EP0922536A1 - Method and device for placing rivet nuts - Google Patents

Abstract

The method involves using two lever arms movable towards each other and linked to a transverse bearing (1) joined to the housing (3) by bars (6). A helical spring is positioned between the transverse bearing and housing as pressure-reducer. Tensile force is applied to form a ridge through the thin-walled, exposed cut on the blind rivet nut.

Description

The invention relates to a method for setting Blind rivet nuts, in which the mandrel up to the stop is screwed into the nut thread in the nut thread and then axially displaced so that the thin-walled material of the cut part dodges outwards and one Bead forms.

With appropriate devices to carry out a However, the traction applied is such a procedure not constant during the entire riveting process, rather, for example, two are towards each other moving hand levers towards the end of the movement force applied is greatest. The greatest force, however, is required at the time when the material of the cut out part begins to move outwards while with progressive movement an ever smaller Force is required until the end of the riveting process must be broken off when the bead hits the wall the borehole to damage the thread avoid.

The wall thickness in the cut part of the Blind rivet nut is preferably chosen so that the Clamping force of the bead being formed is as large as possible later act as an anti-twist device.

Accordingly, there is the necessary for riveting Tensile force is usually just below the thread load, whereby the correct riveting of the blind rivet nut with the complicated riveting tools previously available on the market is.

These are supposed to be the blind rivet nut each limited tensile force adapted to the thread diameter Riveting so that a sufficient bead forms, however, the thread at the end of the riveting process is not damaged becomes. This is a logical way of processing or Riveting of blind rivet nuts fails because of small difference between that required for riveting Tensile force and the maximum thread load.

As a consequence, all tools work today with a so-called stroke limitation, with the exception of some mechanical tools for smaller thread dimensions, at which the operator has to rely on.

When riveting with stroke limitation, the for the Riveting required path calculated and the stroke of the Tool limited to it. This procedure is right complicated because there are only approximations and Blind rivet nuts from different manufacturers different tolerances.

This procedure also presupposes that the Blind rivet nut, although it has a large tolerance range with one tool in only one and the same Material thickness can be riveted. Further problems arise because the operator pays close attention must be, the blind rivet nut always completely up to Screw the stop onto the mandrel of the tool, so that the set stroke is not partially empty running.

In practice it happens because of the rigid Stroke limitation often for insufficient riveting or Damage to the thread unless the devices are precisely set by the specialist, and the processing is carefully monitored.

Overall, the processing of Blind rivet nuts in contrast to the processing of Blind rivets technically quite demanding, so that the Use in small series is hardly worthwhile and continues to this day has not formed a significant "do-it-yourself" market.

The invention is therefore based on the object To make available a process in which the setting of Blind rivet nuts easier, safer and more economical is made possible.

According to the invention, in one method the mentioned type suggested that one from the beginning of the axial Movement of the blind rivet nut applied decreasing tensile force becomes.

According to an advantageous training, further suggested that the greatest traction in the phase of Beginning of the bulging of the cut part is applied and that with complete training of the bead on the bore wall, the tensile force is so low that the thread of the blind rivet nut is not damaged.

The invention also makes a device Implementation of the procedure available. Such a device for setting blind rivet nuts to carry out the A method according to claim 1 or 2, which has a tensile force Formation of a bead through the thin-walled, applies the cut-out part to the blind rivet nut, is characterized in that a decrease in traction mechanical translation is provided.

According to an advantageous embodiment, be provided that a decrease in traction Pressure reducer is provided.

Further advantageous embodiments and Further training is characterized in the subclaims.

With the present procedure and the device too a tensile force is applied to its implementation corresponds to the required power requirement. The traction is possibly at the beginning over the thread force, but what causes no problems as the stem of the blind rivet nut initially yields while at the end of the movement the force so is reduced that damage to the thread is not is more possible. Tools constructed in this way can be used with a lot of tolerance can be set. Your regulation, e.g. via a mechanical translation or a Pressure reducer is very simple because the specialist Tensile force of a thread is known. In particular, be through the invention previously offered on the market Avoid tools where the tensile forces do not Meet requirements by being from an inconvenient Moment starting at a time when high force a comparatively small force is required is applied while at the end of the movement one very cheap power transmission exists, what exactly should not be the case, as this will damage the Thread can occur.

Fig. 1

ein Gerät mit zwei aufeinander zu bewegbare Hebelarmen, die in einem Querlager angelenkt sind;

Fig. 2

eine abgewandelte Ausführungsform, bei der die Hebelarme an dem Gehäuse angelenkt sind;

Fig. 3

eine abgewandelte Ausführungsform mit einer Feder zur Druckminderung;

Fig. 4

ein hydro-pneumatisches Werkzeug mit einer Druckminderfeder und

Fig. 5

eine abgewandelte Ausführungsform mit einem doppelt wirkenden Zylinder mit einer Druckfeder zur Kraftspeicherung.

The invention will be explained in more detail below on the basis of exemplary embodiments with reference to the accompanying drawings, wherein as a rule the same parts are provided with the same reference symbols in the different views, FIG. 1 or similarly modified, they are free in their wording.
The drawings show:

Fig. 1

a device with two mutually movable lever arms which are articulated in a transverse bearing;

Fig. 2

a modified embodiment in which the lever arms are hinged to the housing;

Fig. 3

a modified embodiment with a spring for pressure reduction;

Fig. 4

a hydro-pneumatic tool with a pressure reducing spring and

Fig. 5

a modified embodiment with a double-acting cylinder with a compression spring for energy storage.

Fig. 1 shows a mechanical device consisting of a transverse bearing 1 in which a guide tube 2 is fixed is screwed, which serves to mount the housing 3, so that this is axially displaceable against the transverse bearing 1.

With the cross bearing 1 axially fixed, but with free radial play is a mandrel 4, which by the Guide tube 2 protrudes from the housing 3 and there is connected to the mandrel 10. In the housing 3 the mouthpiece 11 is screwed in and over a Knurled nut 12 countered. The cross bearing 1 is with the Housing 3 connected by the lever arms 8 in the transverse bearing 1 be stored with a cross pin 7 and the tabs 6 in Housing 3 with a cross pin 5 and in the lever arm 8 with a cross pin 9 are stored.

When operating the lever arm from position 1 to Position 2 shifts the housing 3 with the mouthpiece 11 against the mandrel 10 with a decreasing Power transmission.

Fig. 2 shows a further solution, the is that the cross bearing 1 with the housing 3rd is connected by the lever arms 8 in the housing 3 with a Cross pin 2, 7, 27 are stored and the tabs 6 in Cross bearing 1 with a cross pin 2, 5, 25 and in lever arm 8 be stored with a cross pin 2, 9, 29. When pressed lever arm from position 1 to position 2 the housing 3 with the mouthpiece 11 against the Threaded mandrel 10 with a likewise decreasing Power transmission.

Fig. 3 shows a modification in which a mechanical device consists of a transverse bearing 31 in which a guide tube 32 is screwed, which for Storage of the housing 33 is used so that this against the Cross bearing 31 is axially displaceable. During the riveting process cross bearing 31 and housing 33 move away from one another, what with one in between and both connected spring 34 to a constant increase in Resistance leads.

Another solution, particularly suitable for hydro-pneumatically driven tools, is in Fig. 4 shown and is the stroke against a increasing power to drive. Any type of spring is suitable or suspension or a construction based on the system of the shock absorber. Contrary to the well-known hydro-pneumatic Tools that work with a linear force by a pneumatic cylinder 41, which has a hydraulic piston 42 a corresponding translation executes and hereby drives a hydraulic cylinder 43, the threaded mandrel 44 axially against the mouthpiece 45 moves, the traction of the tool during the Stroke travel reduced by the pneumatic piston against a corresponding spring 46 moves.

The solutions shown in Figs. 3 and 4 destroy a force. It is cheaper to have one before Riveting generated spring force to use the force of the tool increased during the riveting process and during relaxation reduced. Such a solution is shown in FIG.

The pulling force of the device can change during the stroke can be reduced by doubling the pneumatic cylinder acting cylinder is designed and initially on the return stroke after riveting against a compression spring 57 runs and part of the necessary for the next step Force thus saves. This not only does the desired thing degressive traction, but also allows an essential one Improve the performance of the cylinder, which is either has more power or can be designed accordingly smaller can.

The tensile force can also be applied to mechanical tools can be reduced during the stroke by the spring 4 is designed as a compression spring and when opening the tool part of the necessary for the next step Strength stores. This not only does the desired thing degressive traction, but also allows an essential one Improve the performance of the tool, which is more Force generated or designed accordingly smaller can.

To the spring body in all constructions if possible to keep small and at the same time increase traction reduce, the spring can be designed so that when Supporting the beginning of the riveting process and in the final phase has an inhibitory effect. This is accomplished by one and the same Spring used both as a compression spring and as a tension spring becomes. When the tool returns, it passes over hers relaxed state into a state storing the strength and thus acts as a compression spring. Supported during the riveting process the spring pulls the tension of the Degressive tool, as already described, then as Tension spring to reduce this force even more.

Instead of the springs shown, others can flexible materials are used for spring action.

Instead of a spring force can reduce the Traction also the driving force of the tool, e.g. B. Compressed air during the riveting process.

Oil brakes, shock absorbers, frictional resistances of all kinds all are nevertheless suitable for achieving the same technical effect.

Claims (14)

Method for setting blind rivet nuts, in which the mandrel is screwed into the nut thread as far as the stop against the mouthpiece and is then axially displaced so that the thin-walled material of the cut-out part dodges outwards and forms a bead,
characterized, that a decreasing tensile force is applied from the beginning of the axial movement of the blind rivet nut. Method according to claim 1,
characterized, that the greatest tensile force is applied in the phase of the beginning of the bulging of the cut part and that with the complete formation of the bead on the bore wall, the tensile force is so low that the thread of the blind rivet nut is not damaged. Device for setting blind rivet nuts for carrying out the method according to claim 1 or 2, which applies a tensile force to form a bead through the thin-walled, cut-away part on the blind rivet nut,
characterized, that a mechanical transmission is provided to decrease the tensile force. Device for setting blind rivet nuts for carrying out the method according to claim 1 or 2, which applies a tensile force to form a bead through the thin-walled, cut-away part on the blind rivet nut,
characterized, that a pressure reducer is provided to decrease the tensile force. Device according to claim 3,
characterized, that the device has two mutually movable lever arms (8) which are articulated to a transverse bearing (1) which is connected to the housing (3) with tabs (6). Device according to claim 4,
characterized, that two mutually movable lever arms (8) are articulated on the housing (3) which is connected to the cross bearing (1) with tabs (6). Device according to claim 5 or 6,
characterized, that between the transverse bearing (31) and the housing (33) as a pressure reducer, a coil spring (34) is provided. Device according to one of claims 3 to 6,
characterized, that at the end of the riveting process an adjustable coupling stops the application of force. Device for setting blind rivet nuts for carrying out the method according to claim 1 or 2, which applies a tensile force to form a bead through the thin-walled, cut-away part on the blind rivet nut,
characterized, that in a hydro-pneumatic tool the pneumatic piston (41) moves against a spring (46). Device for setting blind rivet nuts for carrying out the method according to claim 1 or 2, which applies a tensile force to form a bead through the thin-walled, cut-away part on the blind rivet nut,
characterized, that in a hydro-pneumatic tool the pneumatic cylinder is designed in a manner known per se as a double-acting cylinder and runs against a compression spring (57) on the return stroke after the riveting process and thus stores part of the force required for the next operation. Device according to claim 9 or 10,
characterized in that, in the case of a hydropneumatic tool, the force assigned to the selected thread can be adjusted by a pressure reducer. Device according to one of claims 3 to 11,
characterized, that a device is provided which stores a force during the return stroke of the tool and supports the applied tensile force during the riveting process. Device according to claims 9 and 12,
characterized, that the spring is designed as a compression spring and stores part of the force required for the next operation when the tool is opened. Device for setting blind rivet nuts for carrying out the method according to claim 1 or 2, which applies a tensile force to form a bead through the thin-walled, cut-away part on the blind rivet nut,
characterized, that an electronic control device is provided to decrease the tractive force.

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