Engraving machine for rings and bangle bracelets

An engraving machine for rings and bangle bracelets is disclosed. The machine is of the type that utilizes a circular pattern carrier rotatably carried on the base of the machine. The patterns, which are carried on the periphery of the carrier, are transferred to the inner surface of a ring or bangle bracelet by way of a pantograph lever having a stylus adjacent the pattern carrier and an engraving tool adjacent the inner surface of the ring or bangle bracelet. A workholder assembly is utilized to position the ring or bangle bracelet during the engraving process. The entire workholder assembly is vertically slideable along two horizontally disposed rods, which are secured to a carrier frame. A peripheral indexable ratchet wheel is rotatably mounted to the workholder assembly and carries on it a plurality of clamping chucks which hold the rings or bangle bracelets in position. The clamping chucks are axially slideable within slots in the ratchet wheel and have interchangeable jigs removably secured to them.

BACKGROUND OF THE INVENTION 
The invention relates to the type of engraving machine disclosed in U.S. 
Pat. No. 2,562,269. The engraving machine disclosed therein uses a 
pantograph lever which has a stylus at its lower end and an engraving tool 
near its mid-portion. The patterns to be engraved are carried on a 
circular carrier and are disposed in a ring along the perimeter thereof. 
In using this type of machine, the character to be engraved is positioned 
by an indexing notch on the perimeter of the pattern carrier that 
cooperates with a locking member on the machine to hold the character 
underneath the stylus. A ring to be engraved is held by a plurality of 
chucks mounted to a rotatable ratchet wheel. The ratchet wheel is rotated 
and indexed by the movement of a pawl. A connecting rod is secured between 
the pawl and a slideable lock, in order to simultaneously index the 
ratchet wheel and lock the pattern carrier into position. After the work 
piece is indexed and the pattern carrier is locked into position, the 
stylus of the pantograph lever is utilized to trace the character on the 
pattern carrier thereby causing a corresponding engraving to appear on the 
interior surface of the ring. 
The type of machine disclosed said U.S. Patent has several disadvantages 
and limitations. The vertical edges of the workholder slide are mounted 
within grooves in a pair of vertical plates. The proper sliding fit of the 
work holder slide is dependent upon the adjustment of a pair of screws 
within each of the plates. Such adjustment requires a great degree of 
skill and is extremely time consuming. Therefore, the original assembly of 
the machine is complicated, as well as any servicing which requires the 
removal of the workholder slide. 
Another limitation of the prior machines is the limited range of ring sizes 
which can be engraved by the apparatus. This range is limited by the 
amount of travel of the chucks. The prior art machines are capable of 
engraving only upon standard sized rings such as wedding bands, and school 
and fraternity rings. Since modern jewelry is available in a wide variety 
of sizes and shapes, the prior art machines are incapable of engraving 
upon a significant portion of available jewelry. 
SUMMARY OF THE INVENTION 
The invention relates to an engraving machine having a frame comprised of 
an upright member and a base. A lever having a stylus and an engraving 
tool is supported by said upright member. A plate is supported by said 
upright member so as to allow vertical movement of the plate as well as 
movement outwardly from the upright member. A peripherally indexable 
ratchet wheel, supporting a plurality of movable clamping chucks for 
holding a workpiece, is mounted for rotary movement on the plate. A single 
indexing means is provided to index the ratchet wheel and to cause 
relative motion between the workpiece and the engraving tool. 
Additionally, a portion of the clamping chucks can be made removable and 
interchangeable in order to adapt the engraving machine to various sizes 
of workpieces. 
Generally, it is an object of the present invention to overcome the 
disadvantages and limitations of the prior art machines discussed above. 
It is an object of the present invention to provide a work holder assembly 
which can be attached to the apparatus in a simple manner and with a 
minimum amount of adjustment. 
It is another object of the invention to provide a work holder assembly 
which is easily removable. 
It is another object of the invention to provide a work holder assembly 
which can pivot outwardly from its support. 
It is still another object of the invention to provide clamping chucks 
which are interchangeable. In this way, various sizes of workpieces can be 
engraved by the machines of the present invention. 
It is still a further object of the invention to provide an engraving tool 
attachment to extend the effective length of the tool. This extension will 
enable an engraving tool to engrave upon workpieces of the size of bangle 
bracelets.

DETAILED DESCRIPTION OF THE INVENTION 
Referring to the drawings in detail, wherein like numerals indicate like 
elements, there is shown in FIG. 1 a front elevational view of the present 
invention designated generally as 10, wherein a base is designated as 12 
and an upright frame is designated as 14. 
A pantograph lever 16 is mounted to the upper portion of the upright frame 
14 by way of a swivel arm 18. The pantograph lever 16 has a cutter and 
engraving arm 20 extending from its mid-portion and a stylus arm 22 
extending from its lowermost end. The universal motion of a pantograph 
lever 16 is accomplished by mounting the swivel arm 18 for pivotal motion 
in one direction to a first pivot shaft 24 and for pivotable motion in a 
second direction to a second pivot shaft 26. The lever 16 is attached to 
the upright frame 14 by way of a crank shaped mount 28 which is secured to 
the upright frame 14 by means of a screw 30. 
The engraving arm 20 has an engraver carrier 32 extending therefrom with an 
engraving tool 34 attached to its distal end. A stylus housing 36 is 
secured to the lower end of the stylus arm 22. A stylus carrier rod 38 is 
movably carried by the housing 36 and has a stylus 40 attached to its 
lower end. The carrier rod 38 is spring biased upwardly by spring 42 and 
has a knob 44 attached to its upper end. 
A circular pattern carrier 43 is rotatably secured to the base 12 by means 
of a clamp 45. The pattern carrier 43 has a plurality of characters 
arranged in a ring along the perimeter of its face. The stylus 40 will 
trace desired characters from the pattern carrier 43 and the character 
will be simultaneously engraved on a workpiece by the engraving tool 34. 
The operation of the machine will be more fully explained herein. 
A vertically movable workholder assembly 48 is supported in the mid-portion 
of the upright frame 14. A ratchet wheel 50, having a centrally located 
hole 51, is rotatably mounted on the workholder assembly 48. The ratchet 
wheel 50 is rotatable in discrete increments to a plurality of indexed 
positions. 
A workpiece is held concentric to the axis of the ratchet wheel by means of 
a plurality of clamping chucks 52. The clamping chucks 52 comprise a 
plurality of slideable jaws 54, which are movable in a direction toward 
and away from the central axis of the ratchet wheel 50, and a plurality of 
jigs 56, which are removably mounted to the jaws 54 by screws 58. The jaws 
54 are movable within radial slots 60. A rotatable gear wheel 62, having a 
spiral groove in its major face (as shown in FIG. 7 of the afore-mentioned 
patent), is mounted behind the ratchet wheel 50. A drive gear 63, which is 
rotated by turning handle 65, rotates the gear wheel 62. The jaws 54 have 
projections (not shown) which extend rearwardly to engage the spiral 
groove of the gear wheel 62. The rotation of the gear wheel 62 causes the 
projections of the jaws 54 to slide within the spiral groove. This motion 
of the projections moves the jaws 54 within their respective radial slots 
60. A workpiece can thereby be held by sliding the jaws 54 inwardly until 
the jigs 56 securely engage the workpiece. 
The entire workholder assembly 48 is mounted to a vertically slideable 
assembly 64 (FIG. 3) comprising a slide plate 66 and a pair of guide 
columns 68 secured to the rear thereof. Each guide column 68 has a 
longitudinal bore 70 completely therethrough. A bushing 72 is mounted 
within each end of the bores 70. The slide plate 66 is mounted for 
vertical movement on a pair of rods 73. The rods 73 are secured to the 
upright frame 14 by screws 75 and pass through the bores 70 and bushings 
72 of guide columns 68. By the removal of the screws 75 from the right 
side of the upright 14, the assembly 64 can be privoted a limited amount 
about the left rod 73. While the amount of movement is constrained, it is 
sufficent to allow the mechanism supported on the rear of slide plate 66 
to be serviced and/or removed. 
An indexing and locking mechanism 74 is provided to move and index the 
ratchet wheel 50 while at the same time locking the pattern carrier 43 in 
position on base 12. The indexing and locking mechanism 74 comprises a 
connecting rod 76 attached at one of its ends to workholder assembly 48 
and at its other end to a bracket 78. A lever arm 80 is secured to the 
bracket 78 in such a manner that the downward movement of the lever arm 80 
will cause the upward movement of connecting rod 76 and the work holder 
assembly 48 while at the same time engaging the locking member 81 to the 
pattern carrier 43. The downward movement of lever arm 80 will also cause 
rotation of indexing pawl 82. The indexing pawl 82 will engage and rotate 
the ratchet wheel 50 a discrete increment. The amount of rotation of the 
pawl 82 is controlled by an adjustable stop 84 which is movably secured to 
the slide 66 by a clamp 86. By selectively positioning the adjustable stop 
84, the amount of rotation of the indexing pawl 82 is controlled. The 
amount of rotation of the ratchet wheel 50 is thereby also controlled. A 
retaining pawl 88 is also secured to the plate 66 and prevents the 
backward rotation of the ratchet wheel 50. 
For further details of the locking of the pattern carrier 43, the indexing 
of the ratchet wheel 50 and the sliding motion of the work holder assembly 
48, reference is made to U.S. Pat. No. 2,562,269, which is hereby 
incorporated by reference. 
As best seen in FIG. 4, an engraving tool extension mount 90 is provided to 
adapt the engraving tool to large sized workpieces such as bangle bracelet 
46. The extension mount 90 has a hole 92 which is complementary with the 
engraver carrier 32 and the engraving tool 34. The extension mount 90 is 
secured to the engraver carrier 32 by means of a set screw within threaded 
hole 94 and carries an engraving tool 96 which is attached to the mount 90 
by a second set screw within threaded hole 98. The extension mount 90 
thereby provides a quick and simple means for adapting the engraving tool 
to large sized workpieces. Without the necessity of removing the original 
tool 32, the extended tool 96 can be secured to the carrier 32. 
In operation, after the workpiece to be engraved has been selected, a 
proper sized jig 56 is chosen. A plurality of various sized jigs is 
provided. The clamping chucks 52 can thereby hold a wide variety of 
workpieces. Depending upon the size of the workpiece, the engraving tool 
extension mount 90 may or may not be needed. Thus, by the simple steps of 
selecting a jig 56 and mount 90, the engraving machine of the present 
invention can be adapted to engrave upon a wide variety of workpieces. In 
addition to being able to engrave upon standard sized workpieces such as 
wedding bands, the engraving machine of the present invention is capable 
of engraving upon large costume jewelry rings that have large and 
odd-shaped tops or settings with large stones. The present invention is 
even capable of engraving upon jewelry much larger than rings, such as 
bangle bracelets of approximate diameters between 2 and 3 inches. 
The selected jigs 56 are attached to the jaws 54 and the workpiece is 
secured between the jigs 56 by rotating handle 65. Thereafter, the desired 
pattern carrier is secured to the base by means of the clamp 45. The 
operator can then begin the engraving process. 
The operator selects the character to be engraved from the pattern carrier 
43 and positions it adjacent to the locking member 81. He then depresses 
the lever 80. This engages the locking mechanism 81 to the pattern 
carrier, raises the work holder assembly 48 and indexes the ratchet wheel 
50. He then traces the character from the pattern carrier with the stylus 
40 and the engraving tool simultaneously engraves a similar character upon 
the workpiece. For further details of the operation of the engraving 
machine, reference is again made to the afore-mentioned patent. 
In order to facilitate the ease of construction and serviceability of the 
engraving machine, a new slide assembly has been provided. The use of the 
rods 73 in conjunction with the guide columns 68 provide an easy and 
simplified way of aligning the slide plate 66 with the upright frame 14. 
The time consuming alignment problem of the prior art machines is thereby 
eliminated. Servicing of the machine is also simplified. As mentioned 
above, the removal of two of the screws 75 allows the slide assembly 64 to 
be pivoted outwardly so as to allow access to the rear of slide plate 66. 
The complete removal of a workholder assembly, as is required for 
servicing the prior art machines, is thereby eliminated. 
The present invention may be embodied in other specific forms without 
departing from the spirit or essential attributes thereof and, 
accordingly, reference should be made to the appended claims, rather than 
to the foregoing specification as indicating the scope of the invention.