DE10108189A1 - Bolt and housing arrangement has calk mark in cavity in bolt, plunger, hole in housing, and cavity flanks - Google Patents

Abstract

At least one calking mark (10) is calked radially in a cavity (12) in the outer periphery of the bolt (4), from the material (24) of the housing-hole (6). Axial calking pressure is applied by a calking plunger (15) on the housing's end side (14) on the end-side edge of the hole (16) next to the housing's hole. The cavity in the bolt is flanked axially on both sides by bolt material. the at least one calk-mark extends between the two cavity-flanks (18,20) radially into the cavity so as to secure the bolt in both axial directions

Description

The invention relates to a position securing method and a thus secured bolt and housing arrangement according to Preamble of claim 1 and claim 11.

The term "bolt" is used in describing the invention used as a generic term, which in a housing bore non-rotatable bolts and axles as well as in one housing bore comprises rotatably arranged bolts and shafts. these can be solid or hollow. In particular, the invention relates to the axially securing such bolts in a bearing housing, Gearbox housing, motor housing or generator housing. Especially the invention is advantageous where to attach axial securing means there is little space. A preferred application of the invention relates, for example Planetary gear and in particular the axial attachment of bearing bolts in a planet carrier, the bolts the Carriers of planet gears are.

In the prior art are used for the axial securing of bolts (Bolts, shafts and axles) securing elements such as for example circlips, snap rings and the like loose items used. For example, DE-A-26 52 652 shows a planetary gear with pin bolts in holes of a planet carrier. Securing the bolts against axial Moving is done through wire rings that are in an annular groove Bolts are arranged. The bolts come with theirs Wire rings pressed into the holes of the planet carrier, until the wire rings disappear in a hole extension.  

Then one that extends over all bolts Locking plate on the bolts and on a pin of the Planet carrier postponed. Then that will Locking plate fixed by caulking the pin.

DE 35 01 400 C1 shows a planetary gear with a hollow one Planetary gear bolts, the ends of which are axially slotted and through a ball inserted into it radially against the bore wall of the Planet carrier are pressed.

The object of the invention is to achieve an axial one Secure the position of a bolt in a housing bore create, which no loose securing elements like Circlips or snap rings required and by which of the Assembly work for gearboxes, in particular Planetary gear, or the assembly effort for bearings or for Internal combustion engines or for electrical machines (motor, Generator), is significantly reduced. At the same time Reductions in quality due to incorrectly installed Securing elements can be avoided.

This object is achieved according to the invention by the characterizing features of claim 1 and of claim 11 solved.

Accordingly, the invention relates to a position securing method for axial securing of a bolt in a housing bore, characterized in that of the housing material Bore hole at least one caulking mark radially into one Recess in the outer circumference of the bolt is caulked by an axial caulking pressure by means of a caulking punch the housing face on the radial to the housing bore adjacent front edge of the hole and one thereby formed axial and radial caulking of the Housing material, the recess in the bolt axially is limited on both sides by bolt material and the least a caulking mark between the two  Recess boundaries extend radially into the recess, so that the bolt is in both axial directions from the axially securing at least one caulking mark.

The invention further relates to a bolt and housing arrangement with an axial position securing of a bolt in one Housing bore, characterized in that the Housing material of the housing bore at least one Caulking mark radially into a recess in the outer circumference of the Bolt is caulked by an axial caulking pressure on the Front of the housing on the radially to the front of the housing adjacent front edge of the hole and one thereby resulting axial and radial material caulking of the Housing material that the recess in the bolt is axial is limited on both sides by bolt material and the least a caulking mark between the two Recess boundaries extend radially into the recess, so that the bolt is at least in both axial directions a caulking mark is secured axially.

The invention results in the following in particular Advantages: There are no additional securing elements for the Axial securing of bolts (bolts, shafts, axes) in bores more needed. The assembly effort of gearboxes, bearings, Motors, machines, etc. are significantly reduced. The danger of quality reductions due to incorrectly installed Securing elements are avoided.

Further features of the invention are in the subclaims contain.

The invention will now be described with reference to the drawings using a preferred embodiment as an example described. Show in the drawings

Fig. 1 is an axial half section of a pin and box arrangement according to the invention in the lower part of the figure in front of the axial position-securing and in the upper part of the figure according to the axial position securing a bolt in a bore of a housing,

Fig. 2 is an end view of a caulking punch of Fig. 1 viewed in the direction of an arrow II of Fig from the right. 1,

Fig. 3 is a complete axial section of the bolt and housing arrangement shown in Fig. 1 in the upper part according to the invention.

The bolt and housing arrangement shown in the drawings contains an axial position lock 2 of a bolt 4 in a bore 6 of a housing 8 . The housing 8 is, for example, a planet carrier of a planetary gear. The bolt 4 is, for example, a planet gear bearing pin carried by the planet carrier 8 for a planet gear.

Securing the position 2 is formed by providing 6 at least a portion is caulked as Verstemmmarke 10 radially in a Ausnehmumg 12 in the outer periphery of the bolt 4 of the housing material of the housing bore by an axial caulking to the Gehäusestrinseite 14 at the radially adjacent to the bore 6 frontal edge of the hole 16 and a resulting axial material caulking of the housing material 8 . Here, "caulking" means plastic material deformation.

The recess 12 in the bolt 4 is axially delimited on both sides by bolt material and the at least one caulking mark 10 extends radially between the two axial recess boundaries 18 and 20 , so that the bolt 4 is axially secured in both axial directions by the at least one caulking mark 10 .

A housing 8 serving as a planet carrier can contain one or more such bores 6 , each with a planet gear pin 4 .

The recess 12 is preferably a circumferential groove formed in the bolt 4 . The bottom of the groove is preferably round. This facilitates the distribution of the material of the housing 8 in the form of the caulking mark 10 in the groove 12 . The groove depth can be very small, for example in the range between 0.5 mm and 1 mm. The width of the groove need not be large either. For example, it can be between 1 mm and 4 mm.

The recess 12 can be completely or only partially filled in as seen in longitudinal section by the caulking mark 10 . The bolt 4 can be freely rotatably arranged in the bore 6 or can form a press fit therein. When the bolt 4 should be free to rotate even after the forming and caulking the Verstemmmarke 10 must Verstemmmarke 10 in the recess 12 have room to maneuver.

For axially backlash-free securing of the bolt 4 in the housing 8 , the entire axial width of the recess 12 of the bolt 4 is filled by the caulking mark 10 .

In theory, a caulking mark 10 is sufficient around the entire circumference of the bolt. The more caulking marks 10 are provided, the greater the security of the position fixation and the greater the axial forces that can occur between the bolt 4 and the housing 8 without the bolt 4 becoming axially loose in the housing bore 6 .

Preferably, the bolt 4 is also moved in the same axial direction 22 as the caulking material 24 of the housing 8 during the axial caulking movement of the housing material of the housing 8 . It is thereby achieved that the recess 12 is not only filled on one side, but on both sides with material from the housing 8 . This avoids undesired axial misplacement of the bolt 4 in the bore 6 during the caulking process and also afterwards.

The bolt 4 is preferably moved axially and at the same speed as the material 24 of the housing 8 , while this material 24 is axially caulked by means of a caulking punch 15 , at least during part of the axial caulking depth 26 . According to the preferred embodiment, the bolt 4 is moved simultaneously with the caulking of the housing material 24 of the housing 8 by the same axial length 28 and in the same axial direction as the axially caulked housing material 24 , so that the axial movement distance 28 of the bolt 4 is the same as that Caulking depth 26 housing material 24 , by which the caulking mark 10 extending radially into the recess 12 is formed. If the axial displacement 28 of the bolt 4 is approximately the same size as the caulking depth 26 and takes place approximately during the same period of time and approximately the same speed as the axial caulking of the housing material 24 of the housing 8 , then the recess 12 not only fills on one side but also essentially axially on both sides with material (caulking mark 10 ) from the housing 8 . Furthermore, the bolt 4 is thereby free of housing material 24 in the region of the caulking depth 26 .

This axial displacement of the bolt 4 is preferably carried out with the same caulking punch 15 , with which the housing material 24 of the housing 8 is also caulked. For this purpose, the calking 15 has a number of Verstemmmarken 10 corresponding number of axially forwardly projecting against the housing 8 caulking 30 and the bolt 4 axially opposite end-side pressure surface 32 which can be pressed against an end face 34 of the bolt. 4 The punch pressure surface 32 is axially set back from the front ends of the caulking lugs 30 by a distance 36 as far as the bolt 4 on the caulking side or end face 14 of the housing 8 protrudes axially before the caulking process, as shown in the lower part of FIG. 1 is, the caulking lugs 30 abuts the end face 14 without caulking them and the ram pressure surface 32 abuts the stud end face 34 .

Housing material 24 is preferably not caulked into the recess 12 from the housing 8 around the entire circumference of the bore 6 , but rather only in segments on small circumferential sections which are spaced apart from one another in the circumferential direction, as is the case, for example, with six caulking lugs 30 of the caulking punch 15 in FIG. 2 is shown.

Claims (19)

1. Position securing method for the axial securing of a bolt ( 4 ) in a housing bore ( 6 ), characterized in that at least one caulking mark ( 10 ) radially into a recess ( 12 ) in the outer circumference of the bolt from the housing material ( 24 ) of the housing bore ( 6 ) ( 4 ) is caulked by an axial caulking pressure by means of a caulking plunger ( 15 ) on the housing end face ( 14 ) on the end bore hole ( 16 ) radially adjacent to the housing bore ( 6 ) and an axial and radial material caulking of the housing material formed thereby, the recess ( 12 ) in the bolt ( 4 ) is axially delimited on both sides by bolt material and the at least one caulking mark ( 10 ) extends radially into the recess ( 12 ) between the two recess boundaries ( 18 , 20 ), so that the bolt ( 4 ) in both axial Directions of the at least one caulking mark ( 10 ) is axially secured. 2. Position securing method according to claim 1, characterized in that the at least one caulking mark ( 10 ) around the circumference of the housing bore ( 6 ) is only partially formed on a circumferential partial area. 3. Position securing method according to one of the preceding claims, characterized in that the caulking mark ( 10 ) is formed to extend over the entire axial width of the recess of the bolt. 4. Position securing method according to one of the preceding claims, characterized in that two or more caulking marks ( 10 ) of the housing ( 8 ) are caulked around the circumference of the bolt ( 4 ) into the recess ( 12 ) or in each case into a recess of the bolt. 5. Position securing method according to one of the preceding claims, characterized in that during the axial caulking movement of the housing material ( 24 ) the bolt ( 4 ) is moved in the same axial direction as the caulking material ( 24 ) of the housing ( 8 ). 6. position securing method according to claim 5, characterized in that the bolt ( 4 ) is moved axially at the same time and at the same speed as the material of the housing ( 8 ), at least during part of the axial caulking depth ( 26 ) of the housing material ( 24 ). 7. position securing method according to claim 5 or 6, characterized in that the bolt ( 4 ) is moved simultaneously with the caulking of the housing material by the same axial distance ( 28 ) and in the same axial direction as the axial material caulking ( 24 ) of the housing ( 8 ), so that the axial movement distance ( 28 ) of the bolt ( 4 ) is the same size as the axial caulking depth ( 26 ). 8. Position securing method according to one of the preceding claims, characterized in that the caulking of the material of the housing ( 8 ) is carried out with a caulking stamp ( 15 ) which corresponds to the number of caulking marks ( 10 ) corresponding to the number of caulking lugs projecting axially forward against the housing ( 30 ). 9. Position securing method according to one of claims 5 to 8, characterized in that the axial movement of the bolt ( 4 ) is carried out by means of the caulking plunger ( 15 ) and for this purpose the bolt ( 4 ) has an axially facing and axially compressible end pressure surface ( 32 ) , 10. Position securing method according to one of the preceding claims, characterized in that the bolt ( 4 ) is pressed into the housing bore ( 6 ) and forms a press fit therein. 11. Bolt and housing arrangement with an axial position lock ( 2 ) of a bolt ( 4 ) in a housing bore ( 6 ), characterized in that at least one caulking mark ( 10 ) radially into a recess ( 12 ) from the housing material of the housing bore ( 6 ) In the outer circumference of the bolt ( 4 ), an axial caulking pressure on the housing end face ( 14 ) on the end bore hole ( 16 ) radially adjacent to the housing end face ( 14 ) and a resulting axial and radial material caulking of the housing material means that the recess ( 12 ) in the bolt ( 4 ) is axially delimited on both sides by bolt material and the at least one caulking mark ( 10 ) extends radially into the recess ( 12 ) between the two recess boundaries ( 18 , 20 ), so that the bolt ( 4 ) in both axial directions from the axially securing at least one caulking mark. 12. Bolt and housing arrangement according to claim 11, characterized in that the at least one caulking mark ( 10 ) around the circumference of the housing bore ( 6 ) is only partially formed on a peripheral partial region. 13. Bolt and housing arrangement according to claim 11 or 12, characterized in that the caulking mark ( 10 ) engages axially on both sides in the recess of the bolt ( 4 ). 14. Bolt and housing arrangement according to one of claims 11 to 13, characterized in that around the circumference of the bolt ( 4 ) distributed two or more caulking marks ( 10 ) of the housing ( 8 ) in the recess ( 12 ) or each in a recess of the bolt ( 4 ) are caulked. 15. Bolt and housing arrangement according to one of claims 9 to 14, characterized in that the bolt ( 4 ) was simultaneously axially moved at the same speed as the housing material ( 24 ) was axially caulked, at least during part of the axial caulking depth ( 26th ) of the housing material. 16. Bolt and housing arrangement according to claim 15, characterized in that the bolt ( 4 ) was moved during the axial caulking movement of the housing material ( 24 ) in the same axial direction by the same axial length as the axially caulked material ( 24 ) of the housing ( 8 ), so that the axial caulking depth ( 26 ) is the same size as the axial movement distance ( 28 ) of the bolt ( 4 ) and thus the bolt ( 4 ) in the region of the caulking depth ( 26 ) is free of housing material ( 24 ). 17. Bolt and housing arrangement according to one of claims 9 to 16, characterized in that the bolt ( 4 ) is pressed into the housing bore ( 6 ) and forms an interference fit therein. 18. Bolt and housing arrangement according to one of claims 9 to 17, characterized in that a caulking stamp ( 15 ) is provided which has a number of caulking marks ( 10 ) corresponding to the number of caulking marks ( 10 ) projecting axially forward against the housing ( 8 ) caulking lugs ( 30 ). 19. Bolt and housing arrangement according to claim 18, characterized in that the caulking punch ( 15 ) has an end pressure surface ( 32 ) with which it can press axially against the bolt ( 4 ) and thereby move it axially in the housing bore ( 6 ) simultaneously with the caulking of the housing material ( 24 ), at least during part of the axial caulking depth ( 26 ) of the housing material ( 24 ).