EP2094416A1

EP2094416A1 - Arrangement of a pin in a bore and method for positioning and securing the pin in the bore

Info

Publication number: EP2094416A1
Application number: EP07821142A
Authority: EP
Inventors: Ralf Morlo
Original assignee: ZF Friedrichshafen AG
Current assignee: ZF Friedrichshafen AG
Priority date: 2006-10-24
Filing date: 2007-10-10
Publication date: 2009-09-02
Also published as: JP2010507764A; DE102006049998A1; US20100313408A1; WO2008049731A1; CN101528383A

Abstract

The invention relates to an arrangement of a pin (1) in a bore (2) of a disc (3), in particular a planetary gear pin (1) in a guiding disc (3) of a planet carrier, wherein the pin (1) is secured against turning by caulking with the disc (3). It is proposed that the pin (1) has at the extreme end at least one depression (6), in which material (3b) of the disc (3) can be caulked.

Description

Arrangement of a bolt in a bore and method for positioning and securing the bolt in the bore

The invention relates to an arrangement of a bolt in a bore according to the preamble of claim 1 and a method for positioning and securing the bolt according to the preamble of claim 8.

In Planetenradträgem of planetary gear, it is known to use bolts, in particular planetary pin or rivet bolts (for spacer) in holes of guide discs and caulking with the discs. Planetenradbolzen have longitudinal and transverse bores through which the bearings of the planet gears oil is supplied. The Planetenradbolzen must therefore be aligned in its angular position with respect to the direction of rotation of the planet carrier before they are fixed by caulking. Therefore, beads are provided in the holes of the planet carrier, in which the material of the planet gear is caulked against rotation. The disadvantage here is that the inclination and pitch of the bore axis can change. The alignment of the bolt takes place in a known method by a mounting device which engages in the central oil hole and aligns the planetary pin. However, this method is only possible with larger bolt diameters, but not with smaller bore diameters.

From EP 1 214 536 B1, a planet carrier was known, which consists of two parallel guide plates and these connecting spacers in the form of rivet bolts. The rivet bolts have end-side pins, which are inserted into bores of the guide disks and then caulked. The material of the pin is pressed radially outwards and over the edge of the bore. The rivet bolt then sits firmly in the hole and is fixed both in the axial and in the tangential direction. Planetenradbolzen, which - as mentioned above - have oil holes are caulked in a similar manner with the guide discs. The disadvantage here is that the material of the planetary pin is relatively hard and can therefore caulk only with the appropriate force.

It is an object of the present invention to provide an easy way to align the bolt in the hole and a simplified, less expensive rotation of the bolt relative to the disc in an arrangement of the type mentioned. It is also an object of the invention to provide a method for positioning and rotation of the bolt.

This object is solved by the features of claim 1. Advantageous embodiments emerge from the subclaims.

According to the invention it is provided that the bolt has on its end face at least one recess, preferably a groove. Advantageously, the groove extends in the direction of a diameter through the center of the end face, ie diametrically. In the outermost, diametrically opposite areas of the groove, the material of the disc, ie the bore edge is pressed by caulking, so that a positive connection between the pin and disc, ie an anti-rotation results. The groove according to the invention also makes it possible, with the help of a suitable tool to bring the bolt before caulking by turning in a desired angular position - this is possible even at very small diameters. The bolt can thus be twisted like a bolt with a slotted head by means of a screwdriver. After the caulking, which is done by a suitable, in the axial direction zuzustellenden stamp, no deburring is required - the end face of the bolt is flush with the outer surface of the disc or is slightly opposite to the outer surface of the disc inside reset. The introduction of the groove in the end face of the bolt is associated with little production effort. The frontal groove according to the invention thus fulfills two functions, namely, on the one hand, the possibility of positioning and, on the other hand, the possibility of preventing rotation due to sticking. Instead of a diametrically arranged groove and two, z. B. arranged at right angles or more, z. B. star-shaped grooves may be provided. Possible and within the scope of the invention would also be such recesses or shapes on the face of the bolt, which on the one hand enable the engagement of a tool for turning and on the other hand, the impressing of material of the adjacent edge of the hole in Verstemmen.

The invention is particularly advantageous in Planetenradbolzen with oil holes in the form of longitudinal and transverse bores, since they must be aligned before their fixation in their angular position relative to the planet carrier or its guide discs. An advantage of caulking is that the relatively soft material of the planet carrier or the guide plate is displaced in the frontal groove of the planetary pin. The relatively hard material of the planetary bolt is not caulked. The bolt can thus be through hardened.

The object of the invention is also achieved by a method having the features of claim 8, wherein a bolt aligned with the end face groove after insertion into the bore or a planet carrier in the holes and is then fixed by caulking, which by axially advancing a Stamp is done. The caulking requires less effort because of the relatively soft material; this results in lower deformation forces, which affect to a lesser extent on an inclination or entanglement of the planet pin axes. By caulking no burrs, which must be subsequently eliminated. An embodiment of the invention is illustrated in the drawing and will be described in more detail below. Show it:

1 shows a detail of a bolt in a bore,

2a is a partial section through the bolt of FIG. 1,

2b is a partial view of the bolt and

Fig. 2c is a plan view, d. H. the front of the bolt.

Fig. 1 shows a partially illustrated Planetenradbolzen 1, which is arranged in a bore 2 of a likewise only partially shown guide plate 3 of a planet carrier, not shown. The Planetenradbolzen 1 has a longitudinal axis 1a and an end face 1b, which terminates approximately flush with the outer surface 3a of the guide disc 3 before the final assembly. In Planetenradbolzen 1 extending in the longitudinal direction 1a longitudinal bore 4 and a transverse bore 5 are arranged for the supply of oil from bearing points of the planetary gears, not shown. In the end face 1 b a groove 6 extending transversely to the longitudinal axis 1 a is worked in, which penetrates the longitudinal bore 4. The arrangement shown in the drawing to the left of the longitudinal axis 1a shows the Planetenradbolzen 1 in its initial position, the arrangement shown in the drawing right of the longitudinal axis 1a shows the Planetenradbolzen 1 after caulking by means of a stamping 7 formed as a caulking. The punch 7 has an approximately frustoconical end face 7a and is delivered in the direction of the longitudinal axis 1a, ie it presses on the one hand on a bore 2 surrounding edge region 3b of the guide disc 3 and on the other hand on the end face 1b, which by the advancing movement of the punch 7, 7a is reset. At the same time, the material of the guide disk 3 is displaced out of the edge region 3b into the end groove 6 - as shown in the drawing. This results in a positive connection between pinion 1 and guide plate 3, so that the pinion 1 against Twist secured and fixed in an axial direction. Before caulking, the bolt 1 can be adjusted by rotation about the longitudinal axis 1a by means of a tool, not shown, which engages in the longitudinal groove 6 from the front side, that is brought into a desired angular position. Thereafter, the caulking described above.

2a, 2b and 2c show the Planetenradbolzen 1 of FIG. 1 as a single part, but only partially as a longitudinal section (Fig. 2a), as a view (Fig. 2b) and as a plan view (Fig. 2c). For the same parts, the same reference numbers are used as in Fig. 1. Fig. 2b shows the profile of the longitudinal groove 6, which is approximately U-shaped. Fig. 2c shows the diametrical arrangement of the end groove 6, d. H. it runs in the direction of a diameter and is thus penetrated by the longitudinal bore 4. Fig. 2b and Fig. 2c show a chamfer 8 on the front side of the planetary gear 1, whereby the assembly is facilitated.

The invention is not limited to planetary gear bolt on the embodiment shown above, but also deviations or other embodiments are conceivable, which fulfill the functions of the invention, on the one hand in an adjustability of the bolt and on the other hand in the subsequent rotation. It is of particular importance that the material of the disc or the bore edge caulked, that is plastically deformed and not that material of the Planetenradbolzens, as is the case in the prior art. The material of the disc is usually softer in such arrangements, while the bolt, in particular a Planetenradbolzen, generally has a harder material or is hardened after manufacture. In this respect, alternative recesses or shapes on the circumference or the end face of the bolt are conceivable, in which the material of the bore edge can flow from outside to inside during caulking. reference numeral

1 planetary bolt

1a longitudinal axis

1b face

2 bore

3 guide disc

3a outside

3b edge area

4 longitudinal bore

5 cross hole

6 frontal groove

7 stamps

7a forehead area

8 chamfer

Claims

claims

1. Arrangement of a bolt (1) in a bore (2) of a disc (3), in particular a Planetenradbolzens (1) in a guide disc (3) of a Planetenradträgers, wherein the bolt (1) by caulking with the disc (3) against Is secured twisting, characterized in that the bolt (1) has at least one end face (6), in which material (3b) of the disc (3) can be caulked.

2. Arrangement according to claim 1, characterized in that the at least one recess is formed as a groove (6).

3. Arrangement according to claim 2, characterized in that the groove (6) extends diametrically on the end face of the bolt (1).

4. Arrangement according to claim 2 or 3, characterized in that the groove (6) has an approximately U-shaped cross-section.

5. Arrangement according to one of claims 1 to 4, characterized in that the bolt (1) has a longitudinal bore (4) and at least one longitudinal bore (4) passing through the transverse bore (5).

6. Arrangement according to claim 5, characterized in that the longitudinal bore (4) penetrates the end-side groove (6).

7. Arrangement according to one of claims 1 to 6, characterized in that the end face (1b) of the bolt (1) with the outer surface (3a) of the disc (3) is flush.

8. A method for positioning and securing a bolt (1) in a bore (2) against rotation in an arrangement according to one of claims 1 to 6, characterized in that the bolt (1) inserted into the bore (2), by engagement a tool in the frontal depression (6) aligned with respect to its position and / or by caulking of the edge region (3b) of the bore (2) in its

Position is fixed.