EP1468758A1 - Die for a tool set for mechanical joining - Google Patents

Abstract

Female mold (1) for a tool kit for mechanically joining metal sheets lying flat on top of each other by shaping defines a cavity (2) containing an anvil (3) lying opposite a punch, and mold segments (9) arranged on the anvil and defining the periphery of the cavity. The mold segments are arranged on a support surface so that they can be displaced outward against spring pre-tension. The mold is peripherally enclosed by a mold sleeve (8) having individual segment guides (10) following the division of the mold segments in the peripheral direction and forming guide tracks extending through the mold sleeve. The mold segments in the form of sliding parts with a protrusion (12) are guided in the segment guides so that they can be displaced outward. Preferred Features: The mold segments are geometrically identical.

Description

The invention relates to a die for a tool set for mechanical Joining according to the preamble of claim 1.

From EP 0 779 843 B1 a tool set for producing joints is plate-shaped parts known, the first upper tool part with a Stamp and a second lower tool part having a round die. The female part has an anvil with an anvil body on which annular element with a head-side sliding surface and a bottom side Pad are provided. Single, surrounding the anvil, Ring-segment-shaped die segments have recesses for a concentric, a longitudinal movement of the die segments allowing flanges thereof to the annular member, each Matrizensegment on the head-side sliding surface under spring preload slidably supported, including an elastic means the Matrizensegmente the lateral surface of the anvil applies.

The disadvantage here is that the die segments due to their unfavorable Ratio of height to radial extent tipping rather than tilt radial slide and thereby cant and thereby jam. The support of the die segments on the anvil body decreases in size the longitudinal outward movement, since the die segments from the Lead at least partially run out. In addition, the must Matrizengrundkörper be undercut in the anvil area to the Secure die segments against axial displacement. An increased Risk of breakage of Matrizengrundkörpers is the result. The lifetimes of a such matrix are therefore low. Furthermore, the annular element requires the anvil body an increased height, whereby the accessibility to Joint in shaft-like components is severely limited.

From WO 01/36124 A2 is a generic tool set for manufacturing known from joints on plate-shaped parts, comprising a round die. Individual, the anvil surrounding ring-shaped die segments are against a spring bias to the outside displaced on a support surface arranged. The radial displaceability of the die segments to the outside becomes limited by a the support surface enclosing stop, the a Matrizenhülse is formed. The stop is also used to an axial Movement of the die segments in their displacement to the outside prevent what this projecting guides, the in Engage undercuts of the die segments. The disadvantage is again, in that the die segments tilt relative to the projecting guides and thereby jam.

Furthermore, from DE 694 08 080 T2 a generic tool set for manufacturing known from joints on plate-shaped parts, a round die includes. The die has four die segments, that of a housing are surrounded. The housing is equipped with oblong holes, with between two slots each pin extend into the interior of the housing. These pins engage in grooves formed on the die segments. In an outward movement of the die segments against a Spring preload are edges of the die segments in the slots of the Matrizengehäuses movable, wherein the engaging in the die segments Counteract pins of a rotational movement of the die segments.

The disadvantage here is that the Matrizensegmente compared to the oblong holes can tilt, since the displacement takes place against a stop, wherein the Die segments a guide solely by unilaterally attacking pins receive.

The object of the invention is therefore to provide a die for a tool set for mechanical joining according to the preamble of claim 1 to provide has a long service life and is compact in construction.

This object is achieved according to the characterizing part of claim 1.

As a result, a die for a tool set for mechanical joining created, the die segments each have a guideway in the Assigning template sleeve. The die segments are supported at their radially to Anvil directed displacement on a support surface of the Matrizengrundkörpers and receive an additional direct guide through the Die segment sections which slideably engage the die sleeve. Such a die is in terms of die height and die diameter built compact and has improved guiding properties for the sliding die segments on.

For this purpose, the die sleeve preferably has the die sleeve wall completely piercing breakthroughs, in which the die segments with one each Intervene extension. The radial displacement of the die segments lies within the segment guides and thus does not lead to increased expansion of the tool in the radial direction. It is also advantageous that dirt can be discharged from the die, which further their service life be improved.

The segment guides in the die sleeve form closed guides that allowing sliding of the die segments radially to the anvil and at the same time limit axial displacement of the same. The in the art required undercuts on the die segments for securing the same against axial displacement of the support surface can be omitted. The Matrizensegmente and thus the entire matrix can consequently a lesser have axial height. That reduced compared to the prior art Ratio of axial to radial extent of Matrizensegmente leads at the same time to a greater stability against tilting during the radial Shifting.

Preferably, the die is round and has a die sleeve with in Circumferentially extending and on a contour line opposite the Support surface arranged guideways. The die segments are then preferably formed as annular sections, preferably at least three Matrizensegmente are provided. Particularly preferred are four to six Matrizensegmente provided to minimize the spatial extent of joints between the die segments in the expanded state to reach.

Preferably, the spring bias is by an elastic ring, the in particular may be a metal spring exerted. For a safe recording of the elastic ring, the die segments each have a in Having circumferentially extending groove.

Further embodiments of the invention are the following description and to refer to the dependent claims.

Fig. 1 zeigt schematisch eine Explosionsdarstellung eines ersten Ausführungsbeispiels einer Matrize zum mechanischen Fügen,

Fig. 2 zeigt schematisch eine Seitenansicht der Matrize gemäß Fig. 1 mit ungespreizten Matrizensegmenten,

Fig. 3 zeigt schematisch eine Draufsicht der Matrize gemäß Fig. 2,

Fig. 4 zeigt schematisch eine perspektivische Ansicht der Matrize gemäß Fig. 2 und 3 seitlich von vorn,

Fig. 5 zeigt schematisch einen Querschnitt der Matrize gemäß Fig. 1,

Fig. 6 zeigt schematisch eine Explosionsdarstellung eines zweiten Ausführungsbeispiels einer Matrize zum mechanischen Fügen,

Fig. 7 zeigt schematisch eine Explosionsdarstellung eines dritten Ausführungsbeispiels einer Matrize zum mechanischen Fügen.

The invention will be explained in more detail with reference to the embodiments illustrated in the accompanying drawings.

1 shows schematically an exploded view of a first embodiment of a die for mechanical joining,

2 schematically shows a side view of the die according to FIG. 1 with unspread die segments, FIG.

FIG. 3 schematically shows a plan view of the die according to FIG. 2, FIG.

4 shows schematically a perspective view of the die according to FIGS. 2 and 3 from the front,

5 shows schematically a cross section of the die according to FIG. 1,

6 shows schematically an exploded view of a second embodiment of a die for mechanical joining,

Fig. 7 shows schematically an exploded view of a third embodiment of a die for mechanical joining.

Figs. 1 to 5 show a first embodiment of a die 1 for a Tool set for the mechanical joining of sheet metal on one another by forming with at least one stamp (not shown) and a Die 1. The die 1 defines a cavity 2 (see Fig. 4) in the inside is added. The die 1 comprises for this purpose an anvil 3 with a head-side Anvil surface against which the stamp is movable. At the anvil are 3 individual cavity segments 9 delimiting the cavity 2 in the circumferential direction. 9 provided that the feed of the punch in the direction of the anvil 3 a Evasive movement transverse to an axial extension of the anvil 3 and thus Run transversely to the punch feed direction. The die 1 comprises to preferably designed as a straight circular cylinder anvil 3, the a Matrizengrundkörper 7 is formed.

On the Matrizengrundkörper 7 is concentric with the anvil 3 is a flat Provided support surface 4, opposite to the anvil 3 with a selectable height protrudes, and which forms a sliding surface for the die segments 9. Die Support surface 4 is preferably perpendicular to an outer circumferential surface of the Anvil 3 arranged. The support surface 4 is preferably on the Matrizengrundkörper 7 provided with an arranged in the center anvil 3.

On the support surface 4 a plurality of die segments 9 are arranged, the at Advance of the punch in the direction of the anvil 3 an evasive movement across to perform the punch feed direction, including the Matrizensegmente 9 against a spring preload are displaced outwards. After spreading the Matrizensegmente 9 then closes the die 1 then again independently.

The spring preload by means of a spring element 5, which is the Matrizensegmente 9 surrounds, including this one each in the circumferential direction extending annular groove 6, which performs the one spring force Spring element 5 aufnimt. Preferred as a spring element 5 is an annular spring. Against which are acting in the direction of the anvil 3 spring force of the spring element 5 the die segments 9 displaced outwards.

The die 1 further comprises a die sleeve 8, which is the Matrizengrundkörper 7 circumferentially encased. The die sleeve 8 has in the circumferential direction, a Division in die segments 9 following, individual segment guides 10, the through the die sleeve 8 extending guideways 11 form and in which the die segments 9 as formed with an extension 12 sliders after guided on the outside are displaced fixed.

The die segments 9, which according to a division as ring sections are formed, each having an inner curved annular surface 13, the the anvil 3 faces and in the non-splayed state with the Outer lateral surface of the anvil 3 is in abutment. The ring part surfaces 13 limit the cavity 2 on the anvil 3 and are formed on a the Anvil 3 facing head 15 of the die segment 9, on which also the Nut 6 is provided for the spring element 5. From the head 15 extends the respective extension 12 of a die segment 9. While the head piece 15th with cake-like, ie radially extending to the anvil 3, opposite lateral edge surfaces 16 is formed, has the extension 12 running parallel to the anvil radius, opposite lateral edge surfaces 17, based on the circumferential line of the support surface 4 on secant sections lie.

Each die segment 9 of header 15 and extension 12 preferably has a flat bottom surface 14 (see Fig. 5), with which the die segment 9 slidably rests on the support surface 4 and with an anvil. 3 remote projection 12 protrudes into a respective segment guide 10. For one Guiding engagement of a die segment 9 in the die sleeve 8 engages the Extension 12 of the die segment 9 as a slider in a closed Guide trained segment guide 10 a. The segment guides 10 penetrate the female sleeve 8 completely. The guideways 11 of Segment guides 10 and the boundary surfaces of the extensions 12 are according to Art matched by sliding guides. The extensions 12 include next to the bottom surface 14 of the bottom surface 14 opposite upper side Guide surface 18. The bottom surface 14 of a die segment 9 facing surface of the guideway 11 preferably remains out of engagement with the die segment 9. The sliding movement of the die segment 9 with his Bottom surface 14 of the support surface 4 in the die sleeve 8 then takes place reliable on the support surface 4.

In the closed state of the die 1 shown in Fig. 5 protrude the Extensions 12 of the die segments 9 with an end piece already in the associated segment guide 10, whereby each die segment 9 in this Basic position is guided. An axial displacement of the die segments 9 in an outward gliding of the same is thus limited from the beginning. The Radial length of the extension 12 relative to the head piece 15 is also such chosen that the movable die segments 9 during spreading through the Matrizenhülse 8 are not wegbegrenzt. The die segments 9 are only radially displaced against the spring bias of the spring element 5, which is even angordnet with distance to the female sleeve 8 and therefore no Wegbegrenzung through the die sleeve 8 undergoes.

In a second embodiment shown in Fig. 6 of the die 1 is a Quick-change closure for attachment of the above-described Die shown on a die holder 19. Intended is a on the Die holder 19 radially to the die sleeve 8 arranged resilient pin 20, the can engage in a radial bore 21 of the die sleeve 8. It is then no screws to be loosened required. Otherwise, the comments apply corresponding to the first embodiment here.

According to a modification, not shown, of such a fastening be provided that instead of the resilient pin a threaded pin with pin is provided, which preferably radially by means of a hexagon socket wrench is displaceable, whereby the pin with the radial bore of the die sleeve is coupled or disconnected.

Fig. 7 shows a previously described die 1 with an alternative attachment. At the Matrizengrundkörper here is an eccentric pin 22 with an internal thread provided, which has an eccentricity between Matrizenmitte and pin center has, in a bore 23 of a die holder 19 used and there with a Fixing screw 24 can be locked. Opposite twisting around the Eccentric axis, the die 1 is secured by means of anti-rotation webs 25th Moreover, the comments on the first embodiment apply here corresponding.

The round anvil 3 described in the embodiments can in Variation of the embodiments have alternative forms.

Claims (16)

Die for a set of tools for mechanically joining flat sheets on one another by forming with at least one punch and a die, which limits a cavity (2) is added into the die, the die anvil opposite the punch (3) and arranged on this, the Cavity (2) in the circumferential direction limiting die segments (9) which perform during advancement of the punch in the direction of the anvil (3) an evasive movement transverse to the punch feed direction, including the Matrizensegmente (9) against a spring bias to the outside displaceable on a support surface (4) are arranged and the die circumferentially of a die sleeve (8) is sheathed, characterized in that the die sleeve (8) in the circumferential direction, a division in die segments (9) following, individual segment guides (10) which through the die sleeve (8) extending guide tracks (11), and in which the die segments (9) as a fort Atz (12) formed sliders are guided fixed displaceable outwards. A die according to claim 1, characterized in that it is round and the outwardly extending guideways (11) of the segment guides (10) are formed by cutouts. Die according to claim 1 or 2, characterized in that at least three die segments (9) are provided, which are formed as ring sections. A die according to any one of claims 1 to 3, characterized in that the extensions (12) of the die segments (9) have side faces (17) which extend along secant lines of the support face (4). Die according to one of claims 1 to 4, characterized in that the support surface (4) of a Matrizengrundkörper (7) is formed with an arranged in the center anvil (3). Die according to one of claims 1 to 5, characterized in that the die segments (9) each have a radial extension which is longer than a radial extension of the support surface (4). Die according to one of claims 1 to 6, characterized in that all die segments (9) are geometrically identical. Die according to one of claims 1 to 7, characterized in that the die segments (9) are formed with a circular segment-shaped head piece (15). Die according to one of claims 1 to 8, characterized in that an annular spring element (5) is provided for the spring bias, which surrounds the die segments (9) circumferentially. Die according to claim 9, characterized in that the die segments (9) each have a rear-side, circumferentially extending groove (6), which result in an annular groove into which the annular spring element (5) can be inserted. Die according to claim 10, characterized in that the annular spring element (5) is designed as an annular spring. Die according to one of claims 1 to 11, characterized in that the die sleeve (8) is arranged with a predeterminable thickness to the anvil, which forms a Spreizwegführungslänge for the die segments (9). Die according to one of claims 1 to 12, characterized in that the anvil (3) is cylindrical. Die according to one of claims 1 to 13, characterized in that for fixing the die to a die holder (19) the die sleeve (8) has a bore (21) for engagement of a die holder (19) provided and resilient trained pin (20). having. Die according to one of claims 1 to 13, characterized in that for fixing the die to a die holder, the die sleeve has a radial bore for engagement of a provided on the die holder and radially displaceable to the die sleeve threaded pin with pin. A die according to one of Claims 1 to 13, characterized in that an eccentric pin (22) projects into a bore (23) of the die holder (19) for attachment of the die to a die holder (19) on the bottom side of the die base body (7) ) can be used and locked there, wherein anti-rotation webs (25) fix the die edge.

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