Fastening means

Technical field:

The present invention relates to a fastening device, primarily for fixing a preferably expansive thin-walled element to a preferably likewise thin-walled component.

Background of the invention:

Fastening devices are previously known of the type which comprise a screw with a shank and a head and a counterstay with a hole which cooperates with the threads on the screw and whereby the counterstay is easily attachable to a component intended therefor. This type of fastening device is commonly used in the car industry for, for example, fastening various sheet components. It is a general goal to optimize such fastening devices, especially with regard to both manufacturing and assembly aspects predominently on an economic scale.

This optimization goal has nowadays resulted in known used counterstays being provided with a hole (which cooperates with threads on the screw) which has a relatively limited strength. The hole for the threads is thus dimensioned to withstand a certain maximum torque from the screw. To ensure that this maximum force is not exceeded, devices such as electrically driven screwdrivers with the possibility of being adjusted to a certain maximum permitted torque are nowadays used for assembling such fastening devices. The reason why the maximum torque should be adjustable is that_ one and the same assembly worker often applies several types of fastening devices with different strength levels.

Technical problem:

It has been shown however that certain fastening devices are not tightened with the desired force within a given range, i.e. the desired torque. This results in that certain devices are too loose whilst, worse still, in other cases the counterstay is pulled through. In this latter case, a plastic deformation of the force-bearing parts for the threads around the hole thus occurs which implies that the screw can no longer be tightened. The result is a product which, after assembly, does not meet the desired levels of quality. Why this should happen can be attributed to several reasons. On the one hand, certain tools do not have the desired degree of accuracy which is necessary to maintain the torque within given limits, whilst on the other hand, the assembly worker does not always make the necessary adjustment to the permitted maximum torque.

Solution:

The object of the present invention is to provide a fastening device which overcomes the above described disadvantages.

Said object is achieved by means of a device according to the present invention which is characterized in that the shank of the screw presents a preferably threadless portion whose outer diameter is at least less than the outer diameter of the adjacent lower region of the thread and the smallest diametrical clearance of the hole which cooperates with the screw threads.

It is a further object of the present invention to produce such a fastening device which simplifies assembly thereof and thereby contributes to a cost reduction.

Brief description of the drawings:

The invention will be described in more detail with reference to embodiments shown in the attached drawings in which

Fig. 1 is a side view of an assembled fastening device,

Fig. 2 is a plan view of a counterstay for a fastening device according to the invention, Fig. 3 is a section view along line A-A of Fig. 2, Figs 4a, 4b show a first modification of a counterstay according to Fig. 1, Figs 5a, 5b show a second modification of a counterstay according to Fig. 1, Fig. 6 is a side view of a second embodiment of a device according to the invention, and Fig. 7 is a modification of a counterstay according to

Fig. 6, Fig. 8 is a side view of a device according to the invention which is applied with help of adhesives,

Fig. 9 is a plan view of a counterstay according to Fig. δ, and Fig. 10 is a modification of a counterstay according to Figs 8 and 9.

Best mode of carrying out the invention:

A preferred embodiment of the invention is shown in Fig. 1 and consists of a screw 1 and a counterstay 2. The counterstay 2 is inserted in a recess 40 in a thin-walled component 4. A thin-walled element 3 is fastened to the thin-walled component 4 with the aid of the screw 1, the tapered surface 11 of whose screw head abuts against a conical countersink 30- in the thin-walled element 3. The screw shank 10 is provided with threads 14 which cooperate with a hole 20 in the counterstay 2. The cooperating hole

20 in the counterstay 2 is arranged in a first part 21 of the counterstay 2, which part 21 is arranged essentially parallel to a second part 22 by means of said first part 21 being bent upwardly to this position in the same plane as said second part 22. The second part 22 is also provided with a hole 27 which has a larger diameter than the first mentioned hole 20 so that the second hole 27 can not cooperate with the threads 14 and the screw 1.

The counterstay 2 is provided with abutment flanges 24 and obliquely directed wings 23 cooperating therewith for fastening the counterstay 2 to the component 4. The wings 23 spring inwardly during insertion of the counterstay 2 so that a snapping-in occurs. The counterstay 2 can be applied to the component 4 in a direction which principally corresponds with the normal to the surface of the element 3 and the component 4. This direction of the normal also corresponds to the axial extension of the screw. Accordingly, the counterstay and screw in this preferred embodiment can be applied in one and the same direction which can have considerable advantages from an assembly point of view.

As can further be seen from Fig. 1, the screw shank 10 is provided with a threadless portion 12. This threadless portion 12 ensures that the hole 20 for the threads 14 can not be pulled through and that the retaining force, the clamping force, for the fastening device can be predetermined depending upon the spring force of the upper sheet 21 which is effected via the curved portion 29 with which it is connected to the lower part 22 of the counterstay. A further factor which affects the clamping force is of course the position of the axial end surface 15 of the threads 14. _

The counterstay 2 is shown in plan view in Fig. 2. From here it can be seen that the hole 20 is provided with a slot 28 and that the hole 20 is to be found in the upper part 21 which is connected to the lower part 22 via a curved bent portion 29. The lower part 22 comprises a second hole 27 with a diameter which is considerably larger than that of the first mentioned hole 20. It can further be seen that the longitudinal extension of the obliquely directed side surfaces 23 do not extend for as long as the abutment flanges 24. In Fig. 3 there is shown a section through the upper part 21 of the counterstay 2. The section shows that the pitch of thread for the hole is provided by bending the two side surfaces around the slot 28.

Fig. 4 shows a plan view of a first modified counterstay 2 according to the invention. Fig. 4b shows the same counterstay in a longitudinal section. The modified counterstay differs from the counterstay according to Fig. 1 in that it is provided with a torque reinforcing part 5 which accordingly increases the spring resistance of the counterstay. The torque reinforcing part 5 consists of a portion bent up from the lower part 22. This part, in the same way as with the part 21 provided with the thread hole 20, is also shaped with a curved region 52. In order to provide space for the screw 1, the torque reinforcing part 5 is arranged with a larger recess 51 which is consequently centrally located in relation to the threaded hole 20.

In a corresponding manner to Figs 4a and 4b, Figs 5a and 5b show a second modification of a counterstay 2 according to the invention. The torque reinforcement part 5, in the latter mentioned case, functions more as a passive abutment for the threaded part 21 whilst the embodiment according to the modification presents a torque reinforcing part of a more active type.

1A second embodiment of the invention is shown in Fig. 6 where the screw 1 is essentially shaped the same as described earlier, with the difference that not all the entire upper region of the threads 14 is removed, but only a reduced threadless portion 12 is provided. The counterstay 2, however, is of a different type and in a side profile as shown in Fig. 6 presents an S-like shape. The two branches which contain larger holes 25, 26 are hereby intended to project around the component 4 to which they are intended to be affixed. The outer spring part 21 of the counterstay is provided with a smaller hole 20 for cooperation with the threads 14 of the screw 1. A resilient tensioning force is also maintained in this case thanks to a curved region 29. The counterstay 2 according to this embodiment has also been produced with the help of stamping and bending.

A modified counterstay 2 is shown in Fig. 7 for a device according to the invention in accordance with Fig. 6. In order to increase the bending resistance of the upper part 21 which is provided with the thread-cooperating hole 20, the middle portion 26 is provided at its one end with a bulge 53 which abuts against the outer part 21 in the region of its free end.

Counterstays 2 are shown in Figs 8, 9 and 10 which are affixed as necessary with adhesives. Such a counterstay 2 is shown in Fig. 8 arranged on a first sheet 4 with help of an adhesive agent 6. On the same side as the counterstay 2, the sheet presents rotation-preventing embossings 45 arranged to prevent rotation of the counterstay 2. As with other counterstays, the outer sprung part 21 is provided with a hole 20 which cooperates with the threads on the screw 1. With help of the thus applied counterstay 2, it is possible to simply apply a thin-walled expansive element 3 to the first mentioned sheet 4 with help of a screw 1. Fig.

9 shows the counterstay according to Fig. 8 in plan view. The figure shows that the sheet 4 is provided with embossings 45 on both sides of the counterstay 2. The figure further implies that the sheet 4 and the inner part 22 of the counterstay 2 are each provided with a hole large in relation to the threaded hole 20. This hole is centred in relation to the threaded hole 20 of the counterstay 2.

Finally Fig. 10 shows a glued counterstay 2 in cross section and which counterstay is provided with a torque reinforcing part 5. The torque reinforcing part 5 consists of a portion 54 of the lower part 22 of the counterstay 2 bent upwardly at 90°.

Advantages:

A big advantage with the invention is that the maximum clamping force of a tightened fastening device is, in practice, independent of the torque with which it is tightened. This means that one and the same type of tool can be used for all assembly of such fastening devices and thereby always achieve optimal clamping force without need to adjust the torque. One precondition is however that all tools in this instance deliver a maximum torque which is at least as great as the torque which is necessary to tighten the largest sized fastening device. A solution in accordance with the invention: thus always provides optimally tightened fastening devices which, amongst other things, implies constant levels of tighting force for the same embodiment,

- eliminates adjustment operations, implies optimization of the buying in of tightening tools, i.e. just one type is required.

It will be clear to the skilled man that the invention is not restricted to that described above but can be varied

within the scope of the appended claims. Accordingly, the invention can also be used for components other than those with thin walls, for example for joining thick-walled elements to thick-walls components. Furthermore, the screw shaft does not need to have a completely threadless portion, it is sufficient if the outer diameter in this portion is less than the smallest diametrical clearance of the hole 20. A resilient function of the counterstay itself is desirable but can for example be compensated for by means of resilient properties of for example the component. The shown counterstay, which is made from one piece, with the curved bent spring portion has advantages from a manufacturing point of view, but other solutions, for example parts provided with a flexible adhesive means are also possible. Instead of snapping-in, it is for example possible that the counterstay is rotatably fastened. The device shown in Fig. 6 can also be provided with the sprung part 21 against the screw l if there is sufficient space. The torque increasing device 5 can, in many of the shown examples, be arranged on the corresponding part of the counterstay 2, in Fig. 10 for example the leg 54 can just as well be provided on the outer part 21.