightly in the upward direction by the threads of the screw. The lower plate is pushed rather strongly downwards by the conical bushing portion and is thereby stabilized. Thereby, the distortion safety as well as the tear strength and shear strength values can be guaranteed. In this case, the tear strength values are the same as for screws without a threadless shaft; the shear strength values are significantly higher in comparison with screws without a threadless shaft.

Screws of the type covered by the invention can also be used together with sealing washers. When combined with sealing washers, the length of the non-threaded shaft increases corresponding to the corresponding thickness of the applied sealing washers. In the embodiments shown, screws with simple threads are shown. It is also within the scope of the invention to provide the screws with a plurality of passages.

Claims (1)

1. 449 645 8 PATENT REQUIREMENTS Sheet metal screw with a drill insert, a connecting plate thread attached thereto and a screw head arranged for attaching a collection tool, wherein a threadless shank portion is arranged between the sheet metal thread and the screw hole, characterized by the following features; that the diameter (dl) of the drill bit is smaller than the core diameter (dk) of the plate part (3,9,9 ') supporting the shaft part, that the diameter of the threadless shaft portion (6, 10, 11) corresponds at least in part to the core diameter (dk) and that the underside (4) of the screw head (5) is preferably (flat. Screw according to claim 1, characterized in that the threadless shank portion (l0,1l), at the portion located immediately adjacent to the outwardly extending sheet metal thread (9,9 ') carries a plastic sleeve (l2, l3) whose outer diameter at most corresponds to the thread outer diameter Screw according to claim 2, characterized in that the plastic sleeve (l2,13) at its front side facing the sheet metal thread (9,9 ') is conically chamfered. 2, characterized in that the plastic sleeve (l2, l3), preferably at a breaking point (17, l7 '), is connected to a strip (l6, l6') extending perpendicular to the axis of the screw and serving for its storage. , felt characterized by the plastic sleeve (l2, l3) extending over er screw head (5) and completely surrounds it and that the plastic sleeve in a manner known per se at the underside of the head (4) has circumferential and edge-oriented sealing lips (20) (fig.5). JE '