US2576866A - Angularly adjustable golf club and locking means therefor - Google Patents

Description

J. VERDI-:REER 2,57666 NGULARLY ADJUSTABLE GOLF CLUB AND LOCKING MEANS THEREFOR Original Filed MaICh 2l, 1945 2 SHEETS-SHEET l NVENTOR.

JOSEPH VERDERBER ATTORNEY ANGULARLY ADJUSTABLE GOLF CLUB AND LOCKING MEANS THEREFOR Original Filed March 2l, 1945 A 2 SHEETS-SHEET 2 Nov. 27, 1951 VERDERBER 2,576,866

INVENTOR. JOSEPH VERDERBER ATTORNEY Patented Nov. 27, 1951 AN GULARLY ADJUSTABLE 'GOLF CLUB AND LOCKING MEANS THEREFOR Joseph veraerber, cleveland, ohio Original application March 21, 1945, Serial No. 583,902. Divided and this application June 14, 1949, Serial No. 99,021

This invention relates generally to golf clubs,

`but has reference more particularly to golf clubs having angularly adjustable heads and to means for adjusting such heads.

This application is a division of my copending application, Serial No. 583,902, filed March 21, 1945, now Patent No. 2,475,926 granted July l2, 1949, which also relates to adjustable head golf clubs.

In my copending application, above referred to, I have disclosed an adjustable head golf club in which a radially movable member is utilized the character described, in which improved means `are provided for effecting the -release of the club head for adjustment purposes.

Another object of the invention is to provide improved means for locking the club head in its adjusted position.

Still another object `of the invention is to simplify the arrangement of the parts and reduce the number of parts required to effectively perform the aforesaid functions.

Other objects and advantages of the invention will be apparent during the course of the following description.

In the accompanying drawings, forming a part of this specification, and in which like numerals are employed to designate like lparts throughout the same, l

Fig. v1 is a longitudinal cross-sectional view of a golf club embodying the features of my invention.l

Fig. 2 is a fragmentary cross-sectional view taken on line 2-2 of Fig. 1.

Fig. 3 is a perspective view of one of the splined locking members used in the structure shown in Fig. 1.

Fig. 4 is an elevational detail on an enlarged scale of the head releasing pin shown in Figs. 1 and 2.

Fig. 5 is a view similar to Fig. 1 but showing a modified form of the invention.

Fig. 6 is a perspective view of one of the splined locking members used in that form of the `invention shown in Fig. 5. y

. Fig. 7 is a cross-sectional View similar to that z of Fig. 1, but showing still another modified form of the invention, and

Fig. 8 is a cross-sectional view taken online 8 8 of Fig. 7.

Referring more particularly to that form of the invention shown in Figs. 1 4 inclusive, it will be seen that the pertinent structure includes ahosel 2 which has integrally formed thereon a shank 3 which extends at an obtuse angle thereto.

The shank 3 is provided with an outwardly extending circumferential shoulder 4 which serves as an abutmentfora striking head 5 which is provided with a longitudinal bore 6 and which is rotatably mounted on the shank 3.

The shank 3 is provided with an intermediate portion i9 of slightly reduced diameter and terminates in an externally threaded stud Il of still further reduced diameter.

Thehead 5 is secured against axial displacement relative to the shank 3 by means of a capnut l, the head of which abuts one end of the :head 5, and theshank 8 of which is threaded internally for engagement with the stud Il, the outer surface Yof the shank 3 constituting, in effect, a continuation of the outer surface of the shank 3 so as to form with the latter a bearing surface for thehead 5.

The wall of the bore 6 is provided with a multiplicity of inwardly extending circumferentiallyspaced serrations orteeth 9 which extend longitudinally of the head for a substantial portion of the length of the head, these serrations being practically coextensive in length with the length of the intermediate portion l0 of the shank 3.

The shank 3 is provided with an axial bore I2 which is counterbored as at I3 to provide a shoulder -l 4.

Extending radially from the portion of the bore l2 which lies in the intermediate portion Il) of the shank are a plurality of circumferentiallyspaced slideways or slots I5 in which are disposed splined head-locking members 49, each provided at its radially outermost face with a series -of parallel splines or serrations i6 which are adapted for engagement with thesplines 9 of thehead 5.

The members 49 are provided adjacent their ends with inclined surfaces All and 42, both of which surfaces are inclined in the same direction. A recess lil is provided on the members if] adjacent the foot of theinclined surface 42 and a recess I1 is also provided on the serrated surface I6 of the members.

Theinclined surfaces 4l and 42 of themembers 40 are engaged byconical cam elements 43 and 44 which extend from apin 45 which is mounted for longitudinal reciprocal movement in the bore I2 of the shank, one end of said pin being enlarged to form abutton 48 which projects out of the bore I3 of the shank 3.

Themembers 48 are normally maintained out of engagement with theserrations 9 by means of an annular spring I9 which is seated in an annular recess I8 formed on the shank portion I0, this recess being coextensive and in alignment with the recess I1 on themembers 40. The spring I9 acts normally to retract thesplined members 45 radially inwardly with reference to the shank and when thus retracted, the members 4 are out of engagement with theserrations 9 on thehead 5, and thehead 5 may be rotated. relatively to the shank 3.

Locking means are provided by the previously referred tocam elements 43 and 44 which are normally biased by acompression spring 46 into camming relationship to the members 4B. Thespring 45 is interposed between the cap-nut 1 and the end of thecam element 43, and is substantially stronger than the spring I9.

In the position shown in Fig. 1. themembers 40 have been forced into engagement with theserrations 9 of thehead 5 by the camming action of theelements 43, 44 on theinclined surfaces 4I, 42, which camming action is caused by movement of thepin 45 to the right in response to the force exerted by thespring 46.

The interengagement ofthe serrations I6 with theserrations 9 causes the head to be locked against movement relatively to the shank, and

vthe head 5 will thus remain disposed in any selected position of angularity relative to the shank.

In order to release thehead 5 from its locked position, the player merely pushes thebutton 48 to the left, as viewed in Fig. 1, against the action of thespring 45. This causes thecam elements 43, 44 to move out of lcamming engagement with thesurfaces 4I, 42 of themembers 48 and permits the spring I3 to become eifective to retract the members 4G in the manner previously described. l

Thehead 5 is then freely rotatable to any desired position of angular adjustment and may be locked in such selected position by release of thebutton 48.

By reference to Fig. 4, it will be noted that each of thecam elements 43 and 44 is provided with a conical ortapered surface 43a which is inclined at an angle of about 30 degrees to the axis of thepin 45, and also has a conical or tapered surface 43h which is inclined at an angle of about 10 degrees to the axis of the pin, the latter surface corresponding to the angle of inclination of thesurfaces 4I, 42 of themembers 40. In locking thehead 5 to the shank 3, the initial action of thespring 46 causes themembers 48 to be iirst engaged by thesurfaces 43a, and, as these surfaces are at an abrupt angle of inclination, the

camming action will be relatively rapid. Thereafter, the surfaces 43h will engage thesurfaces 4I and 42 and the movement of themembers 40, due to the reduced inclination of the surfaces 43h, will be slower and more forceful, culminating in the desired wedging of themembers 40 in head-locking position.

By using two inclinations, such as thesurfaces 43a and 43h on the cam elements, it is possible to obtain rapid and satisfactory locking engagement while using aspring 46 which need not be as strong as would be the case otherwise.

In that form of the invention shown in Figs. 5 and 6, the general construction of the parts is similar to that previously described with reference to Figs. 1 4, but in this case, the splined members 3D which correspond to themembers 40 of the previously described form of invention, are provided with only a single inclined surface 3| intermediate their ends.

The surfaces 3l are engaged by aconical cam element 32 which is carried by a pin 33 mounted for reciprocatory movement in the bore I2 of the portion I0 of the shank 3. The pin 33 has an enlargedend 34 which projects out of the bore I3 of the shank 3 and serves as a button for effecting release of thelocking members 30.

Acompression coil spring 35 is interposed between the abutment or shoulder I4 of the bore of the shank and aflange 31 on the pin 33 so as to normally urge the pin to the right, as viewed in Fig. 5. Agasket 38 is interposed between theange 31 and the wall of bore I3 so as to provide a dust-proof and water-proof seal which will prevent foreign material from entering the bore I3.

In the position shown in Fig. 5, themembers 38 have been cammed by theelement 32 into engagement with theserrations 9 of thehead 5, thereby locking thehead 5 and shank 3 together.

When thebutton 34 is depressed, the pin 33 is caused to move to the left against the action ofspring 35 and as thecam element 32 disengages the members 3i), the spring I9 retracts themembers 35 so as to disengage the serrations I6 thereon from theserrations 9. Thehead 5 may now be rotated to any desired position of angularity relative to the shank 3.

After the selected p-osition of the head has been obtained, the pin is released andspring 35 causeselement 32 to again cam the members 3 into the previously described head-locking engagement.

Referring to Figs. 1 and 8, the construction therein shown is similar to that of Fig. 5, but in this case, thecam element 10 which corresponds to thecam element 32 is in the form of a nut which is threadedly secured to a pin 1I, so as to permit adjustment between theinclined cam surface 12 of the nut and theinclined surface 13 of head-locking members 14 to compensate Ifor the wear on these surfaces.

Themembers 14 have a serrated surface I5 which is adapted to engage theserrations 9 on thehead 5. The ends of themembers 14 opposite thesurface 13 are inclined or sloped in the opposite direction to formsurfaces 84 which engage correspondinglyinclined surfaces 85 formed on theshank 85 and which act to cam themembers 14 to head-locking position.

The pin 1I is` provided with anenlarged head portion 15 which has aninclined end surface 16 which is engaged by the correspondingly inclined end 11 of apin 18 which is mounted for reciprocatory sliding movement in theshank 86 of thehosel 19. Thepin 18 is engaged at its upper end by a lever or trigger element which is pivotally secured to the hcsel as by apivot pin 8|.

It will be apparent that when thetrigger element 80 is depressed toward thehosel 19, thepin 18 is moved downwardly against the tension of a compression coil spring B2 which is interposed between theshank 86 and theenlarged portion 15 of the pin 1I. This downward movement causes the pin 1I to be cammed to the left, as viewed in Fig. '1, releasing themembers 14 from camming engagement with theelement 10.

The spring I9 which encircles themembers 14 then retracts the members so that serrations I6 are withdrawn from engagement withserrations 9 on thehead 5.

Upon release of thetrigger element 80, the spring 82 acts to return the members M to locking position.

Ascrew cap 83 is provided to conceal the pin 'Il and prevent ingress of dust and dirt into the shank of the club.

Thus, in each of the forms of my invention which I have described, the head of the golf club is rmly locked to the shank by means yof serrated radially movable locking members which engage serrations on the head in response to the camming action of a spring-pressed cam element.

In each case, the head may be released for rotation to a different selected position of angular adjustment by displacing the spring-pressed cam element, which permits an annular spring to retract the locking members from engagement with the head.

It is thus seen that I have provided various adjustable head golf clubs having improved means for locking the club head in adjusted position as Well as improved means for eiecting the release of the club head for adjustment.

It is to be understood that the forms of my invention, herewith shown and described, are to be taken as preferred examples of the same, and that various changes in the shape, size and arrangement of parts may be resorted to, without departing from the spirit of my invention, or the scope of the subioined claims.

Having thus described my invention, I claim:

1. In a golf club, the combination of a hollow shank, a plurality of serrated members slidably mounted in circumferentially spaced relationship on said shank for radial movement relative thereto, a head rotatably mounted on said shank, said head having serrations therein engageable with said serrated members, means resiliently urging said members out of locking engagement with said head, cam means contained within said shank for eifecting radial displacement of said members and spring means of greater strength than said rst named means, engaging said cam means to yieldably maintain said cam means in camming engagement with said members whereby to lock said head against rotation relative to said shank.

2. In a golf club, the combination of a hollow shank, a plurality of serrated members slidably mounted in circumferentially spaced relationship on said shank for radial movement relative thereto, a head rotatably mounted on said shank, said head having internal serrations engageable with said serrated members, means yieldably urging said members out of locking engagement with said head, cam means slidably contained within said shank and adapted to eiect radial displacement of said members and spring means, of greater strength than said first named means engaging said cam means to yieldably maintain said cam means in camming engagement with said members whereby to cause interlocking of said shank and said head.

3. In a golf club, the combination of a hollow shank, a plurality of circumferentially spaced serrated members slidably mounted in said shank for radial movement relative thereto, said members having camming surfaces thereon in communication with the bore of said hollow shank, a head rotatably mounted on said shank, said head having internal serrations adapted to mesh with said serrated members, means yieldably urging said members out of locking engagement with said head, camming means slidably contained within said shank for eiecting outward radial displacement of said members and spring means, of greater strength than said rst named means, engaging said camming means to yieldably maintain said camming means in operative engagement With said members whereby to lock said head against rotation relative to said shank.

4. In a golf club, the combination of a hollow shank, a plurality of circumferentially spaced serrated members slidably mounted in said shank for radial movement relative thereto, said members having camming surfaces thereon in communication with the bore of said hollow shank, a head rotatably mounted on said shank, said head having internal serrations adapted to mesh with the serrations on said members, means yieldably urging said members out of engagement with said head, a camming element slidably mounted for longitudinal movement within said shank and adapted to cooperate with the camming surfaces on said members and spring means, of greater strength than said rst named means, engaging said camming element to yieldably maintain said element in operative engagement with said members whereby to effect outward radial displacement of said members into locking engagement with the serrations on said head.

5. In a golf club, a hollow shank, a head rotatably mounted on said shank, said head having internal longitudinal serrations, and means for locking said head against rotation, said means comprising splined members slidably mounted in said shank for radial movement relative thereto, said members having portions thereof projecting into the bore of said shank, a camming element slidably mounted in the bore of said shank, spring means engaging said camming element and yieldably maintaining it in operative engagement with said projecting portions of said members whereby to displace said members into locking engagement with the serrations on said head, and resilient means engaging said members for retracting said members from said locking engagement in response to the spring-opposed movement of said camming element.

6. A golf club as defined inclaim 5 wherein said camming element l*comprises a stem and a conical cam mounted on said stem, said cam having two adjacent camming surfaces, one of which has a greater angle of inclination than the other to the projecting portions of said members whereby to initially cause rapid displacement of said members followed by a less rapid, more forceful displacement of said members.

JOSEPH VERDERBER.

REFERENCES CITED The following references are of record in the yfile of this patent:

UNITED STATES PTENTS Number Name Date 1,568,485 Turney Jan. 5, 1926 1,620,588 Wilson Mar. 8, 1927

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