US1905277A - Method of making spline couplings - Google Patents

Description

April 25, 1933.

Filed Aug. 3, 1931 2 Sheets-Sheet 1 INVENTOR tbo FEwer April 25, 19 o. F EWERT METHOD OF MAKING SPLINE COUPLINGS I Filed Aug. 3, 1931 2 Sheets-Sheet 2 IlHUHF iguigi ia Hui-Em e INVENTOR 0 $60 F'Ewer BY Mu MM ATTORNEYS Patented Apr. 25, 1933 UITED STTES OTTO F. EWERT, 0F GENOA. CITY, WISCONSIN METHOD OF MAKING SPLINE COUPLINGS Application filed August 3, 1931.

The present invention relates to a new method of making spline couplings adapted for example to secure an outside member, such as the hub of a gear, to an inside mem ber, such as a shaft, and has-particular reference to the forming of a spline shaft having parallel integral keys with tapered bases. I

.The primary object of the present invention resides in the provision of a novel method of generating keys of the foregoing character on the inside member or spline shaft of a spline coupling. 8

Other objects reside in the provision of a novel method of hobbing the inside member of a spline coupling with parallel integral keys having tapered bases which results in accurate forming and spacing of the keys, which makes possible forming of the tapered bases without interference regardless of the varying radius along the taper, which produces bases or roots for the keys that are concentric in cross-section tothe axis, and which permits of a high rate of production.

A further object resides in the provision of a novel method of hobbing rotary members with peripheral projections or keys uniformly spaced about the axis of rotation and extending generally longitudinally of the axis, which method comprises feeding the member and a suitable hob relatively to .each other through cutting engagement along a path inclined to the hob axis so as to project the general longitudinal form of the hob along said path to provide aforeshortened form on the keys and the intervening spaces, generally along said axis of rotation.

The invention is illustrated in connection with the accompanying drawings, in which:

Figure 1 is a fragmentary axial sectional view of a coupling assembly made by'a 5 method embodying the features of my inventi on.

Fig. 2 is an end elevational View of the inside member. a

Fig. 3 is a fragmentary perspective View of one end of the inside member.

Fig. 4 is a diagrammatic view illustrat- Srial No. 554,625.

ing the preferred form of hobbing method employed in splining the inside member.

Fig. 5 is a fragmentary sectional View showing the hob in engagement with the spline shaft.

Fig. 6 is a View similar to Fig. 4 but il+ lustrating the use of a single thread hob. Fig. 7 is a diagrammatic representation in three fragmentary views of successive stages in the generating action. Fig. 8 is a fragmentary end view of the outside end member.

While the invention in its broad aspects I is not limited to the specificdetails of any particular spline coupling, it is herein described in connection with a coupling comprising an inside member in the form of a shaft 11' and an outside member in the form of agear 12 adapted to be rigidly secured thereon. The end of the shaft 11 is formed with a reduced threaded extension orstud 13 adapted to receive asuitable nut 14.

Formed integrally with the end of the shaft 11 are a plurality of generally longitudinal generatedspline keys 15 separated byinterdental spaces 16. Thekeys 15 are parallel, that is to say, the outer longitudinal edges are parallel. The sides of eachkey 15 are parallel, and hence the sides of eachspace 16 converge inwardly. Preferably, thekeys 15 are formed in uniformly spaced relation about the shaft 11.

The roots 0. of thespaces 16 are tapered longitudinally to form a tapered or conical base for thekeys 15. Obviously, due to the taper, the side edges b of the root of eachspace 16 converge. The roots at in cross-section are arcuate, and concentric to the axis of the shaft 11. Y

Thehub 12 of the gear is formed with a plurality of generallylongitudinal projections 17 separated byinterdental keyways 18. Theprojections 17 conform in number, spacing and shape to thespaces 16, and thekeyways 18 conform similarly to thekeys 15. Thus, thekeyways 18 are parallel and have parallel sides and inner arcuate roots 0.

These roots define a cylindrical base for thekeys 15 adapted to receive the shaft 11. Also, theprojections 17 are tapered longtudinally, and have converging sides and inner arcuate faces d concentric to the axis of the shaft 11. These faces define a conical bore adapted to seat snugly on the coni- 5 cal base of the shaft 11. Preferably,clearance grooves 19 are formed in thekeyways 16 at the longitudinal margins of the roots a. In use, thegear hub 12 is fitted onto the splined end of the shaft 11 with the keys andprojections 17 in interfitting relation.

Thehub 12 is tightly secured against the tapered base of thekeys 15 by means of thenut 14. It will be evident that looseness between the shaft 11 and thegear 12 can be 15 fully taken up, and that a tight connection, held definitely against relative rotation by thekeys 15 and 17 is obtained. Thus, thegear hub 12 can not become loose.

The keys .15 are produced by a generating or hobbing method which makes possible the formation of thekeys 15 integral with the shaft 11 without encountering interference even though the roots of thespaces 16 converge in width along the taper, and obviously makes possible a high rate of production. Generated keys are correctly formed and accurately spaced even though the radius of the roots of the keyways changes along the taper.

In carrying out the method, aspecial hob 20 is used. Thehob 20 has acylindrical body 21, and ma have any suitable number of threads. Pre' erably, thehob 20 is of-the multiple-thread type, and in Figs. 4 and 5 is shown as having threethreads 22 intersected by inclined generally longitudinal flutes orgashes 23. A single-thread hob 20 with onethread 22 intersected bygashes 23 can also be used in the method, and is shown in Fig. 6. In each form of hob, thethreads 22 are tapered from one end-to the other of thebody 21. It will be noted that thetaper progresses both along the threads and longitudinally ofthe hob in an axial plane, and that the outer faces e of the hob teeth are therefore laterally; inclined in accordance with the axial taper.

Ribs orlugs 24 are formed on the hob teeth to cut theclearance grooves 19. For cutting a spline shaft without theclearance grooves 19, a hob similar to thehob 20, but with theclearance lugs 24 removed would be used.

It will be understood that the hob thread orthreads 22 may have any desired contour depending on the form to be generated .on' thekeys 15, and that in the present instance, the thread contour is such that straight parallel sides will be formed on each key, and the roots of thespaces 16 will be concentric to the axis of the shaft 11.

The method of operation is illustrated in Figs. 4 to 7. Referring first to Fig. 4, the

the multiple-thread hob 20 is inclined to the 63 shaft 11 to bring thethreads 22 at the cutting side of the hob into parallel relation to thekeys 15 to be cut. The effective length and taper of thehob 20 are definitely related to the length of the shaft section to be splined. Assuming f as representing the length of the shaft section ahob 20 is provided having a length such that when it occupies the proper angular position the projection of its effective length in an axial plane of the shaft 11 perpendicular to an axial plane of the hob will-coincide with the length f, and having a degree of taper that will produce the desired degree of taper on the-shaft. The angular position of thehob 20, as well as the length and degree of taper ofthe hob obviously depend on the number of thehob threads 22. For atriplethreadhob 20, theangle g subtended with the shaft 11 is relatively small, and the hob is relatively short.

When using a single-thread hob 20, as shown in Fig. 6, the hob also is inclined to locate itsthread 22 parallel to thekeys 15 to be cut, and its effective length and taper. are determined by the length of the shaft section f to be splined. In this instance,

however, the an le g subtended with the shaft 11 is relatively large, and hence the hob is relatively long. It will therefore be evident that a single-thread hob is suited best for the generation of relatively short keys 1-5, length are to be formed, a multiple-thread hob is most advantageous.

In operation, with ahob 20, either singlethread or multiple-thread, having the foregoing specifications and the correct angular position, and ositioned also to take the desired depth 0 'cut, thehob 20 and the shaft 11 are rotated in timed'relation, and the hob is gradually fed relatively acrossthe shaft in a direction at an angle to the hob axis, for example in the direction of the arrow. into the position indicated in dotted outline. In crossing the shaft .11, thehob 20 generates thekeys 15 with the desired form.

The feed efiects a rollingor generating action by reason of which the keys and the roots of thespaces 16 are correctly and accurately formed, and which avoids interference even though the roots of the spaces are tapered and hence variable in width and radius along the taper. The generating action is illustrated in Fig. 7. It will be evident that as the feed proceeds and the hob axis gradually crosses the axis of the shaft, the spaces 16-are cut to full depth progressively from the outer end to the inner end of the shaft section f. Byreason of the taper of the hob threads, the roots of the spaces are tapered.

It will be evident that by reason of the inclination of the hob axis to the path of feedingmovement, the longitudinal form of the hob thread will be projected alongthe and that Where keys of substantial a I thespaces 16 along the during said rotation path of movement so as to cut progressively a foreshortened form on thekeys 15 and axis ofrotation of the inside member 11. Since, for the preferred form of coupling, thehob thread 22 is tapered in height and uniform in width at the pitch line along its length, thekeys 15 are uniform in width, and the roots at of thespaces 16 are tapered as described. The invention in its broad aspects is not limited to the specific form of the hob thread since various forms may be used so as to produce different kinds ofkeys 15 andspaces 16.

Thelugs 24 on the hob cut thegrooves 19. The edges 6- are not generated with sharp corners, but by reason of thegrooves 19, the outer edges of theprojections 17 can be sharp. If thegrooves 19 were not provided, the longitudinal edges of theprojections 17 would be made slightly rounded or chamfered.

\ Thehub 12 of the gear may be splined in any suitable manner. Preferably, a taper bore coincident with the inner faces at of theprojections 17 is formed, and then a suitable broach is taper bore to form the theprojections 17.

I claim as my invention I 1. The method of hobbing an inside member of a spline coupling which comprises positioning the member and the hob in operative relation with the hob axially inclined to the perpendicular to the member, rotating the member and the hob in timed relation, and feeding the hob relatively across the axis of said member in a path at an angle to the hob axis during said" rotation through cutting engagement.

7 2. The method of hobbing the inside member of a spline coupling which comprises positioning the member and the hob in operative relation to generate keys on the member upon relative movement therebetween transversely of the member, the hob being inclined longitudinally to the member andkeyways 18 defining being of a length such that the projection foreshortened of its effective length along the path of movement on the member is coincident with the length of thatportion oi? the member to be hobbed, rotating the member and the hob in timed relation, and feeding the hob relatively across the member through cutting engagement.

3. The method of hobbing the inside member of a spline coupling which comprises 'positioning the member and a longitudinally tapered hob in operative relation to generate uniformly spaced, integral keys with tapered bases on the member upon relative movement therebetween transversely of the member, the hob being inclined longitudinally to the member, rotating the mempulled axially through the ber and the hob in timed relation, and feeding the hob relatively across the member in a path other than anextension of the hob aXis during said rotation through cutting engagement.

4.'The method of hobbing a spline shaft integral keys having tapered concentric,

bases which comprises positioning the section and a hob in operative relation to gen erate the keys upon relative movement therebetween transversely of the section, with the hob inclined longitudinally to the normal to the section at an angle corresponding to the angle of the hob thread, and with the hob thread tapered in height from one end to the other and the backs of the hob teeth inclined laterally, rotating the shaft section and the hob in timed relation, and feeding the hob relatively across the section during said rotation through cutting engagement.

6. The method of hobbing a spline shaft sectionwith parallel keys having tapered bases which comprises positioning a hob having a cylindrical body and a tapered thread at an angle to the normal of said section corresponding to the angle of the thread and in a position longitudinally of the section such that the projection of the effective length of the hob on the section is coincident with the length of the section to be hobbed, and the projection 'of the ,thread taper on said section is coincident with a taper of the bases of the keys, rotating the shaft section and the hob in timed relation, and feeding the hob relatively across the section during said rotationthrough cutting engagement.

7. The method of hobbing a spline shaft section comprising rotating the section and a hob having a longitudinally tapered thread in timed relation, with the hob axially inclined longitudinally to the section, and moving the hob relatively across the axis of the section in a path at an angle to the hob axis during said rotation through cutting engagement.

8. The method of forming a spline coupling comprising hobbing the inside member to form thereon parallel integral keys with tapered bases, forming a tapered bore v in the outside member, and broaching the bore of the outside-member to form therein longitudinal projections with parallel cylindrical bases and adapted to interfit with the keys on the inside member.

9. The method of hobbing a spline shaft section comprising rotating the section and a multiple-thread hob having longitudinally tapered threads in timed relation, with the hob inclined longitudinally to the section, and moving the hob relatively across the section in a direction at an angle to the hob axis during said rotation through cutting engagement.

10. The method of hobbing a spline shaft section with longitudinal keys having tapered bases which comprises positioning the section and a longitudinally tapered multiple-thread hob in operative relation to generate the keys upon relative movement therebetween transversely of the section, with the hob inclined'longitudinally to the normal to the section at an angle corresponding to the angle of the hob threads, rotating the shaft section and the hob in timed relation, and feeding the hob relatively across the section during said rotation through cutting engagement.

11. The method of hobbing a cylindrical shaft section to form parallel longitudinal keys with tapered bases which comprises providing in depth from end to end and of a. length such that when inclined at the thread helix to the section the projection of the effective hob axis in an axial plane of the section perpendicular to an axial plane of the hob cotudinally tapered hob havin incides in length with the portion of the section to be hobbed, positioning the hob, rotating the section and the hob in timed. relation, and simultaneously feeding the hob relatively in a straight path perpendicularly across the axis of thesection through cutting engagement therewith.

12. The method, of bobbing a cylindrical shaft section to -form parallel longitudinal keys with tapered bases and with clearance grooves along the lon 'tudinal margins of the bases which comprlses providing a hob having a thread tapered in de th from one end to the other and having c earance ln s along the sides on the tops of the teet positioning the hob relative to the section at an angle to the normal to the section corresponding to the thread helix, rotating the section and the hob in timed relation, and simultaneously feeding the hob relatively across the section in a direction at an angle to the axis of the hob through cutting engagement with the section.

a hob having a thread tapering sharp and at one side of the section, rotating the section and the hob in timed relation, and moving the hob relatively across the section at an angle to the hob axis during such rotation through cutting engagement to form generally longitudinal ke s on the section and to impart a longitu inal taper to the bases of the keys corresponding to the pro-' jected taper of the hob.

14. The method of hobbing the inside member of a spline coupling with elongated generally longitudinal laterally alined peripheral keys of predetermined length, the

keys being separated by longitudinal spaces having root surfaces concentric in form about the axis of rotation, said method comprising providing a hob having a predetermined longitudinal contour, rotating the hob, relatively feeding the hob in a rectilinear path extending across said axis at an angle to the hob axis through cutting engagement with the member, the hob being axially inclined from a perpendicular tosaid first axis at an angle corresponding to its lead angle, the hob section having an effective length such that the projection of its form along said path in an axial plane of the member is coextensive in length with the keys to be out, and during said engagement rotating the member in timed relation to the rotation of the hob and the feeding movement relative thereto.

15. The method of forming a spline coupling comprising hobbing the inside memher to form thereon parallel integral keys with tapered. bases and clearance grooves along the longitudinal margins of the bases, forming a tapered bore in the outside member, and breaching the bore of the outside member to form therein longitudinal projections with parallel cylindrical bases and longitudinal corner edges, the projections beingadapted to interfit with the keys on the. inslde member.

In testimony whereof, I have hereunto afixed my signature.

' @TTU F. EWEBT.

13. The method of hobbing a spline shaft section which comprises providing a longlteeth wlth clearance lugs on their tops a ong the side margins, positioning thehob at an angle to

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