DE102004003243A1 - Rubber bead forming tool for molding beads onto emergency running wheels for tires has axially movable actuators with edge curve profile which moves segments radially outwards to create forming ring - Google Patents

Abstract

Individual segments(22.1-22.3,24.1,24.2) are connected to an operating mechanism(26) which can be moved axially inside a ring(28) formed by the segments. The operating mechanism is connected to each segment through actuators. Each actuator has an axial curved profile to determine segment movements. Axial movement of the operating mechanism moves segments from one position in which they form a small diameter to a second position in which they form a larger diameter closed circular ring. Segment actuators form a star shape with a central axis. Edges of the segments form the axial curved profiles. The segment ring(28) comprises inner, smaller(24.1,24.2) and outer, larger(22.1-22.3) segments. Actuators assigned to the inner segments have a curve profile different to the curve profile of the outer segment actuators. Curve profiles comprise sections at different angles to the axis. Segments are located on both sides of a supporting disc and are axially movable. Star-shaped grooves in the supporting disc guide slides which connect via pins with the profiled edge of each segment actuator. The supporting disc comprises two discs, in each of which corresponding cut outs form the guide grooves for slides. Axial curve profiles of actuators assigned to inner segments have a first section with a low incline, a second section with a steeper incline and a third section parallel to axis of the operating mechanism. Axial curve profiles of outer segment actuators have a first section with a low incline and a second section parallel to the axis. Axial movement of the segment operating mechanism during a first phase moves inner and outer segments simultaneously. During a second phase the outer segments remain stationary while inner segments move at higher speed between the outer segments. In a third phase inner and outer segments form the complete segment ring(28) and are retained in this position.

Description

The The invention relates to a device for the production of wheels, in particular emergency wheels for motor vehicles, comprising segment rings formed from a plurality of segments, wherein the individual segments with a segment actuator coupled and wherein the segments from a first position, in which the segment ring has a small diameter, in one second position, in the segments a preferably closed Circular ring with a larger diameter form, are radially displaceable.

devices of the type described above are known from the prior art and are used for tire manufacturing in the tire industry. It is provided that the segment actuation more Cylinder, which are each coupled to one of the segments and starting from a center, a radial displacement of the individual Effect segments. Such devices are due to the variety The cylinders used are very space intensive and require simultaneous Extending and retracting the segments a complex control. moreover Such devices are also prone to failure.

From that Based on the present invention, the problem underlying to develop a device of the aforementioned type such that in the smallest space a mechanically simple and reliable segment actuator realized, with the rubber elements like rubber beads on an inner side of a Notlauffelge can be applied.

The Problem is u. a. according to the invention thereby solved, that the segment operating device axially within the segments ring spanned by the segments is displaceable that the segment actuator each segment assigned and coupled with these segment actuator, which has a have axial curve contour such that the segments by axial Displacement of the segment actuator from the first position of small diameter to the second position with big Diameter and backward displaceable are.

In preferred embodiment are the segment actuators as a star shape surface elements emanating from an axis formed, the segments facing the edges facing the axial curve contour form. By the operation the star-shaped trained segment actuator become due to the axial curve geometry, the segments of an inner contour actuated, at the time necessary for the final shaping To reduce the diameter of the inner profile ring. By shaping the axial curve geometry of the segment actuators different strokes with different timing allowed.

In a further preferred embodiment It is envisaged that the segment ring inner, small and outer, larger segments includes, wherein the inner segments associated Segmentbetätiger a Have curve geometry that differs from the curve geometry of the outer segments assigned segment actuator different. By shaping the curve geometry of the segment actuator different strokes possible with different timing.

For this it is envisaged that the axial curve geometry of the segment actuators more Having sections with different slopes. For example can the axial curvature vengeometrie the inner, smaller segments assigned segment actuator a first low pitch section, a second section have a steep slope and a third section without slope, while the axial curve geometry of the outer, larger segments assigned segment actuator a first low pitch section and a second section without slope.

Preferably the segments are radially displaceable on both sides of a carrier disk arranged, wherein in the carrier disk star shape extending guide grooves are provided for receiving in each case a sliding block slide, wherein the sliding block with each of the axial curve geometry having edge of the Segmentbetätigers over a Nut connection are connected and where the segments via pins associated with the gate valves.

to Introduction of the guide grooves in the carrier disk is provided that this comprises two disc elements, wherein in each disk element corresponding to each other and the guide grooves forming moldings are introduced.

It is particularly preferable to mention that during axial displacement of the segment actuating device during a first phase, the inner and outer segments are displaced simultaneously and during a second phase the outer segments are held in position and the inner segments are displaceable between the outer segments at a higher speed and that in a third phase the inner and outer Seg elements form the segment ring and are held in their position.

Further Details, advantages and features of the invention do not arise only from the claims, the characteristics to be taken from these - alone and / or in combination - but also to be taken from the following description of one of the drawing preferred embodiment.

It demonstrate:

1 a perspective view of the device for producing a wheel, in particular emergency wheel with Notlaufrades

2 a perspective view of the device in the retracted state,

3 a side view of the device in the retracted state,

4 a top view of the device in the retracted state,

5 a perspective view of the device in the extended state,

6 a side view of the device in the extended state,

7 a top view of the device in the extended state,

8th a Segmentbetätiger with sliding block and support plate in perspective view,

9 a perspective view of the carrier plate with inserted sliding blocks,

10 a perspective view of the slidable on the support plate segments and

11 the segments arranged on the carrier plate in the extended position.

1 shows a device 10 for the production of an emergency wheel 12 , At the emergency wheel 12 it is a metal ring 14 , in its margins 16 . 18 a circumferential rubber bead is vulcanized. In the installed state of the run-flat tire, this rubber bead rests with a rim edge on a rim flange of the rim and, in the event of a pressure loss, forms an emergency wheel together with the tire.

The device 10 includes a variety of segments 22.1 - 22.4 such as 24.1 - 24.2 equipped with a segment actuation device 26 are coupled to the segments from a first position in which the segment ring has a small diameter, in a second position in which the segment ring forms a closed circular ring, are radially displaceable.

2 shows the device 10 in an extended state, ie in a state in which the circular ring segments 22.1 . 24.1 have a small diameter. According to the invention, it is provided that the segment actuating device 26 within the segments ring spanned by the segments 28 in the direction of the arrow 30 is axially displaceable. Starting from an axis 32 includes the segment actuator 26 Segmentbetätiger 34.1 - 34.4 such as 36.1 - 36.4 , each one of the segments 22.1 - 22.4 respectively. 24.1 - 24.4 assigned and coupled with these. It is further provided that the segment actuators 34.1 - 34.4 ; 36.1 - 36.4 an axial curve contour 38 respectively. 40 such that the segments 22.1 - 22.4 ; 24.1 - 24.4 by axial displacement of the segment actuator 26 from the first position, in which the segments are retracted and form a small diameter, in the second position, in which the segments are extended and form a circular ring with a large diameter and are displaced back.

The segment actuators 34.1 - 34.4 ; 36.1 - 36.4 are as star-shaped from the axis 32 outgoing surface elements formed, the edges facing the segments 38 . 40 form the axial contour.

The segments 22.1 - 22.4 such as 24.1 - 24.4 are on both sides 42 . 44 a carrier disk 48 arranged and are displaceable on this in the axial direction. The carrier disk 48 consists of an upper disc element 50 and a lower disk element 52 ,

The 3 and 4 each show a side view and a plan view of the device 10 in the first position, ie with retracted segments 22.1 - 22.4 ; 24.1 - 24.4 , Of the 3 it can be seen that the inner, smaller segments 22.1 - 22.4 are arranged in the retracted state on the inside, while the outer, larger segments 24.1 - 24.4 essentially form an outer annulus.

3 It is clear that the inner segments 22.1 - 22.4 assigned segment actuator 34.1 - 34.4 a curve geometry 38 that differ from the curve geometry 40 the outer segments 24.1 - 24.4 assigned segment actuator 36.1 - 36.4 different.

5 shows a perspective view of the device 12 in a state with extended segments 24.1 - 24.4 and 22.1 - 22.4 , in this state the closed circular ring 28 form. In this position is the segment actuator 26 fully retracted, with the segments 22 . 24 held in their final positions. In this position are outer edges 54 . 56 sealingly on an inner edge of the metal ring forming the run-flat wheel (not shown), the outer surfaces 58 of the upper annulus or 60 of the lower annulus form a molding portion for the rubber ring to be vulcanized on the metal ring.

6 clearly shows that the axial curve geometry 38 . 40 the segment operator 34 . 36 several sections 62 . 64 has, whose contours have different slopes. The same applies to the axial curve geometry 38 of the segment operator 34 , the sections 66 . 68 . 70 , in the 3 are shown. It is envisaged that the first section 66 a slight slope, the second section 68 a stronger and the third section 70 has no slope, ie parallel or approximately parallel to the longitudinal axis 32 runs. The axial curve geometry 40 , the segment operator associated with the outer, larger segments 36 is the first section 62 formed with a low pitch, which is essentially the slope of the section 66 corresponds and a second section 64 which has no slope, ie parallel or substantially parallel to the axis 32 runs.

8th shows a perspective view of the segment actuating device 12 and the lower disc element 54 the carrier disk 50 , As already described above, the segments are 22 . 24 on both sides of the carrier disk 50 arranged axially displaceable. It is envisaged that the carrier disk 50 the disc elements 54 . 56 comprises, wherein in each disc element mutually corresponding formations 71 are introduced and star-shaped leadership notes 72 for receiving a gate slider 74 form. In this case, the sliding links are each one of the segment actuators 34 . 36 via a groove connection 76 connected to each other, with the segments 22 . 24 each via pins 78 which are in slot-shaped recesses 80 the disc elements 54 are guided, are connected. For the production of the groove connection 76 is provided that the segment actuators 34 . 36 at the edge, preferably 2 grooves 82 have, in the on the sliding gates 74 arranged pins 84 intervene so that these are at axial movement of the segment actuator 34 . 36 to make a radial movement. The in the grooves 82 the segment operator 34 . 36 engaging pins 84 are shown in perspective in FIG.

9 shows an arrangement of the segments 24.1 - 24.4 along with the segments 22.1 - 22.4 and the carrier plate 50 without segment operating device 12 ,

The 10 shows a perspective view of the composite of the individual segments segment ring in perspective view without the segment actuator 12 ,

To make a Notlaufrades the segments 22 . 24 brought into the retracted state in which the segment actuator 26 in a first position, that is moved out of the segments. Subsequently, the metal tire 14 over the segments 22 . 24 slipped and the Segmentbetätigungseinrichtung 26 moved in the direction of the segments, so that the segments are extended in a second position, ie have a large diameter, form a circular ring and with their edges 54 . 56 sealingly against an inner edge of the metal ring. Subsequently, an upper and a lower mold part are placed so as to form a mold cavity for molding of the rubber bead to the metal ring. After vulcanization of the rubber ring, the upper and lower mold halves are opened, then the segment actuator 26 moved out, causing the segments are retracted and thus finished te runflat wheel is released. By the segment actuation device according to the invention 26 In a small space a mechanically simple and störunanfällige device is provided to a radial displacement of the segments 22 . 24 to reach. In addition, the advantage is achieved that by shaping the contours 38 . 40 different strokes with different timing can be made possible.

Claims (9)

Contraption ( 10 ) for the production of wheels ( 12 ), in particular an automotive run-flat wheels, comprising one of a plurality of segments ( 22 . 24 ) formed segment ring ( 28 ), whereby the individual segments ( 22 . 24 ) with a segment actuation device ( 26 ), with which the segments ( 22 . 24 ) from a first position, in which the segment ring has a small diameter, into a second position, in which the segment ring forms a closed circular ring and has a larger diameter, are radially displaceable, characterized in that the segment actuating device ( 26 ) within of the segments ( 22 . 24 ) clamped segment ring is axially displaceable, that the segment actuation device ( 26 ) each segment ( 22 . 24 ) associated with this and coupled to this Segmentbetätiger ( 34 . 36 ), which has an axial curve contour ( 38 . 40 ) such that the segments ( 22 . 24 ) by axial displacement of the segment actuating device ( 26 ) are displaceable from the first position with a small diameter into the second position with a large diameter and back. Device according to claim 1, characterized in that the segment actuators ( 34 . 36 ) as a star shape from an axis ( 32 ) outgoing surface elements are formed, whose edges facing the segments the axial curve contour ( 38 . 40 ) form. Apparatus according to claim 1 or 2, characterized in that the segment ring inner, smaller and outer, larger segments ( 22.1 - 22.4 ), wherein the segment actuators associated with the inner segments ( 34.1 - 34.4 ) a curve geometry ( 38 ), which differ from the curve geometry ( 40 ) of the outer segments ( 24.1 - 24.4 ) associated Segmentbetätiger ( 36.1 - 36.4 ) is different. Device according to at least one of the preceding claims, characterized in that the axial curve geometry ( 38 . 40 ) of the segment operator ( 34 . 36 ) several sections ( 60 . 62 . 64 . 66 . 68 ) with different slopes. Device according to at least one of the preceding claims, characterized in that the segments ( 22 . 24 ) on both sides of a carrier disk ( 48 ) are arranged axially displaceable, wherein in the carrier disc ( 48 ) star-shaped guide grooves ( 72 ) for receiving in each case a sliding block slide ( 74 ) are provided, that the sliding links ( 74 ) each with the axial curve geometry having edge ( 38 . 40 ) of the segment actuator via a groove connection ( 76 ) and that the segments via pins ( 78 ) are connected to the sliding gate valves. Device according to at least one of the preceding claims, characterized in that the carrier disc ( 48 ) two disc elements ( 50 . 52 ), wherein in each disc element mutually corresponding and the guide grooves ( 72 ) forming formations ( 70 ) are introduced. Device according to at least one of the preceding claims, characterized in that the axial curve geometry ( 38 ) of the inner, smaller segments ( 22 ) associated Segmentbetätiger ( 34 ) a first section ( 66 ) with a low gradient, a second section ( 68 ) with a steep slope and a third section ( 7l ) without slope. Device according to at least one of the preceding claims, characterized in that the axial curve geometry ( 40 ) of the outer, larger segments ( 24 ) associated Segmentbetätiger ( 36 ) a first section ( 62 ) with a low slope and a second section ( 64 ) without slope. Device according to at least one of the preceding claims, characterized in that during axial displacement of the segment actuating device ( 26 ) during a first phase the inner and outer segments ( 22 . 24 ) are displaced simultaneously, that during a second phase the outer segments ( 24 ) held in position and the inner segments ( 22 ) are displaceable with greater speed between the outer segments and that in a third phase the inner and outer segments ( 22 . 24 ) the segment ring ( 28 ) and held in their position.