US3262340A - Bowling ball drill jig - Google Patents

Bowling ball drill jig Download PDF

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US3262340A
US3262340A US340375A US34037564A US3262340A US 3262340 A US3262340 A US 3262340A US 340375 A US340375 A US 340375A US 34037564 A US34037564 A US 34037564A US 3262340 A US3262340 A US 3262340A
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Prior art keywords
ball
base
collar
bars
point
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US340375A
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Martin V Sammons
Robert D Baker
John F Nixon
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SAMMONS VICTOR I BIANCHINI
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SAMMONS VICTOR I BIANCHINI
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    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B37/00Solid balls; Rigid hollow balls; Marbles
    • A63B37/0001Balls with finger holes, e.g. for bowling
    • A63B37/0002Arrangements for adjusting, improving or measuring the grip, i.e. location, size, orientation or the like of finger holes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27MWORKING OF WOOD NOT PROVIDED FOR IN SUBCLASSES B27B - B27L; MANUFACTURE OF SPECIFIC WOODEN ARTICLES
    • B27M3/00Manufacture or reconditioning of specific semi-finished or finished articles
    • B27M3/22Manufacture or reconditioning of specific semi-finished or finished articles of sport articles, e.g. bowling pins, frames of tennis rackets, skis, paddles
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S411/00Expanded, threaded, driven, headed, tool-deformed, or locked-threaded fastener
    • Y10S411/955Locked bolthead or nut
    • Y10S411/956Automatic base clutch
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T408/00Cutting by use of rotating axially moving tool
    • Y10T408/55Cutting by use of rotating axially moving tool with work-engaging structure other than Tool or tool-support
    • Y10T408/561Having tool-opposing, work-engaging surface
    • Y10T408/5623Having tool-opposing, work-engaging surface with presser foot
    • Y10T408/56245Having tool-opposing, work-engaging surface with presser foot including tool-guide [or bushing]

Definitions

  • This invention relates to improvements in a jig apparjatlllls for drilling the thumb and finger holes in bowling a s.
  • a jig apparjatlllls for drilling the thumb and finger holes in bowling a s.
  • many bowlers have acquired their own personal bowling ball in which the finger holes are drilled according to their particular specifications, and such holes are often filled .and redrilled to satisfy the whims and idiosyncrasies of the individual users.
  • one of the important objects contemplated by this invention is the provision of an improved apparatus for drilling thumb and finger holes in bowling balls and more particularly such an apparatus or jig that will result in such holes being drilled with extreme accuracy because of the elimination of any drift of the drill bit relative to the surface of the ball at the initial contact therewith.
  • a further important object herein is the provision of a drill jig as indicated and by means of which the holes in the bowling ball may be drilled by any conventional electric hand drill preferably with a chuck of one-half inch capacity.
  • Another object of this invention is to provide, with a drill jig as characterized, a novel turret assembly for aligning and guiding a drill bit at any selected angle of inclination and without permitting the drill point to drift relative to the predetermined point on the ball for penetration of such bit.
  • Still a further object herein is to provide a novel locking assembly for immovably fixing the turret assembly in any selected position.
  • FIG. 1 is a perspective front view of a preferred embodiment of this new drill jig shown with a drill bit bushing in the top thereof and with a bowling ball in place to be drilled,
  • FIG. 2 is a perspective rear view of the jig shown in FIG. 1 but shown with the line-up or zero setting bushing in the top thereof,
  • FIG. 3 is a cross-sectional view taken on the line 3-3 of FIG. 1 but with the jig in opened position,
  • FIG. 4 is a sectional view of the jig shown in FIG. 1 but illustrating a modified locking assembly for the turret
  • FIG. 5 is an exploded view of the turret locking assembly taken on the line 55 of FIG. 4,
  • FIG. 6 is a schematic illustration of this jig showing its adjustment for the span between the thumb and finger holes in the bowling ball
  • FIG. 7 is similar to FIG. 6 but showing the adjustment of this jig for lateral location of the holes relative to the center point on the bowling ball,
  • FIG. 8 is a sectional view, partially cut away, of the turret tightening cap shown in FIG. 1,
  • FIG. 9 is a perspective view, partially cut away, of the line-up or zero setting bushing shown in FIG. 2,
  • FIG. 10 is a perspective view, partially cut away of the drill bushing shown in FIG. 1, and
  • FIGS. 1ll3 are schematic illustrations showing varied common locations of the thumb and finger holes in a bowling ball relative to the center point thereon.
  • this jig 14 are preferably made of aluminum so that its overall weight will be approximately forty pounds more or less. Such lightness in weight has certain commercial advantages and is preferable therefor, but it will be understood that other materials may also be used and the weight thereby increased without in any Way departing from the principles hereinafter disclosed.
  • a generally square hollow base is designated by the numeral 16 (FIGS. 3 and 4) and is provided with a central annular opening 18 defined by the beveled edge 20 for receiving and supporting a bowling ball 22.
  • a plurality of friction tabs 24 of any suitable material such as vinyl or plastic, and preferably not more than one-sixteenth inch thick, are bonded to edge 20 in equally spaced relationship to provide a non-slip contact for ball 22 as will later appear.
  • An annular frame 26 is adapted to overlie base 16 in spaced relationship thereto and for this purpose is hinged as at 28 to the upper end of a hinge support structure 30 secured to the rear side 32 of base 16 as best seen in FIG. 2.
  • Frame 26 is movable as shown in FIG.
  • a hook 34 on frame 26 diametrically opposite to hinge 28 is engageable by an over center suitcase type locking means 36 mounted on the front side 38 of base 16.
  • the annular ball engaging surface of frame 26 is also provided with friction tabs 40 similar to tabs 24.
  • the hollow housing 58 in the form of the upper portion of a sphere which is provided with the top opening 60, and it is pointed out that with the continuation of a perimeter line on housing 58 to define a complete sphere, the exact center point of such sphere would coincide with point 62 on ball 22 (FIG. 4) as will be later referred to.
  • housing 58 can be moved toward and away from the respective front and rear ends of frame 26 by pivoting or tilting bars 46 and 48 accordingly and such housing 58 is also movable laterally on tracks 50 and 52 between bars 46 and 48.
  • the movement of housing 58 relative to the front and rear of frame 26 by pivoting of bars 46 and 48 will be referred to as the span gauge and for this purpose a calibrated scale 64 (FIG. 2) is mounted to frame 26 and carries readings of 0 1 2 3 on each side of center.
  • a pointer 66 on bar 46 is oriented relative to scale 64 and tightening knobs 68 and 70 on the respective bars 46 and 48 are manually operable to lock bars 46 and 48 in any selected position.
  • the movement of housing 58 laterally between bars 46 and 48 on tracks 50 and 52 will be referred to as the offset gauge and for this purpose the center portion of the front track 50 (FIG. 1) is calibrated with a scale 72 which carries a reading of 0-1 on each side of center. There are eight calibrations between Zero and one at each side and each calibration represents one-eighth inch on the ball 22 and one forty-six-thousandth of an inch on the scale.
  • a point 74 on carriage 54 is oriented relative to scale 72 and with pointers 66 and 74 at zero settings, the top surfaces of bars 46 and 48 are horizontal and parallel to surfaces 42 and 44 of frame 26 and base 16 respectively and the axis of opening 60 in housing 58 is in an absolute vertical plane.
  • Housing 58 is designed to carry a turret assembly which is one of the important features of this invention and is indicated generally by the numeral '76 in FIG. 3, and which is shown in a modified form in FIG. 4 where it is designated generally by the numeral 76'.
  • an annular collar 78 with a flat rim-like top 80 has its underside 82 tapered or dished to be complementary with the outside curvature of housing 58 so that it can nest thereon and be universally movable relative thereto to change the inclination of the axis of its central opening 84.
  • a tightening cap 86 for securing collar 78 to housing 58 in relative positions of adjustment comprises an elongated hollow cylindrical shank 88 which is externally threaded at its lower end 90 and terminates at its upper end in a concentrically enlarged shoulder 92 which serves as a manually grippable knob.
  • the spaced peripheral grooves 94 on knob 92 are to facilitate the manual gripping thereof.
  • the washer members 96, 98 and 100 in FIG. 5 are the same as for turret assembly 76 and are accordingly given the same number.
  • washer 96 is placed on the top 80 thereof and the shank 88 of cap 86 is inserted downwardly into housing 58 and into threadable engagement with washer 98 which it will be noted is provided with a radius on its perimeter 102 corresponding to the radius of the inner surface of housing 58 so that it will tightly engage such housing as shank 88 is rotated clockwise in an obvious manner.
  • Shank 88 is long enough to pass through washer 98 and the locknut 100 is threadably attached to the lower end thereof. Only a slight loosening of cap 86 is required to permit movement of collar 78 and this may be done by grasping knob 92.
  • Scales 104, 106, 108 For measuring the distance of movement of the turret assembly 76 (and also for assembly 76' to be later described), there are four sets of like calibrations or scales 104, 106, 108 and in the form of respective groups ofspaced arcuate lines (FIGS. 1 and 2) in which the spacing is progressively smaller from top to bottom.
  • Scales 104 and 106 are oriented respectively relative to the front and rear of frame 26, and scales 108 and 110 are similarly arranged relative to the respective opposite Sides. The distance between each line on such scales represents a distance of one inch on the ball 22.
  • the turret assembly 76' differs from assembly 76 (FIG. 3) only as relates to a modified tightening cap structure designated generally by the numeral 116 and illustrated by the upper three drawings in the exploded view of FIG. 5. These three units, as will appear, may be used in place of cap 86 shown in FIG. 8 and in the following description of assembly 76, all like parts with assembly 76 will be given like numerals.
  • Cap structure 116 comprises a collar-like cap on knob 118 having spaced peripheral grooves 120 so as to be substantially similar to knob portion 92 of cap 86 and within the lower portion of cap 118 there is secured as by screws 122, the annular collar 124 which is recessed from the lower end of cap 118 sutficiently to accommodate washer 96.
  • the upper surface of collar 124 is provided with a plurality (preferably four) of equally spaced semicircular recesses 126.
  • the top surface of collar 134 carries an upstanding boss or stud 136 similar to stud 114 in FIG. 8.
  • Shank 128 is inserted through collar 124 into housing 58 and cooperates with nuts 98 and 100 as previously described for cap 86.
  • recesses 126 and 134 are offset relative to defining a complete circle as best seen in FIG. 4 and a rigid shim-like insert 138, preferably of steel, is inserted in each complementary set of recesses so as to be diagonally disposed and in abutment with the respective inner surfaces of such recesses.
  • the top of collar 132 will be within and flush with the top edge of collar 118 which defines the rim 140 that provides the shoulder 142.
  • shank 128 can be substantially tightened against collar 124 by tightening nut 100 to correspondingly tighten collar 78 on housing 58 and to further secure collar 78 against any movement relative to a pre-fixed position, cap 118 is manually twisted clockwise. This will produce only a slight movement of cap 118 since collar 124 will move with cap 118 tending to urge recesses 126 and 134 in full circle alignment and as this occurs and inserts 138 are urged toward a vertical position, they will bind in such recesses and exert an upward wedging force against collar 132 to further tighten shank 128 relative to nuts 98 and 100.
  • Bushing 144 includes the cylindrical hollow shank 148 with the cross hairs -or wires 150 across the bottom end.
  • the top of shank 148 terminates in the flange collar 152 and secured to collar 152 is the downwardly disposed pointer 154 that is parallel with the axis of shank 148.
  • Bushing 146 includes the hollow cylindrical shank 156 topped by the flange collar 158 in the perimeter of which is an arcuate notch 160.
  • Bushing 146 is a guide bushing for drill bits (not shown) and it will be understood that a plurality of such bushings may be provided in which the diameter of the bore 162 will vary according to the size bit being used.
  • the outside diameters of the shank 156 on all such bushings 146 will, of course, be the same and of like diameter as shank 148 on bushing 144. All such bushings are used in association with the turret assemblies 76 and 76 where the diameter of shank 88 on cap 86 and the diameter of shank 128 depending from collar 132 are the same and designed to receive such bushings as shown in FIG. 3.
  • jig 14 constructed as described, it is used and operated as follows.
  • Frame 26 is opened (FIG. 3) to permit the bowling ball 22 to be placed on base 16 with the center point 164 (FIGS. 11-13) of the 'ball substantially at point 62 as seen in FIG. 4.
  • Point 164 is easily recognized by those familiar with drilling bowling balls since it will always be found associated with the manufacturcrs label or trademark on the ball and each manufacturer has his own characteristic form of marking the center point.
  • Frame 26 is then returned to closed position (FIGS. 1 and 2) but not yet secured by lock or clamp means 36.
  • Pointers 66 and 74 are placed at zero settings and the lower edge 112 of collar 78 is oriented relative to the highest point on the top scale line of calibrations 104, 106, 108 and 110.
  • the line-up bushing 144 is then placed into the turret assembly 76 (or 76) as seen in FIG. 2 Where the diameter of collar 152 is such that this collar rests on the top surface of cap 86 (or of knob 118) and at the inner side of the studs 114 or 136 so that such studs do not interfere with rotation of the bushing.
  • Pointer 154 on bushing 144 is then oriented directly over the zero reading on scale 72 (FIG. 1) so that the cross wires are oriented relative the respective front, rear and sides of frame 26.
  • Ball 22 is then manually maneuvered until point 164 is vertically aligned with the center of the cross wires, which can be determined by sighting down bushing 144, and when this has been accomplished, lock 36 is secured and ball 22 is then immovable being secured between base 16 and frame 26 in which the friction tabs 24 and 40 are placed as previously described.
  • Bushing 144 is then removed and the axis of the turret assembly is on an absolute vertical plane through the center point 164 of the ball 22.
  • Ball 22 at this point is ready to be drilled and it is pointed out that at no time during the drilling of either the thumb hole 166 or finger holes 168 and 170 is it necessary to move or remove the ball from its locked-in position in jig 14 and consequently, the accuracy obtainable by this jig is materially greater than in other type jigs where the ball is removed or moved after each hole is 1drillled to permit proper measurements for the succeeding
  • FIGS. 1113 illustrate different common hole patterns for two finger holes and the thumb hole, and it will be understood that other patterns and a larger number of finger holes may be desired in particular cases.
  • the thumb hole 166 is first located and drilled and then the finger holes 168 and 170, and in describing the relative adjustments on jig 14, the thumb hole 166 is toward the front end 38 of base 16 at one side of point 164 and the finger holes 168 and 170 are on the opposite side of point 164 toward the rear 32 of base 16. Any inclination of any of the holes toward the center point 164 will 'be referred to as forward, and away from point 164 as rearward. Likewise, lateral inclination of any hole will be referred to as a right or left lateral from a reference point at the front 38 of base 16 and as viewed in FIGS. 11-13.
  • the measurement generally between the thumb hole 166 and the finger holes 168 and 170 across the center point 164 is referred to as the span and the measurement between'the finger holes is referred to as the bridge.
  • the span may be measured from edge to edge of the holes as shown in FIGS. 11-13 or may be measured from center to center with, of course, proper allowance relative to the reference point used.
  • the span may of course vary with different users and the four inch span shown is merely illustrative.
  • the thumb hole and finger holes are equidistant from point 164 which is known as splitting the label and in FIG. 13 most of the span is shown above point 164 which is a preferred arrangement.
  • the relative position of the finger holes 168 and 170 as seen in FIGS. 11 and 12 are a matter of choice.
  • the span gauge is moved toward the front one-fourth the distance of the span plus one-half the diameter of the proposed thumb hole 166 whereby the axis of the turret assembly will be on center with the axis of the hole to be drilled, and on a direct radial line to the actual center or axis of the ball since the lower shank end of the turret assembly moves in a parallel plane to the circumference of the ball.
  • Calibrations 64 will be used for this purpose and the span gauge then tightened in place by knobs 68 and 70.
  • the inclination of the proposed hole either forward or rearward or lateral, or a combination of either a forward or rearward and a lateral inclination is provided by adjustment of the turret assembly '76 (or 76).
  • collar 78 is moved so that edge 112 registers with the desired line on scale 104 and maintains zero registration with scales 108 and 110.
  • the registrations wit-h the scales 108 and 110 are maintained at zero and edge 112 is adjusted relative to scale 106.
  • the turret cap is loosened to permit movement of collar 78 and tightened once the proper setting is made.
  • collar 78 is oriented relative to scale 108 with edge 112 at zero readings on scales 104 and 106 and for a left lateral only, scale 110 is used and zero readings maintained on scales 104 and 106. It will become apparent from these possible adjustments that both a forward or rear and a lateral inclination can be calibrated simultaneously by orienting edge 112 of collar 78 with scale 108 and either 104 or 106, for example, or simultaneously using scale 110 with 104 or 106 according to the specific measurements for each scale. Having thus set the span gauge and provided for the inclination desired, if any, the thumb hole is ready to be drilled.
  • An appropriate guide bushing 146 having a bore 162 relative to accommodating a drill bit for the size hole desired is placed in the turret assembly and the diameter of collar 158 (FIG. is such that notch 160 can embrace stud 114 (or 136) to prevent any rotary movement of the bushing.
  • Such bushing and its cooperating turret structure permit the use of any ordinary one-half inch electric drill which is a substantial difference over other jigs of this type that require the use of a heavy drill press.
  • the turret assembly and guide bushing will hold the drill bit directly on line and eliminate any drift of the bit on the circumference of the ball before penetration is accomplished.
  • the weight of the drill with perhaps only a slight manual pressure is adequate to accomplish the desired drilling.
  • the depth of such holes vary from what is known as standard, semi-finger tip and finger tip depths and it will be understood that any suitable calibrated depth gauge will be applied to the drill in a well-known manner.
  • the span gauge with reference to FIG. 13 is moved over the center point 164 three-fourths of the distance of the span plus onehalf the diameter of the ball. Since both finger holes (FIG. 13) 168 and 170 are offset relative from the front and rear vertical line 172 through point 164, the offset gauge must be adjusted. This requires loosening the set screw 56 and moving carriage 54 left or right for the respective holes 168 and 170 and aligning pointer 74 on scale 72. Forward, rear and lateral inclinations are then provided by adjustment of the turret assembly as described for the thumb hole and the holes drilled with the electric hand drill as indicated.
  • the turret assembly of this jig has particular value in drilling the finger holes since the bridge between such holes is normally only one-quarter inch and if two such closely adjacent holes are drilled on a perpendicular axis to the perimeter of the ball at the point of contact, it will be appreciated that the lower extremities of such holes would converge and break through.
  • This is a frequent occurrence in present drilling apparatus and can be eliminated entirely by jig 14 since once the axial point of the finger holes 168 and 170 has been determined by the offset qauge, the axis of the turret assembly is inclined to left for hole 168 and to the right for hole 170 so that the axes of such holes can be parallel to each other or otherwise oriented so they will not break through at the bottom. This will, of course, necessitate the drill bit entering the ball at a tangent relative to the perimeter where the drift of the bit, as described, generally occurs but which has been eliminated by the jig herein disclosed.
  • This jig 14 when constructed as described may also be used with conventional plug cutter tools.
  • holes in bowling balls are frequently plugged so new holes can be drilled in perhaps a different pattern or in different degrees of inclination.
  • plugging is accomplished by providing a parapet around the hole at the surface and filling the hole with a fluid mixture that will harden according to well-known methods.
  • the resulting plug thus projects slightly from the hole and must be cut or smoothed to be coplanar with the outer ball surface.
  • a rotating cutter wheel is generally used and care must be taken to cut the plug accurately so as not to gouge or indent the ball as the tool is moved back and forth across the plug.
  • the cutter tool by tightening the turret assembly at all zero readings, forward, rear and lateral, and by loosening the tightening members for both the span and offset gauges, the cutter tool, with an appropriate depth gauge, may be inserted into the turret assembly through an appropriate bushing 146 and then rocked forwardly, rearwardly and laterally in its grinding or cutting action against the plug.
  • the depth gauge will prevent further cutting at the required point when the plug is flush with the surface of the ball.
  • jig 14 affords many advantages over the heavy, cumbersome and relatively expensive jigs now available for drilling bowling balls.
  • This jig because of its relatively light weight and economical cost, may be profitably acquired by individual bowling lane establishments and its adaptability to the use of an ordinary electric hand drill instead of a heavy expensive drill press is a marked departure from and improvement over present methods of bowling ball drilling.
  • the fact that the ball is not moved once frame 26 is tightened and the relative simplicity of setting the span and offset gauges and inclination of the hole axes makes the requirement for trained personnel unnecessary.
  • a bowling ball drill jig comprising:
  • a base having a front and rear and designed for supporting a bowling ball
  • a hinged lockable annular frame carried by said base so as to embraceably engage a bowling ball to hold it against movement relative to said base
  • first and second elongated parallel bars pivotally secured at their respective centers at respective diametrically opposed points on said frame
  • arched track means connecting said bars and having a curvature designed to be parallel to the perimeter of a bowling ball when such a ball is supported on said base,
  • a collar having a flat annular top edge and an underside formed for nesting arrangement on said housing so as to be universally movable relative thereto,
  • said cap including a depending cylindrical hollow shank terminating within said housing so as to be in closely spaced relationship from the perimeter of a bowling ball on said base, and
  • a bowling ball drill jig comprising:
  • a base having a front and rear and designed for supporting a bowling ball
  • a hinged lockable annular frame carried by said base so as to embraceably engage a bowling ball to hold it against movement relative to said base
  • first and second elongated parallel bars pivotally secured at their respective centers at respective diameterically opposed points on said frame
  • arched track means connecting said bars and having a curvature designed to be parallel to the perimeter of a bowling ball when such a ball is supported on said base,
  • turret assembly having a vertical bore and mounted on said carriage
  • said turret assembly being universally movable to vary the inclination of the axis of said bore but maintain- 10 ing the fixed position of the axial point at the lower end thereof, and a drill bit guide bushing removably journalled in said bore for maintaining such bit exactly on the axis of said bore during penetration of said ball.
  • a collar having a fiat annular top edge and an underside formed for nesting arrangement on said housing so as to be universally movable relative thereto,
  • said shoulder provided with a plurality of spaced recesses
  • said shoulder having similarly arranged recesses as said annular shoulders so that each recess on each shoulder is in semiregistering position with a recess on the other shoulder,
  • a calibrated span gauge movably mounted to said frame for selectively measuring distances on the perimeter of said ball in two diametrically opposite directions from said center point
  • a calibrated oifset gauge carried by said span gauge for selectively measuring distances on the perimeter of said ball in two diametrically opposite directions from said center point and perpendicular to the line of measurement of said span gauge
  • a calibrated turret assembly having a vertical bore and mounted on said oifset gauge
  • said turret assembly being universally movable to vary the inclination of the axis of said bore but maintaining the fixed posit-ion of the axial point at the lower end thereof, and i a drill bit guide bushing removably journalled in said bore for maintaining such bit exactly on the axis of said bore during penetration of said ball.
  • turret assembly having a vertical bore and operatively mounted on said frame
  • said turret assembly being universally movable to vary the inclination of the axis of said bore but maintaining the fixed position of the axial point at the lower end thereof, and
  • a drill bit guide bushing removably journalled in said bore for maintaining such bit exactly on the axis of said bore during penetration of said ball.
  • said turret assembly comprises:
  • a coll ar having a fiat annular top edge and an underside formed for nesting arrangement on said houslng so as to be universally movable relative thereto,
  • turret assembly operatively mounted on said frame and having a vertical bore terminating at its lower end in closely spaced relation above the center point on said ball
  • a drill bit guide bushing removably journalled in sald bore and designed for guiding the bit on a manually held electric drill.
  • a first calibrated means for selectively moving said turret assembly in diametrically opposite directions relative to said center point
  • a second calibrated means for selectively moving said turret assembly in diametrically oppositedirections from said center point and perpendicular to the line of movement with said first calibrated means
  • a device as defined in claim 10 including:
  • said guide bushing adapted to receive a drill bit on an electric hand drill and to hold said bit against any drift on the perimeter of said ball at the initial contact therewith.
  • a device as defined in claim 10 including means for orienting the axis of said bore on an exact vertical plane through said center point and the axis of said ball.
  • a collar having a flat annular top edge and an annular underside adapted for nesting arrangement on said housing so as to be universally movable relative thereto,
  • a cap assembly for holding said collar immovable relative to said housing in any predetermined position
  • said cap assembly including a depending cylindrical shank terminating within said housing so as to be in closely spaced relationship at its lower end from the perimeter of a bowling ball on said base,
  • bushing means associated with said cap assembly for guiding the drill bit on an electric hand drill into said bowling ball.
  • a device as defined in claim 13 including means to orient the axis of the bore in said shank over any selected point on the perimeter of said bowling ball offset from the center point thereof.
  • a means for tightening a first and second apertured member in juxtaposition comprising:
  • each recess on each shoulder is in semiregistering position with a recess on the other shoulder

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  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Manufacturing & Machinery (AREA)
  • Wood Science & Technology (AREA)
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Description

July 26,1966
Filed Jan. 27, 1964 M. v. sAMMoNs ET AL 3,262,340
BOWLING BALL DRILL JIG 4 Sheets-Sheet 1 /N VENTOPJ.
MART/N MJAMMONJ Q floafipr 0. BAKE/P JOHN E NIXON y 6 1966 M. v. SAMMQNS ET AL 3,262 0 BOWLING' BALL DRILL JIG 4 Sheets-Sheet 2' Filed Jan. 27, 1964 /N V EN 7' 0P6 Mfll? 771V 1 JAMMONS 056/? D. 514K519 JUN/V F N/XO/V 5y km) A 770/?NFK 5 July 26,1966 M. v; SAMMQN'S ETAL BOWLING BALL DRILL JIG Filed Jan. 27, 1964 4 Sheets-Sheet 4 //v VENTOPS. MART/N MJAMMa/xs POBEAT D. BAKE/P JOHN /-T NMOA/ BY W i ATTORNEY United States Patent 3,262,340 BOWLING BALL DRILL JIG Martin V. Sannnons and Robert D. Baker, Sioux City, Iowa, and John F. Nixon, Omaha, Nelm, assignors, by direct and mesne assignments, to said Sammons, Victor I. B1anch1nl, South Sioux City, Nebr., and Donald K. Price, Sioux City, Iowa Filed Jan. 27, 1964, Ser. No. 340,375 15 Claims. (Cl. 77-62) This invention relates to improvements in a jig apparjatlllls for drilling the thumb and finger holes in bowling a s. With the tremendous increase in popularity of bowling in recent years, many bowlers have acquired their own personal bowling ball in which the finger holes are drilled according to their particular specifications, and such holes are often filled .and redrilled to satisfy the whims and idiosyncrasies of the individual users. There are, of course, a variety of more or less standard finger holes patterns that are provided on rental balls and according to present practices, the substantial portion of drilling the finger holes is done in professional supply shops as distinguished from the actual bowling lane establishments. This can no doubt be accounted for by the fact that the present drill jigs available Weigh several hundred pounds, may cost from several hundred to several thousand dollars and require a fixed drill press so that it is economically unfeasible for each bowling lane to own such equipment.
In addition to the cost of drill equipment, the requirement for accuracy in drilling finger holes in bowling balls and the requirement for experienced personnel for operating the jigs makes it impractical for bowling lane proprietors to provide this service as mistakes can be very costly and a few mistakes can render the entire operation unprofitable. However, even with the so-called professional drilling jigs, there are certain problems and disadvantages which we have overcome with our new drill jig as will become apparent.
As is well known, all manufacturers of bowling balls mark on the ball what is known as the center point which is associated with their respective label or name and the drilling of the thumb and finger holes is in reference to such center point since the undrilled ball is heavier at this area so that the ball will be properly balanced after the holes are drilled. The axis of such holes in relation to a direct radius from the contact point of the drill on the surface of the ball is generally inclined forwardly or rearwardly and usually laterally and the exact degree of such inclination, unless of a standard pattern, will depend upon the desired thumb and finger hole positions of the particular user. It will thus be appreciated that the drill point will contact the curved surface of the ball at a tangent relative to the inclination of the hole desired and in present type jigs, experience has shown that this initial contact almost invariably results in a slight drift of the bit along the ball surface before it makes an actual penetration. Such drift, even though small, can and does affect the feel of the ball when considered in relation to all of the holes and is easily detected by experienced bowlers. Since the exact amount of such drift is not always the same on each ball or even on each hole, it cannot be accurately compensated for by varying the initial contact point and consequently expreviously drilled thumb or finger hole.
3,262,340 Patented July 26, 1966 "ice treme accuracy in the drilling of such holes by present apparatus is not generally obtained.
With these observations in mind, one of the important objects contemplated by this invention is the provision of an improved apparatus for drilling thumb and finger holes in bowling balls and more particularly such an apparatus or jig that will result in such holes being drilled with extreme accuracy because of the elimination of any drift of the drill bit relative to the surface of the ball at the initial contact therewith.
A further important object herein is the provision of a drill jig as indicated and by means of which the holes in the bowling ball may be drilled by any conventional electric hand drill preferably with a chuck of one-half inch capacity.
Other objects inherent in this invention are to provide a drill jig of the above class that is durable in construction, economical to manufacture, highly efficient for its intended use and sufficiently light in weight (approximately forty pounds more or less) so that it is easily portable and economical-1y feasible for acquisition and use by individual bowling lanes as well as by professional bowling supply establishments.
Another object of this invention is to provide, with a drill jig as characterized, a novel turret assembly for aligning and guiding a drill bit at any selected angle of inclination and without permitting the drill point to drift relative to the predetermined point on the ball for penetration of such bit.
Still a further object herein is to provide a novel locking assembly for immovably fixing the turret assembly in any selected position.
An added feature of this invention resides in its adaptability for use with a finishing tool for the purpose of smoothing the surface of a filler plug placed in a To attain these objects and such further objects as may appear herein, or be hereinafter pointed out, reference is made to the accompanying drawings forming -a part hereof, in which:
FIG. 1 is a perspective front view of a preferred embodiment of this new drill jig shown with a drill bit bushing in the top thereof and with a bowling ball in place to be drilled,
FIG. 2 is a perspective rear view of the jig shown in FIG. 1 but shown with the line-up or zero setting bushing in the top thereof,
FIG. 3 is a cross-sectional view taken on the line 3-3 of FIG. 1 but with the jig in opened position,
FIG. 4 is a sectional view of the jig shown in FIG. 1 but illustrating a modified locking assembly for the turret,
FIG. 5 is an exploded view of the turret locking assembly taken on the line 55 of FIG. 4,
FIG. 6 is a schematic illustration of this jig showing its adjustment for the span between the thumb and finger holes in the bowling ball,
FIG. 7 is similar to FIG. 6 but showing the adjustment of this jig for lateral location of the holes relative to the center point on the bowling ball,
FIG. 8 is a sectional view, partially cut away, of the turret tightening cap shown in FIG. 1,
FIG. 9 is a perspective view, partially cut away, of the line-up or zero setting bushing shown in FIG. 2,
FIG. 10 is a perspective view, partially cut away of the drill bushing shown in FIG. 1, and
FIGS. 1ll3 are schematic illustrations showing varied common locations of the thumb and finger holes in a bowling ball relative to the center point thereon.
Referring to the drawings, it should be first mentioned that for the most part, all of the substantial portions of this jig 14 are preferably made of aluminum so that its overall weight will be approximately forty pounds more or less. Such lightness in weight has certain commercial advantages and is preferable therefor, but it will be understood that other materials may also be used and the weight thereby increased without in any Way departing from the principles hereinafter disclosed.
A generally square hollow base is designated by the numeral 16 (FIGS. 3 and 4) and is provided with a central annular opening 18 defined by the beveled edge 20 for receiving and supporting a bowling ball 22. A plurality of friction tabs 24 of any suitable material such as vinyl or plastic, and preferably not more than one-sixteenth inch thick, are bonded to edge 20 in equally spaced relationship to provide a non-slip contact for ball 22 as will later appear. An annular frame 26 is adapted to overlie base 16 in spaced relationship thereto and for this purpose is hinged as at 28 to the upper end of a hinge support structure 30 secured to the rear side 32 of base 16 as best seen in FIG. 2. Frame 26 is movable as shown in FIG. 3 to permit the placing of ball 22 onto base 16 and is then movable into peripheral contact with the ball 22 for securely clamping it against any relative movement. For this purpose a hook 34 on frame 26 diametrically opposite to hinge 28 is engageable by an over center suitcase type locking means 36 mounted on the front side 38 of base 16. The annular ball engaging surface of frame 26 is also provided with friction tabs 40 similar to tabs 24. Thus far described, with a ball 22 in jig 14- as shown, the top surface 42 of frame 26 and the top surface 44 of base 16 are parallel and horizontal and for purposes of further description, frame 26 at its hinge point 28 will be referred to as the rear thereof and at the hook point 34, as the front.
At oppositely disposed central points on frame 26 on the respective sides thereof intermediate the front and rear of such frame, there is pivotally and centrally mounted the respective elongated parallel support bars 46 and 48 as best seen in FIGS. 1 and 2. The respective corresponding ends of bars 46 and 48 are connected by the respective upwardly extending front and rear arcuate parallel rods 50 and 52 that provide a track means over the ball 22 parallel to the circumferencethereof. A carriage 54 is slidably mounted on rods 50 and 52 for movement intermediate bars 46 and 48, and a manually perable set screw means 56 is provided to lock carriage 54 against movement from any selected position. Mounted on the top of carriage 54 is the hollow housing 58 in the form of the upper portion of a sphere which is provided with the top opening 60, and it is pointed out that with the continuation of a perimeter line on housing 58 to define a complete sphere, the exact center point of such sphere would coincide with point 62 on ball 22 (FIG. 4) as will be later referred to.
Thus far described it will be understood that housing 58 can be moved toward and away from the respective front and rear ends of frame 26 by pivoting or tilting bars 46 and 48 accordingly and such housing 58 is also movable laterally on tracks 50 and 52 between bars 46 and 48. The movement of housing 58 relative to the front and rear of frame 26 by pivoting of bars 46 and 48 will be referred to as the span gauge and for this purpose a calibrated scale 64 (FIG. 2) is mounted to frame 26 and carries readings of 0 1 2 3 on each side of center. There are sixteen calibrations between each number representing one-sixteenth inch on the ball 22 and one thirty-onethousandth of an inch on the scale. A pointer 66 on bar 46 is oriented relative to scale 64 and tightening knobs 68 and 70 on the respective bars 46 and 48 are manually operable to lock bars 46 and 48 in any selected position.
The movement of housing 58 laterally between bars 46 and 48 on tracks 50 and 52 will be referred to as the offset gauge and for this purpose the center portion of the front track 50 (FIG. 1) is calibrated with a scale 72 which carries a reading of 0-1 on each side of center. There are eight calibrations between Zero and one at each side and each calibration represents one-eighth inch on the ball 22 and one forty-six-thousandth of an inch on the scale. A point 74 on carriage 54 is oriented relative to scale 72 and with pointers 66 and 74 at zero settings, the top surfaces of bars 46 and 48 are horizontal and parallel to surfaces 42 and 44 of frame 26 and base 16 respectively and the axis of opening 60 in housing 58 is in an absolute vertical plane.
Housing 58 is designed to carry a turret assembly which is one of the important features of this invention and is indicated generally by the numeral '76 in FIG. 3, and which is shown in a modified form in FIG. 4 where it is designated generally by the numeral 76'. With reference first to assembly '76, an annular collar 78 with a flat rim-like top 80 has its underside 82 tapered or dished to be complementary with the outside curvature of housing 58 so that it can nest thereon and be universally movable relative thereto to change the inclination of the axis of its central opening 84.
A tightening cap 86 (FIG. 8) for securing collar 78 to housing 58 in relative positions of adjustment comprises an elongated hollow cylindrical shank 88 which is externally threaded at its lower end 90 and terminates at its upper end in a concentrically enlarged shoulder 92 which serves as a manually grippable knob. The spaced peripheral grooves 94 on knob 92 are to facilitate the manual gripping thereof. In mounting cap 86 to housing 58, the washer members 96, 98 and 100 in FIG. 5 are the same as for turret assembly 76 and are accordingly given the same number. With collar 78 on housing 58 as described, washer 96 is placed on the top 80 thereof and the shank 88 of cap 86 is inserted downwardly into housing 58 and into threadable engagement with washer 98 which it will be noted is provided with a radius on its perimeter 102 corresponding to the radius of the inner surface of housing 58 so that it will tightly engage such housing as shank 88 is rotated clockwise in an obvious manner. Shank 88 is long enough to pass through washer 98 and the locknut 100 is threadably attached to the lower end thereof. Only a slight loosening of cap 86 is required to permit movement of collar 78 and this may be done by grasping knob 92.
For measuring the distance of movement of the turret assembly 76 (and also for assembly 76' to be later described), there are four sets of like calibrations or scales 104, 106, 108 and in the form of respective groups ofspaced arcuate lines (FIGS. 1 and 2) in which the spacing is progressively smaller from top to bottom. Scales 104 and 106 are oriented respectively relative to the front and rear of frame 26, and scales 108 and 110 are similarly arranged relative to the respective opposite Sides. The distance between each line on such scales represents a distance of one inch on the ball 22. With the bottom edge 112 of collar 78 coplanar with the highest point on the top line on all four scales 104, 106, 108 and 110 and with all other settings at zero as previously described, the axis of shank 88 on cap 86 will be on an absolute vertical plane and the bottom of shank 88 will be in closely spaced relationship above the ball 22. A stud or boss 114 extends upwardly from the top rim-like surface of knob 92 for purposes which will be later referred to in more detail.
The turret assembly 76' (FIG. 4) differs from assembly 76 (FIG. 3) only as relates to a modified tightening cap structure designated generally by the numeral 116 and illustrated by the upper three drawings in the exploded view of FIG. 5. These three units, as will appear, may be used in place of cap 86 shown in FIG. 8 and in the following description of assembly 76, all like parts with assembly 76 will be given like numerals. Cap structure 116 comprises a collar-like cap on knob 118 having spaced peripheral grooves 120 so as to be substantially similar to knob portion 92 of cap 86 and within the lower portion of cap 118 there is secured as by screws 122, the annular collar 124 which is recessed from the lower end of cap 118 sutficiently to accommodate washer 96. The upper surface of collar 124 is provided with a plurality (preferably four) of equally spaced semicircular recesses 126. An elongated hollow shank 128, externally threaded on its lower end 130 (corresponding to elements 88 and 90 of cap 86), terminates at its upper end in the concentrically enlarged collar 132 which is similar in size and shape to collar 124 and is provided on its bottom surface with spaced semicircular recesses 134 corresponding in number and spacing to recesses 126. The top surface of collar 134 carries an upstanding boss or stud 136 similar to stud 114 in FIG. 8.
Shank 128 is inserted through collar 124 into housing 58 and cooperates with nuts 98 and 100 as previously described for cap 86. In this arrangement, however, recesses 126 and 134 are offset relative to defining a complete circle as best seen in FIG. 4 and a rigid shim-like insert 138, preferably of steel, is inserted in each complementary set of recesses so as to be diagonally disposed and in abutment with the respective inner surfaces of such recesses. The top of collar 132 will be within and flush with the top edge of collar 118 which defines the rim 140 that provides the shoulder 142. In this position, shank 128 can be substantially tightened against collar 124 by tightening nut 100 to correspondingly tighten collar 78 on housing 58 and to further secure collar 78 against any movement relative to a pre-fixed position, cap 118 is manually twisted clockwise. This will produce only a slight movement of cap 118 since collar 124 will move with cap 118 tending to urge recesses 126 and 134 in full circle alignment and as this occurs and inserts 138 are urged toward a vertical position, they will bind in such recesses and exert an upward wedging force against collar 132 to further tighten shank 128 relative to nuts 98 and 100. This effect is possible since the length of the inserts 138 accommodated on a diagonal plane when recesses 126 and 134 are offset as described is longer than the diameter of said recesses in full circle alignment. Normally only a slight twist of cap 118 is required as indicated above but if the force applied to cap 118 should be excessive, it is possible, but not likely, that inserts 138 might pass over center, and should this occur, the direction of twist of cap 118 can be reversed since such cap and collar 134, except for inserts 138, are not otherwise attached to collar 132.
For use in the operation of jig 14, which will be described in detail, reference is made to FIGS. 9 and showing respectively the line-up or zero setting bushing 144 and a representative drill bit bushing 146. Bushing 144 includes the cylindrical hollow shank 148 with the cross hairs -or wires 150 across the bottom end. The top of shank 148 terminates in the flange collar 152 and secured to collar 152 is the downwardly disposed pointer 154 that is parallel with the axis of shank 148. Bushing 146 includes the hollow cylindrical shank 156 topped by the flange collar 158 in the perimeter of which is an arcuate notch 160. Bushing 146 is a guide bushing for drill bits (not shown) and it will be understood that a plurality of such bushings may be provided in which the diameter of the bore 162 will vary according to the size bit being used. The outside diameters of the shank 156 on all such bushings 146 will, of course, be the same and of like diameter as shank 148 on bushing 144. All such bushings are used in association with the turret assemblies 76 and 76 where the diameter of shank 88 on cap 86 and the diameter of shank 128 depending from collar 132 are the same and designed to receive such bushings as shown in FIG. 3.
Operation With jig 14 constructed as described, it is used and operated as follows. Frame 26 is opened (FIG. 3) to permit the bowling ball 22 to be placed on base 16 with the center point 164 (FIGS. 11-13) of the 'ball substantially at point 62 as seen in FIG. 4. Point 164 is easily recognized by those familiar with drilling bowling balls since it will always be found associated with the manufacturcrs label or trademark on the ball and each manufacturer has his own characteristic form of marking the center point. Frame 26 is then returned to closed position (FIGS. 1 and 2) but not yet secured by lock or clamp means 36. Pointers 66 and 74 are placed at zero settings and the lower edge 112 of collar 78 is oriented relative to the highest point on the top scale line of calibrations 104, 106, 108 and 110. The line-up bushing 144 is then placed into the turret assembly 76 (or 76) as seen in FIG. 2 Where the diameter of collar 152 is such that this collar rests on the top surface of cap 86 (or of knob 118) and at the inner side of the studs 114 or 136 so that such studs do not interfere with rotation of the bushing. Pointer 154 on bushing 144 is then oriented directly over the zero reading on scale 72 (FIG. 1) so that the cross wires are oriented relative the respective front, rear and sides of frame 26. Ball 22 is then manually maneuvered until point 164 is vertically aligned with the center of the cross wires, which can be determined by sighting down bushing 144, and when this has been accomplished, lock 36 is secured and ball 22 is then immovable being secured between base 16 and frame 26 in which the friction tabs 24 and 40 are placed as previously described. Bushing 144 is then removed and the axis of the turret assembly is on an absolute vertical plane through the center point 164 of the ball 22.
Ball 22 at this point is ready to be drilled and it is pointed out that at no time during the drilling of either the thumb hole 166 or finger holes 168 and 170 is it necessary to move or remove the ball from its locked-in position in jig 14 and consequently, the accuracy obtainable by this jig is materially greater than in other type jigs where the ball is removed or moved after each hole is 1drillled to permit proper measurements for the succeeding In describing the drilling operation with this jig 14, reference will be made to FIGS. 1113 which illustrate different common hole patterns for two finger holes and the thumb hole, and it will be understood that other patterns and a larger number of finger holes may be desired in particular cases. It will also be understood that the size of and relative position of the several holes will have been predetermined either by reference to a standard arrangement or from specifications furnished by the contemplated user of the ball according to his special preferences and that the function of jig 14 is to accurately drill the holes in compliance with such measurements.
The thumb hole 166 is first located and drilled and then the finger holes 168 and 170, and in describing the relative adjustments on jig 14, the thumb hole 166 is toward the front end 38 of base 16 at one side of point 164 and the finger holes 168 and 170 are on the opposite side of point 164 toward the rear 32 of base 16. Any inclination of any of the holes toward the center point 164 will 'be referred to as forward, and away from point 164 as rearward. Likewise, lateral inclination of any hole will be referred to as a right or left lateral from a reference point at the front 38 of base 16 and as viewed in FIGS. 11-13. The measurement generally between the thumb hole 166 and the finger holes 168 and 170 across the center point 164 is referred to as the span and the measurement between'the finger holes is referred to as the bridge. The span may be measured from edge to edge of the holes as shown in FIGS. 11-13 or may be measured from center to center with, of course, proper allowance relative to the reference point used. The span may of course vary with different users and the four inch span shown is merely illustrative. As seen in FIGS. 11 and 12 the thumb hole and finger holes are equidistant from point 164 which is known as splitting the label and in FIG. 13 most of the span is shown above point 164 which is a preferred arrangement. The relative position of the finger holes 168 and 170 as seen in FIGS. 11 and 12 are a matter of choice.
With jig 14 at all Zero settings as described and with reference to the preferred hole pattern in FIG. 13, the span gauge is moved toward the front one-fourth the distance of the span plus one-half the diameter of the proposed thumb hole 166 whereby the axis of the turret assembly will be on center with the axis of the hole to be drilled, and on a direct radial line to the actual center or axis of the ball since the lower shank end of the turret assembly moves in a parallel plane to the circumference of the ball. Calibrations 64 will be used for this purpose and the span gauge then tightened in place by knobs 68 and 70. The inclination of the proposed hole either forward or rearward or lateral, or a combination of either a forward or rearward and a lateral inclination is provided by adjustment of the turret assembly '76 (or 76). For a forward inclination only, collar 78 is moved so that edge 112 registers with the desired line on scale 104 and maintains zero registration with scales 108 and 110. For a rear inclination only, the registrations wit-h the scales 108 and 110 are maintained at zero and edge 112 is adjusted relative to scale 106. -It will be understood, of course, that the turret cap is loosened to permit movement of collar 78 and tightened once the proper setting is made. In such movement of collar 78, as well as in other adjustments to be described, it is pointed out that because of the spherical plane of the contour of housing 58 having an axial point corresponding to point 62 on ball 22 and the conformation of collar 78 to such contour, that the axial point at the lower end of the shank 90 (or 128) always remains at the same point over designated axial point on the proposed hole at the perimeter of the ball and that any movement of collar 78 relative to scales 104, 106, 108 and 110 merely changes the inclination of the turret axis without changing the contact point of the drill bit on the ball as will later appear. For a right lateral inclination only, collar 78 is oriented relative to scale 108 with edge 112 at zero readings on scales 104 and 106 and for a left lateral only, scale 110 is used and zero readings maintained on scales 104 and 106. It will become apparent from these possible adjustments that both a forward or rear and a lateral inclination can be calibrated simultaneously by orienting edge 112 of collar 78 with scale 108 and either 104 or 106, for example, or simultaneously using scale 110 with 104 or 106 according to the specific measurements for each scale. Having thus set the span gauge and provided for the inclination desired, if any, the thumb hole is ready to be drilled.
An appropriate guide bushing 146 having a bore 162 relative to accommodating a drill bit for the size hole desired is placed in the turret assembly and the diameter of collar 158 (FIG. is such that notch 160 can embrace stud 114 (or 136) to prevent any rotary movement of the bushing. Such bushing and its cooperating turret structure permit the use of any ordinary one-half inch electric drill which is a substantial difference over other jigs of this type that require the use of a heavy drill press. The turret assembly and guide bushing will hold the drill bit directly on line and eliminate any drift of the bit on the circumference of the ball before penetration is accomplished. The weight of the drill with perhaps only a slight manual pressure is adequate to accomplish the desired drilling. The depth of such holes vary from what is known as standard, semi-finger tip and finger tip depths and it will be understood that any suitable calibrated depth gauge will be applied to the drill in a well-known manner.
Having completed the thumb hole, the span gauge with reference to FIG. 13 is moved over the center point 164 three-fourths of the distance of the span plus onehalf the diameter of the ball. Since both finger holes (FIG. 13) 168 and 170 are offset relative from the front and rear vertical line 172 through point 164, the offset gauge must be adjusted. This requires loosening the set screw 56 and moving carriage 54 left or right for the respective holes 168 and 170 and aligning pointer 74 on scale 72. Forward, rear and lateral inclinations are then provided by adjustment of the turret assembly as described for the thumb hole and the holes drilled with the electric hand drill as indicated.
The turret assembly of this jig has particular value in drilling the finger holes since the bridge between such holes is normally only one-quarter inch and if two such closely adjacent holes are drilled on a perpendicular axis to the perimeter of the ball at the point of contact, it will be appreciated that the lower extremities of such holes would converge and break through. This is a frequent occurrence in present drilling apparatus and can be eliminated entirely by jig 14 since once the axial point of the finger holes 168 and 170 has been determined by the offset qauge, the axis of the turret assembly is inclined to left for hole 168 and to the right for hole 170 so that the axes of such holes can be parallel to each other or otherwise oriented so they will not break through at the bottom. This will, of course, necessitate the drill bit entering the ball at a tangent relative to the perimeter where the drift of the bit, as described, generally occurs but which has been eliminated by the jig herein disclosed.
This jig 14 when constructed as described may also be used with conventional plug cutter tools. In this regard, as is well known, holes in bowling balls are frequently plugged so new holes can be drilled in perhaps a different pattern or in different degrees of inclination. Such plugging is accomplished by providing a parapet around the hole at the surface and filling the hole with a fluid mixture that will harden according to well-known methods. The resulting plug thus projects slightly from the hole and must be cut or smoothed to be coplanar with the outer ball surface. A rotating cutter wheel is generally used and care must be taken to cut the plug accurately so as not to gouge or indent the ball as the tool is moved back and forth across the plug. Accordingly, by tightening the turret assembly at all zero readings, forward, rear and lateral, and by loosening the tightening members for both the span and offset gauges, the cutter tool, with an appropriate depth gauge, may be inserted into the turret assembly through an appropriate bushing 146 and then rocked forwardly, rearwardly and laterally in its grinding or cutting action against the plug. In this respect, it will be appreciated that such tool will always move parallel to the perimeter of the ball for a uniform cutting action and the depth gauge will prevent further cutting at the required point when the plug is flush with the surface of the ball.
It will be appreciated from the foregoing that jig 14 affords many advantages over the heavy, cumbersome and relatively expensive jigs now available for drilling bowling balls. This jig, because of its relatively light weight and economical cost, may be profitably acquired by individual bowling lane establishments and its adaptability to the use of an ordinary electric hand drill instead of a heavy expensive drill press is a marked departure from and improvement over present methods of bowling ball drilling. Likewise, the fact that the ball is not moved once frame 26 is tightened and the relative simplicity of setting the span and offset gauges and inclination of the hole axes makes the requirement for trained personnel unnecessary.
It is thus submitted that the invention shown and described is aptly suited to achieve the purposes intended and is characterized by a combination of highly useful and mutually cooperating elements that combine their respective and proportionate functions in accomplishing the objects sought to be obtained.
It will be understood that the phraseology employed herein is for-the purpose of description and not for limitation and that modifications and changes in the construction and arrangement of this invention can be made within the scope of what is claimed, without departing from the spirit and purpose thereof. It is thus intended to cover by the claims, any modified forms of structure or mechanical equivalents which may be reasonably included within their scope.
We claim:
1. A bowling ball drill jig comprising:
a base having a front and rear and designed for supporting a bowling ball,
a hinged lockable annular frame carried by said base so as to embraceably engage a bowling ball to hold it against movement relative to said base,
first and second elongated parallel bars pivotally secured at their respective centers at respective diametrically opposed points on said frame,
the longitudinal axes of said bars extending between the front and rear of said base,
a first releasable lock means to hold said bars immovable at times,
arched track means connecting said bars and having a curvature designed to be parallel to the perimeter of a bowling ball when such a ball is supported on said base,
carriage means movable on said base intermediate said bars,
a second releasable lock means to hold said carriage immovable at times,
a hollow semispherical housing mounted on said carriage,
a collar having a flat annular top edge and an underside formed for nesting arrangement on said housing so as to be universally movable relative thereto,
a cap for holding said collar immovable at times relative to said housing means,
said cap including a depending cylindrical hollow shank terminating within said housing so as to be in closely spaced relationship from the perimeter of a bowling ball on said base, and
a drill bit guide bushing of a selected size removably journalled in said shank.
2. A bowling ball drill jig comprising:
a base having a front and rear and designed for supporting a bowling ball,
a hinged lockable annular frame carried by said base so as to embraceably engage a bowling ball to hold it against movement relative to said base,
first and second elongated parallel bars pivotally secured at their respective centers at respective diameterically opposed points on said frame,
the longitudinal axes of said bars extending between the front and rear of said base,
a first releasable lock means to hold said bars immovable at times,
arched track means connecting said bars and having a curvature designed to be parallel to the perimeter of a bowling ball when such a ball is supported on said base,
carriage means movable on said base intermediate said bars,
a second releasable lock means to hold said carriage immovable at times,
a turret assembly having a vertical bore and mounted on said carriage,
means to locate and fix the axial point at the lower end of said bore at any selected point relative to the perimeter of a bowling ball in which a hole is to be drilled,
said turret assembly being universally movable to vary the inclination of the axis of said bore but maintain- 10 ing the fixed position of the axial point at the lower end thereof, and a drill bit guide bushing removably journalled in said bore for maintaining such bit exactly on the axis of said bore during penetration of said ball. 3. A device as defined in claim 2 wherein said turret assembly comprises:
a hollow semispherical housing mounted on said carriage,
a collar having a fiat annular top edge and an underside formed for nesting arrangement on said housing so as to be universally movable relative thereto,
an annular cap,
an annular shoulder secured to the inner surface of said cap near one end thereof,
said shoulder provided with a plurality of spaced recesses,
a cylindrical hollow shank extending through said collar into said housing,
a concentrically enlarged shoulder at the top of said shank,
said shoulder having similarly arranged recesses as said annular shoulders so that each recess on each shoulder is in semiregistering position with a recess on the other shoulder,
a rigid shim-like insert diagonally disposed in each pair of semiregistering recesses,
means for tightening said shank against said collar and said housing, and
with said shank tightened, rotation of said cap urging said recesses into full registration where said inserts are urged toward a vertical position and exert a leverage action between said shoulders to further increase the tightening means between said shank and said collar and housing.
4. A jig for drilling thumb and finger holes in a bowling ball having a fixed marking indicating its center point, said jig comprising:
a base for supporting said ball,
a lockable annular frame carried by said base to embraceably engage said ball and hold it against movement relative to said base,
a calibrated span gauge movably mounted to said frame for selectively measuring distances on the perimeter of said ball in two diametrically opposite directions from said center point,
a calibrated oifset gauge carried by said span gauge for selectively measuring distances on the perimeter of said ball in two diametrically opposite directions from said center point and perpendicular to the line of measurement of said span gauge,
a calibrated turret assembly having a vertical bore and mounted on said oifset gauge,
means to locate and fix the axial point at the lower end of said bore at any selected point relative to the perimeter of said ball in which a hole is to be drilled,
said turret assembly being universally movable to vary the inclination of the axis of said bore but maintaining the fixed posit-ion of the axial point at the lower end thereof, and i a drill bit guide bushing removably journalled in said bore for maintaining such bit exactly on the axis of said bore during penetration of said ball.
5. Apparatus as defined in claim 4 wherein the position of the axial point at the lower end of said bore relative to the perimeter of said ball is the common reference point for the respective calibrations on the span and olfset gauges and on said turret assembly.
6. Apparatus as defined in claim 4 wherein at the zero position of'the calibrations for said span and offset gauges and for said turret assembly, the axis of said bore is on an absolute vertical plane through the axis of said ball.
7. A jig for drilling thumb and finger holes in a bowling ball having a fixed marking indicating its center point, said jig comprising:
a base for supporting said ball,
a lockable annular frame carried by said base to embraceably engage said ball and hold it against movement relative to said base,
a turret assembly having a vertical bore and operatively mounted on said frame,
means to locate and fix the axial point at the lower end of said bore at any selected point relative to the perimeter of said ball in which a hole is to be drilled,
said turret assembly being universally movable to vary the inclination of the axis of said bore but maintaining the fixed position of the axial point at the lower end thereof, and
a drill bit guide bushing removably journalled in said bore for maintaining such bit exactly on the axis of said bore during penetration of said ball.
8. A device as defined in claim 7 wherein said turret assembly comprises:
a hollow semispherical housing mounted on sa1d carria e,
a coll ar having a fiat annular top edge and an underside formed for nesting arrangement on said houslng so as to be universally movable relative thereto,
an annular cap,
an annular shoulder secured to the inner surface of said cap near one end thereof,
a cylindrical hollow shank extending through said collar into said housing, I
a concentrically enlarged shoulder at the top of said shank,
said shoulders being in juxtaposition,
a first means for tightening saidshank against said housing and said collar, and
a second means for urging said shoulders away from each other to increase the tightening effect of said first means.
9. A jig for drilling thumb and finger holes in a bowling ball having a fixed marking indicating its center POlIllI, said jig comprising:
a base for supporting said ball,
a lockable annular frame carried by said base to embraceably engage said ball and hold it against movement relative to said base,
a turret assembly operatively mounted on said frame and having a vertical bore terminating at its lower end in closely spaced relation above the center point on said ball,
means to fix the position of the axial point at the lower end of said bore relative to any selected point on the perimeter of said ball determined as the axial point of a hole to be drilled therein,
means to selectively incline the axis of said bore but maintaining the fixed position of the axial point at the lower end of said bore, and
a drill bit guide bushing removably journalled in sald bore and designed for guiding the bit on a manually held electric drill.
10. A jig for drilling thumb and finger holes in a bowling ball having a fixed marking indicating it center point, said jig comprising:
a base for supporting said ball,
a lockable annular frame carried by said base to embraceably engage said ball and hold it against movement relative to said base,
a turret assembly having a vertical bore,
means for supporting said turret assembly so that the lower end of said bore is in closely spaced relation above the center point of a bowling ball secured by said frame,
a first calibrated means for selectively moving said turret assembly in diametrically opposite directions relative to said center point,
a second calibrated means for selectively moving said turret assembly in diametrically oppositedirections from said center point and perpendicular to the line of movement with said first calibrated means, and
means to selectively incline the axis of said bore away from a vertical plane in any selected direction but maintaining any prefixed position of the axial point at the lower end of said bore relative to a prefixed point on the perimeter of said ball which has been designated as the axial point for a hole to be drilled.
11. A device as defined in claim 10 including:
a drill bit guide bushing removably journalled in said bore, and
said guide bushing adapted to receive a drill bit on an electric hand drill and to hold said bit against any drift on the perimeter of said ball at the initial contact therewith.
12. A device as defined in claim 10 including means for orienting the axis of said bore on an exact vertical plane through said center point and the axis of said ball.
13. A jig for drilling thumb and finger holes in a bowling ball having a fixed marking indicating its center point, said jig comprising:
a base for supporting said ball,
a lockable annular frame carried by said base to embraceably engage said ball and hold it against movement relative to said base,
a hollow semispherical housing operatively supported by said frame,
a collar having a flat annular top edge and an annular underside adapted for nesting arrangement on said housing so as to be universally movable relative thereto,
a cap assembly for holding said collar immovable relative to said housing in any predetermined position,
said cap assembly including a depending cylindrical shank terminating within said housing so as to be in closely spaced relationship at its lower end from the perimeter of a bowling ball on said base,
means for orienting the axis of the bore of said shank on a vertical plane through said center point and the axis of said bowling ball,
the axial point at the lower end of the bore of said shank defining the center point of a circle represented by a line completing a full circle of the curvature of said housing,
movement of said collar relative to said housing effecting an inclination of the axis of the bore in said shank away from a vertical plane but maintaining a prefixed position of said axial point at the lower end of said bore relative to the perimeter of said bowling ball, and
bushing means associated with said cap assembly for guiding the drill bit on an electric hand drill into said bowling ball.
14. A device as defined in claim 13 including means to orient the axis of the bore in said shank over any selected point on the perimeter of said bowling ball offset from the center point thereof.
15. A means for tightening a first and second apertured member in juxtaposition, said means comprising:
an annular cap,
an annular shoulder secured to the inner surface of said cap near one end thereof,
a cylindrical hollow shank extending through such apertured members,
a concentrically enlarged shoulder at the top of said shank,
said shoulders having similarly arranged recesses so that each recess on each shoulder is in semiregistering position with a recess on the other shoulder,
a rigid shim-like insert diagonally disposed in each pair of semiregistering recesses,
means for tightening said shank against such apertured members, and
13 with said shank tightened, rotation .of said cap urging said recesses into full registration where said inserts are urged toward a vertical position and exert a leverage action between said shoulders to further increase the tightening means between said shank and such apertured members.
References Cited by the Applicant UNITED STATES PATENTS 1,430,895 10/1922 Fetterly.
14 Shepard. Widdis. Hopkins. Ellison et al. Grove.

Claims (1)

1. A BOWLING BALL DRILL JIG COMPRISING: A BASE HAVING A FRONT AND REAR AND DESIGNED FOR SUPPORTING A BOWLING BALL, A HINGED LOCKABEL ANNULAR FRAME CARRIED BY SAID BASE SO AS TO EMBRACEABLY ENGAGE A BOWLING BALL TO HOLD IT AGAINST MOVEMENT RELATIVE TO SAID BASE, FIRST AND SECOND ELONGATED PARALLEL BARS PIVOTALLY SECURED AT THEIR RESPECTIVE CENTERS AT RESPECTIVE DIAMETRICALLY OPPOSED POINTS ON SAID FRAME, THE LONGITUDINALLY AXES OF SAID BARS EXTENDING BETWEEN THE FRONT AND REAR OF SAID BASE, A FIRST RELEASABLE LOCK MEANS TO HOLD SAID BARS IMMOVABLE AT TIMES, ARCHED TRACK MEANS CONNECTING SAID BARS AND HAVING A CURVATURE DESIGNED TO BE PARALLEL TO THE PERIMETER OF A BOWLING BALL WHEN SUCH A BALL IS SUPPORTED ON SAID BASE, CARRIAGE MEANS MOVABLE ON SAID BASE INTERMEDIATE SAID BARS, A SECOND RELEASABLE LOCK MEANS TO HOLD SAID CARRIAGE IMMOVABLE AT TIMES, A HOLLOW SEMISPHERICAL HOUSING MOUNTED ON SAID CARRIAGE, A COLLAR HAVING A FLAT ANNULAR TOP EDGE AND AN UNDERSIDE FORMED FOR NESTING ARRANGEMENT ON SAID HOUSING SO AS TO BE UNIVERSALLY MOVABLE RELATIVE THERETO,
US340375A 1964-01-27 1964-01-27 Bowling ball drill jig Expired - Lifetime US3262340A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3714703A (en) * 1970-05-27 1973-02-06 T Maples Bowling ball refinishing machine
US4999896A (en) * 1989-10-25 1991-03-19 Gemcor Engineering Corporation Automatic double-flush riveting
US5173016A (en) * 1991-04-17 1992-12-22 Pro Shops Unlimited Apparatus and method for forming finger and thumb holes in bowling balls
US5409334A (en) * 1994-03-16 1995-04-25 David Edis Vacuum vice for bowling balls
US5634749A (en) * 1994-03-16 1997-06-03 Jerry Liem Vacuum vice for bowling balls
EP2116284A1 (en) * 2008-05-08 2009-11-11 QubicaAMF Worldwide LLC Systems and methods of beveling bowling ball holes

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1430895A (en) * 1919-12-18 1922-10-03 John F Fetterly Drilling jig
US2283469A (en) * 1941-02-01 1942-05-19 Stowe Woodward Inc Boring mechanism
US2349394A (en) * 1941-12-12 1944-05-23 Brunswick Balke Collender Co Bowling ball drilling fixture
US2428669A (en) * 1945-02-02 1947-10-07 Hopkins Henry Fixture for drilling bowling balls
US2490120A (en) * 1946-07-19 1949-12-06 Brunswick Balke Collender Co Drilling fixture
US2643557A (en) * 1949-09-27 1953-06-30 Walter T Grove Fixture for spherical members
US2879679A (en) * 1957-02-18 1959-03-31 Wilber L Neff Jig for boring finger holes in bowling balls

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1430895A (en) * 1919-12-18 1922-10-03 John F Fetterly Drilling jig
US2283469A (en) * 1941-02-01 1942-05-19 Stowe Woodward Inc Boring mechanism
US2349394A (en) * 1941-12-12 1944-05-23 Brunswick Balke Collender Co Bowling ball drilling fixture
US2428669A (en) * 1945-02-02 1947-10-07 Hopkins Henry Fixture for drilling bowling balls
US2490120A (en) * 1946-07-19 1949-12-06 Brunswick Balke Collender Co Drilling fixture
US2643557A (en) * 1949-09-27 1953-06-30 Walter T Grove Fixture for spherical members
US2879679A (en) * 1957-02-18 1959-03-31 Wilber L Neff Jig for boring finger holes in bowling balls

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3714703A (en) * 1970-05-27 1973-02-06 T Maples Bowling ball refinishing machine
US4999896A (en) * 1989-10-25 1991-03-19 Gemcor Engineering Corporation Automatic double-flush riveting
US5173016A (en) * 1991-04-17 1992-12-22 Pro Shops Unlimited Apparatus and method for forming finger and thumb holes in bowling balls
US5409334A (en) * 1994-03-16 1995-04-25 David Edis Vacuum vice for bowling balls
US5634749A (en) * 1994-03-16 1997-06-03 Jerry Liem Vacuum vice for bowling balls
EP2116284A1 (en) * 2008-05-08 2009-11-11 QubicaAMF Worldwide LLC Systems and methods of beveling bowling ball holes
US20090279967A1 (en) * 2008-05-08 2009-11-12 Qubicaamf Worldwide Llc Systems and methods of beveling bowling ball holes
AU2009201656B2 (en) * 2008-05-08 2011-11-17 Qubicaamf Worldwide Llc Systems and methods of beveling bowling ball holes
US8375557B2 (en) 2008-05-08 2013-02-19 Qubicaamf Worldwide Llc Systems and methods of beveling bowling ball holes

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