Method for fixing a plurality of workpieces via a rivet element

Abstract

A method for fixing a plurality of workpieces via a hollow rivet element with an open setting end and a closed closing end. The method includes passing the rivet element through mutually aligned openings of the workpieces. The method also includes introducing a fluid, in particular air, under high pressure from the setting end of the rivet element in a hollow space of the rivet element. The method also includes plastically deforming and setting of the rivet element by the fluid at the closed closing end of the rivet element.

Claims

1. A method for fixing a plurality of workpieces with a riveting element that is hollow and has an open setting end and a closed closing end, the method comprising the steps of: passing the riveting element through openings in the workpieces; selecting a given pressure that will cause a given clamping length of the riveting element; introducing air, at the given pressure from the setting end of the riveting element into a cavity of the riveting element; plastically deforming and setting the riveting element by the air at the closed closing end of the riveting element; introducing the air at a pressure higher than the given pressure into the cavity of the riveting element, the higher pressure being a pressure that causes tightening of a connection of the workpieces, wherein a shank and/or the closing end have at least one forming portion which has a different deformability compared with other portions of the shank and/or of the closing end; and removing a portion of the rivet at an intended tear portion on the forming portion.

2. The method according claim 1, wherein in the step of passing the riveting element the workpieces are arranged to be flush with one another.

3. The method according to claim 1, wherein the riveting element and/or the air is heated prior to the step of introducing air at the given pressure.

4. The method according to claim 3, wherein once the given clamping length of the riveting element has been achieved, the air is removed or escapes from the cavity.

5. The method according to claim 4, wherein a temperature of the air is adapted to the given clamping length of the riveting element.

6. The method according to claim 5, wherein the riveting element has a hollow cylindrical sleeve, which has the setting end, the closing end and the shank which extends between the setting end and the closing end, and with a collar which is arranged on the setting end on the sleeve, the sleeve being open at the setting end and closed at the closing end.

7. The method according to claim 6, wherein the forming portion is formed by at least one portion which has a wall thickness which differs from a wall thickness of the shank and/or of the closing end outside the forming portion.

8. The method according to claim 7, wherein the forming portion is formed by weakening the shank and/or the closing end by notching.

9. The method according to claim 8, wherein the collar and the sleeve are embodied in one piece.

10. The method according to claim 9, wherein in order to release the connection of the workpieces, the air is again introduced into the cavity of the riveting element at a further pressure, the further pressure being a pressure that is sufficient to tear off the closing end of the riveting element.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 illustrates a rivet element for connecting a plurality of work pieces according to step a) of a method according to an embodiment of the invention,

(2) FIG. 2 illustrates the rivet element according to FIG. 1 in the performance of the steps b) and c) of the method according to the embodiment of the invention,

(3) FIG. 3 illustrates the rivet element according to FIG. 1 after the performance of the method according to the embodiment of the invention, and

(4) FIG. 4 illustrates the rivet element according to FIG. 1 after it was disengaged according to the embodiment of the invention.

DETAILED DESCRIPTION OF THE DRAWINGS

(5) FIG. 1 shows a connecting location 10 between two work pieces 12, 14 in section. The work pieces 12, 14 each have mutually aligning opening 16 through which a rivet element 18 extends.

(6) The rivet element 18 has a cylinder-shaped bushing 20 and a collar 22, and it can be made of a metal or a plastic.

(7) For example, the cylinder-shaped bushing 20 has a circular cylinder shape and a setting end 24 and a closing end 26, between which a shaft 28 extends.

(8) The bushing 20 is designed hollow, with it being open at the setting end 24 and closed at the closing end 26 so that the rivet element 18 forms a hollow space 29 that is open at one end.

(9) The shaft 28 can have a form section 30 that completely extends in the direction of the circumference about the bushing 20.

(10) Compared to other sections of the shaft 28, the form section 30 has a different deformability. For example, the deformability in the form section 30 is greater relative to the deformability of the remaining shaft 28.

(11) The different deformability of the form section 30 can be developed by a section having a wall strength that is different than the wall strength of the shaft 28 outside the form section 30.

(12) Furthermore, the form section 30 can be formed by a weakening of the shaft 28, in particular by notches.

(13) It goes without saying that the form section 30 can be provided at the closing end 26 of the bushing 20, with the aforementioned statement applying correspondingly to the closing end 26. For example, the deformability of the form section is then different than the deformability of the remaining closing end 26.

(14) Of course, it is also conceivable that the form section 30 does not extend fully about the circumference of the bushing 20, but rather only in sections in the direction of the circumference.

(15) The form section 30 can also be formed by a section that has a hardening that differs from the hardening of the shaft 28 or the closing end 26.

(16) The collar 22 is arranged at the setting end 24 of the bushing 20 and can be developed in one piece with the bushing 20.

(17) The opening of the bushing 20 at the setting end 24 forms a blow-in mouth 32 at which a nozzle 34 of a connecting tool (not shown) can be placed tightly.

(18) To connect the work pieces 12, 14, a fluid, such as air, for example, is introduced into the hollow space 29 at high pressure after the rivet element 18 was inserted into the opening 16, as shown in FIG. 1.

(19) To that end, as shown in FIG. 2, the nozzle 34 of the connecting tool is introduced into the blow-in mouth 32 so that the hollow space 29 is completely closed.

(20) As indicated by the dots in the figures, a fluid is then pressed into the hollow space 29 at a high pressure.

(21) The bushing 20 of the rivet element 18, in particular the closing end 26, is plastically deformed by the pressure of the fluid and the rivet element 18 is set. The closing end 26 takes the form of a mushroom, for example.

(22) In the deformation, the closing end 26 and the part of the shaft 28 that protrudes from the work piece 14 is widened such that they form an undercut that abuts the work piece 14.

(23) The deformation and shape of the undercut can be influenced by the type and/or the geometry of the form section 30.

(24) In the shown embodiment, the form section 30 is more easily deformable than the remaining sections of the shaft 28 so that the shaft 28 deforms and widens in the region of the form section 30.

(25) To achieve a better deformability of the rivet element 18, the rivet element 18 can be heated before introducing the fluid.

(26) The fluid itself can also be heated prior to the introduction.

(27) It is also conceivable to adapt the pressure and/or the temperature of the fluid to the desired clamping length of the rivet element. That is because the pressure and/or the temperature of the fluid can also be used to influence the deformation of the rivet element 18. For example, a high pressure leads to a nearly complete spherical deformation of the closing end 26.

(28) After the desired deformation of the rivet element 18 has been achieved, the nozzle 34 is removed from the rivet element 18 and the fluid can escape from the hollow space 29.

(29) It is also conceivable to remove the fluid from the hollow space 29 via the nozzle 34, for example by generating a negative pressure.

(30) The two work pieces 12, 14 are now firmly connected to each other by the rivet element 18, as is shown in FIG. 3.

(31) To ensure the safe connection of the work pieces 12, 14 by the rivet element 18, fluid can again be introduced into the hollow space 29 of the rivet element, which is to say the aforementioned process can be repeated.

(32) It is also possible to tighten the connection between the two work pieces 12, 14 subsequently, for example after half of the designated service life of the work pieces 12, 14 has passed. To that end, the aforementioned process can be repeated, but in doing so, the fluid is pressed into the hollow space 29 of the rivet element 18 at a higher pressure than with the previous, first introduction, to again press the work pieces 12, 14 against each other.

(33) It is also possible to disengage the connection between the two work pieces 12, 14 generated by the rivet element 18, for example if one of the two work pieces 12, 14 is to be replaced. To that end, as shown in FIG. 4, the nozzle 34 is again placed at the blow-in mouth 32 and fluid is again introduced into the hollow space 29 of the rivet element 18. However, in this case, the pressure of the fluid is selected high enough that the closing end 26 of the rivet element tears off, which causes the undercut generated in the deformation to tear off as well. In this way, the remaining part of the rivet element 18 can then be removed again from the opening 16 and the two work pieces 12, 14 can be separated from each other.

(34) To that end, the form section 30 can serve as the intended tearing point if it is developed weak enough.

(35) The foregoing disclosure has been set forth merely to illustrate the embodiments of the invention and is not intended to be limiting. Since modifications of the disclosed embodiments incorporating the spirit and substance of the invention may occur to persons skilled in the art, the invention should be construed to include everything within the scope of the appended claims and equivalents thereof.