US696950A - Routing or engraving machine. - Google Patents

Routing or engraving machine. Download PDF

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US696950A
US696950A US8080999A US1899080809A US696950A US 696950 A US696950 A US 696950A US 8080999 A US8080999 A US 8080999A US 1899080809 A US1899080809 A US 1899080809A US 696950 A US696950 A US 696950A
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routing
ways
oppositely
collar
bracket
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US8080999A
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William S Eaton
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B44DECORATIVE ARTS
    • B44BMACHINES, APPARATUS OR TOOLS FOR ARTISTIC WORK, e.g. FOR SCULPTURING, GUILLOCHING, CARVING, BRANDING, INLAYING
    • B44B3/00Artist's machines or apparatus equipped with tools or work holders moving or able to be controlled substantially two- dimensionally for carving, engraving, or guilloching shallow ornamenting or markings
    • B44B3/001Artist's machines or apparatus equipped with tools or work holders moving or able to be controlled substantially two- dimensionally for carving, engraving, or guilloching shallow ornamenting or markings by copying
    • 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
    • Y10T409/00Gear cutting, milling, or planing
    • Y10T409/30Milling
    • Y10T409/30084Milling with regulation of operation by templet, card, or other replaceable information supply
    • Y10T409/301176Reproducing means
    • Y10T409/301568Reproducing means by use of pivotally supported tracer

Definitions

  • My machine is capable of simple engraving or die-cuttingor other routing operations.
  • Figure l is a front elevation of my machine, and Fig. 2 is a side elevation.
  • Eig. 3 is a plan view, omitting the guide-pulleys 25 and their brackets 24.
  • Fig. 4 is a vertical section of thel leverage system and engraving-table.
  • the frame consists of the base-plate 1, upon which is mounted an upright 2.
  • the upper end of this upright is bifurcated, as at 3 3, to permit of the introduction of a bracket supporting the routing instrument, which bracket is arranged to move between said bifurcated arms, as in ways.
  • 4 is a right-angular frame or bracket routing or engraving is to be done upon'an y object which is of a thickness requiring more space between the routing instrument and the table than is exhibited in these drawings.
  • the top plate 6 of the right-angular frame 4 is provided with ball-bearing ways 10. These ways are parallel, and the plate 7 is provided with ways 11, in which the bracket 12 is mounted to move vertically. This bracket is held adjustably within said ways by the screw-bolt 13.
  • the bracket 12 terminates in bifurcated arms 14 14, which arms carry center-bearing points 15 15. This bracket becomes the support for the suspended leverage system, which will be described hereinafter.
  • 16 is a bracket hav'ing ways 17 17, which slide within the jaws 3 3 of the upright 2 and are secured at any desired position therein by the set-screws 18.
  • 2l is a rock-beam pivoted on the shaft 20.
  • 22 is a routing instrument suitably j ournaled at one en'd of the rock-beam 21. I deem it unnece essary to describe this journaled routing instrument, for there are many well known in the art which could be employed for thispurpose.
  • 23 is a pulley secured to the routing instrument or its connections adapted to con- Vey to said instrument a rotary movement.
  • this routing instrument will be readily understood.
  • Asuitable power-cord passes around the pulley 23 and over the guide-pulleys 25 25, thus giving a rotary motion to the routing instrument 22.
  • pressure is exerted, preferably by the i'oot, upon a pedal to which the rod 29 is attached, the pedal not being shown in the drawings to avoid complicating the latter.
  • Said rod 29 is drawn down, and the routing instrument is lifted off of the surface upon which it is operating by the rocking of the beam 2l upon its pivot 20. It is again lowered into operative position by removing the lpressure from the pedal, and it is delicately adjusted with reference to the operative surface by the micrometer-screw 26, which is readin relation to the index-iinger 28.
  • the top plate 6 of the right-angular frame 4 is provided with parallel ball-bearing ways.
  • the plate 33 vis provided on its under side with parallel ball-bearing ways 34 to correspond with those in the plate 6, and the plate 33 is also provided with ways in its upperside at'rightl angles to those on its under side.
  • the plate 36 forms what I call the engraving-table and is provided on its under side with parallel ball-bearing ways 37, corresponding to those on the upper side of the plate 33. Suitable balls are introduced within the bearings between these plates.
  • 38 is a beveled tongue cut from the top of the table 36m
  • 39 is a block having on its under side beveled Ways adapted to fit over the tongue 38 of the table 36 and forming a base for the surface to be engraved.
  • 40 is a tongue attached to the table 36, with center bearings on either side thereof, which are not shown. It will be understood that the plate 36 will take a movement in any direction-that is to say, it will have a universal movement, for
  • 41 is a ring having oppositely-disposed center bearings (not shown) and oppositely-disposed center-bearingpoints 42.
  • 43 is a collarhaving oppositely disposed center bearings 44. This collar is secured to a vertical lever 46 by the set-screws 45.
  • 46 is a vertical lever forming part of the leverage system.
  • 47 is alink interposed between the lever 46 and the engraving-table 36, as follows: The link 47 has bifurcated ends 48 48 and 49 49, in which are mounted the center bearings 50 50 and 51 51.
  • 52 is a ring having oppositely-disposed center bearings (not shown) and oppositely-disposed centerbearing points 53 53.
  • 54 is a second collar having oppositely-disposed center bearings, (not shown,) and 55 is a set-screw securing said last-mentioned collar to the lever 46.
  • 56 is a sleeve adapted to receive the lever 46, which is suitably secured therein by a setscrew.
  • the sleeve 56 is provided with bifurcated arms 57, carrying center-bearing points 58.
  • 59 is a guide-arm having at one end an adjustable sleeve 60 for the tracer 61, which has a head 62, and at the other end the guidearm 59 is provided with center bearings ⁇ 63.
  • 67 is a table having on its under side a beveled tongue 67 and clamp-jaw 68, which is adjustably secured to the table 67 by the screw 69.
  • the leverage system last described consists of a suspended lever connected by universal joints adapted to transfer the movement of the tracing-point 61 to the engraving-table 36, for it will be l seen that every movement of the tracer will move the tracer-arm, and therefore the vertical lever 46, which in turn will ⁇ rock either on the pivotal points ⁇ 15A or 42, and in like manner each movement of the lever-arm 46 will transmit to the link 47 a pivotal movement, operating either on the center-bearing points 51 or 53, and in these movements the plate 36 will be moved in a direction corresponding to the movement of the tracerpoint. or lowering the bracket 12 and collar 43 the degree of the angular movement-may be increased or diminished. It will be readily understood that a variety of adjustments may be accomplished by raising or lowering the loo IIS
  • brackets 4 and 12 and collar 43 all of which can be defined by a definite rule of measurement, which it is unnecessary for me here to elaborate.
  • a freely-pivoted tool-carrying beam the toolcarrying arm of said beam being free to be lifted from its Working position and falling freely toward said position, a spring between some portion of said beam and the frame of the machine and operatively engaging both ⁇ of said part-s just about as the beam reaches its working position but out of operative engagement with one of said parts when the beam is lifted, thereby providing a cushion for said beam, said spring being attached to one of said parts, and a set-screw attached to the other of said parts and engaging said spring as the said beam is about to reach its working position; substantially as described.
  • an upright support provided with vertical ways in combination with means mounted in said ways to su pport and adjust the routing-tool, and a supporting-table or right-angu1ar frame mounted in said ways to be adjusted and secured therein
  • said table provided with vertical ways in combination with a supporting bracket mounted in said Ways to be adjusted and secured therein, ⁇ and a lever suspended from said bracket and means to secure said parts together or to adjust the same with reference to each other, substantially as described.
  • a bifurcated bracket carrying center-bearin g points in its arms said bracket being adj ustably ⁇ mounted in vertical ways in a supporting-frame, auring having oppositely-disposed center bearings and oppositely-disposed center points, a vertical lever providedwith a collar adj ustably secured thereto and having oppositely-disposed center bearings, the ring being ⁇ mounted between the arms of the bracket and thefcollar within the ring in com- ⁇ bination with a link having a bifurcated end, ⁇
  • a :ring having oppositely-disposed center bearings and oppositely disposed center-bearing points; a second collar adj ustably secured to said vertical lever', said collar having opjlositelydisposed center bear ings, the ring being mounted between the arms of the link and the second collar within the ring, substantially as described.
  • an adjustable suspended lever pivotally connected and mounted as follows: a bifurcated bracket carrying center-bearing points in its arms, said brackets being adj ustably mounted in vertical ways in a supporting-frame, a ring having oppositely-disposed center bearings and oppositely-disposed center points, a vertical lever provided with a collar adjustably secured thereto and having oppositelydisposed center bearings, the ring being mounted between the arms of the bracket and the collar within the ring in combination with a link having a bifurcated end, with centerbearing points in the arms of said biturcated4 ed as follows: a bifurcatedbracket carrying ⁇ center-bearing points in its arms, said brackets being adj ustably mounted in vertical ways in a supporting-frame, a ring having oppositely-disposed center bearings and oppositely-disposed center points, a vertical lever provided with a collar adj ustably secured thereto and having oppositely-disposed center bearings, the ring being mounted .between the arms of the bracket and

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  • Pivots And Pivotal Connections (AREA)

Description

No. 696,950. Y Patienten Apr. a, |902. w. s. EAToN.
ROUTING 0R ENGRAVING MACHINE.
(Application lsd Nov. 23, 1899. Renewed lfov. 1, 1901.) (No Model.) 4 Sheets-Sheet I,
im; 3 glmlgalgemmunan m: wams Pneus cm Pncruumo.. wAsmNsmN, n, c.
No. 696,950. Patented'Apr. 8, |1902.
W. S. EATON.
RDUTING 0R ENGBAVING MACHINE.'
(Application filed Nov. 23, 1899. Renewed Nov. 1, 1901.)
S 4 ShetS--Slheet 2.
(No Model.)
Y VENTUR M... 5....... W .f/7M.
4 ATTYS YH: caws Pinzas cu, Puorou'mn. WASHINGTON. n. c.
. Patnt-ed'Apr. 8, |2902.A w. S. EATON. BUUTING 0R ENGBAVING MACHINE.
(Application led Nov 28, 189,9. A12.enewed'N::v. 1, 1901.)
17g, ATTY 5 YH: cams versus co.. PnomLmo, wAsHmaora. n. c.
y No.' 696,950. W. S. EATON. RUUIING 0R ENGRAVING MACHINE.
l (Application led Nov. 23, 1899. Blenewed Nov: 1, 1901.) (no Model.) n Y 4 sheets-sheet 4.
Patented Apr. a, |992.
m: nonms PETcRs co, pHoro-Unia. wAsmNcroN, n. c.
man raras armar rrrcn.
l/VILLIAM S. EATON, OF SAG HARBOR, NEV YORK.
ROUTING OR ENGRAVING MASI-HNE.
srncrnrcarron forming part 0f Letters retest ivo. 696,950, dated April 8, 1902 Application led November 23, 1899. Renewed November l, 1901. Serial No. 80,809. (No model.)
To ctZZ whom 2125 may concern.-
Be it known that I, VV'ILLIAM S. EATON, a citizen of the United States of America, and a resident of Sag Harbor, county of Sui-tolk, State of New York, have invented certain new and useful4 Improvements in Routing or My present invention relates more particu-l larly to the economical and practical arrangement of parts whereby I accomplish the result and also to the automatic adjustment of which my machine is capable and the arrangement o a leverage system on the pantograph plan, wherein a very perfect universal movement is obtained with a relatively small degree of friction.
My machine is capable of simple engraving or die-cuttingor other routing operations.
I have designated this machine more particularly with the view of uniting strength of construction with ease of adjustment and harmony of operation.
I have illustrated my invention in the accompanying drawings, referring to the parts by numerals, like parts being designated by like numerals.
Figure l is a front elevation of my machine, and Fig. 2 is a side elevation. Eig. 3 is a plan view, omitting the guide-pulleys 25 and their brackets 24. Fig. 4 is a vertical section of thel leverage system and engraving-table.
I will now proceed to describe the structure of my machine. The frame consists of the base-plate 1, upon which is mounted an upright 2. The upper end of this upright is bifurcated, as at 3 3, to permit of the introduction of a bracket supporting the routing instrument, which bracket is arranged to move between said bifurcated arms, as in ways. 4 is a right-angular frame or bracket routing or engraving is to be done upon'an y object which is of a thickness requiring more space between the routing instrument and the table than is exhibited in these drawings. The top plate 6 of the right-angular frame 4 is provided with ball-bearing ways 10. These ways are parallel, and the plate 7 is provided with ways 11, in which the bracket 12 is mounted to move vertically. This bracket is held adjustably within said ways by the screw-bolt 13. The bracket 12 terminates in bifurcated arms 14 14, which arms carry center-bearing points 15 15. This bracket becomes the support for the suspended leverage system, which will be described hereinafter.
I will now describe the routing instrument and its supporting-beam. 16 is a bracket hav'ing ways 17 17, which slide within the jaws 3 3 of the upright 2 and are secured at any desired position therein by the set-screws 18. 19 19 `are upright brackets secured to the brackets 16, and supported between these brackets is a shaft 20, which is the pivot of the rock-beam now to be described. 2l is a rock-beam pivoted on the shaft 20. 22 is a routing instrument suitably j ournaled at one en'd of the rock-beam 21. I deem it unnece essary to describe this journaled routing instrument, for there are many well known in the art which could be employed for thispurpose. 23 is a pulley secured to the routing instrument or its connections adapted to con- Vey to said instrument a rotary movement.
IOO
gage the work on the downward swing of the tool-carryin g end of the rock-beam. Said spring thus acts to cushion the said beam in its fall, whereby jamming of the tool against its work is prevented. 28 is a finger secured to the beam 21. The said screw 26 is provided on its periphery with a micrometerscale, which is read in comparison with the position of the index-finger 28, so that the position of the routing instrument may be very delicately adjusted. 29 is a pressurerod secured to the other end of the beam 21 by the nut 31, and 30 is a collar secured to the arm 29, and 32 is a helical spring interposed between the collar 30 and the beam 21, the rod 29 passing through the beam 21 loosely, the spring 32 being interposed to allow for a cushioning eifect. The operation of this routing instrument will be readily understood. Asuitable power-cord passes around the pulley 23 and over the guide-pulleys 25 25, thus giving a rotary motion to the routing instrument 22. When it is desired to lift the routing instrument from the plate upon which it is operating, pressure is exerted, preferably by the i'oot, upon a pedal to which the rod 29 is attached, the pedal not being shown in the drawings to avoid complicating the latter. Said rod 29 is drawn down, and the routing instrument is lifted off of the surface upon which it is operating by the rocking of the beam 2l upon its pivot 20. It is again lowered into operative position by removing the lpressure from the pedal, and it is delicately adjusted with reference to the operative surface by the micrometer-screw 26, which is readin relation to the index-iinger 28.
I will now describe the construction and operation of the engraving-table. As heretofore stated, the top plate 6 of the right-angular frame 4 is provided with parallel ball-bearing ways. The plate 33 vis provided on its under side with parallel ball-bearing ways 34 to correspond with those in the plate 6, and the plate 33 is also provided with ways in its upperside at'rightl angles to those on its under side. The plate 36 forms what I call the engraving-table and is provided on its under side with parallel ball-bearing ways 37, corresponding to those on the upper side of the plate 33. Suitable balls are introduced within the bearings between these plates. 38 is a beveled tongue cut from the top of the table 36m 39 is a block having on its under side beveled Ways adapted to fit over the tongue 38 of the table 36 and forming a base for the surface to be engraved. 40 is a tongue attached to the table 36, with center bearings on either side thereof, which are not shown. It will be understood that the plate 36 will take a movement in any direction-that is to say, it will have a universal movement, for
i the combination of two-way right-angular tion from a tracing-stylus to the engravingtable last referred to. 41 is a ring having oppositely-disposed center bearings (not shown) and oppositely-disposed center-bearingpoints 42. 43 is a collarhaving oppositely disposed center bearings 44. This collar is secured to a vertical lever 46 by the set-screws 45. 46 is a vertical lever forming part of the leverage system. 47 is alink interposed between the lever 46 and the engraving-table 36, as follows: The link 47 has bifurcated ends 48 48 and 49 49, in which are mounted the center bearings 50 50 and 51 51. 52 is a ring having oppositely-disposed center bearings (not shown) and oppositely-disposed centerbearing points 53 53. 54 is a second collar having oppositely-disposed center bearings, (not shown,) and 55 is a set-screw securing said last-mentioned collar to the lever 46. 56 is a sleeve adapted to receive the lever 46, which is suitably secured therein by a setscrew. The sleeve 56 is provided with bifurcated arms 57, carrying center-bearing points 58. 59 is a guide-arm having at one end an adjustable sleeve 60 for the tracer 61, which has a head 62, and at the other end the guidearm 59 is provided with center bearings `63. 64 is the base of the tracer-table, mounted on the base of the machine by the pivotal points 65, so that it has a pivotal movement upon said base. It is also provided with ways 66. 67 is a table having on its under side a beveled tongue 67 and clamp-jaw 68, which is adjustably secured to the table 67 by the screw 69.
It will be understood that the leverage system last described consists of a suspended lever connected by universal joints adapted to transfer the movement of the tracing-point 61 to the engraving-table 36, for it will be l seen that every movement of the tracer will move the tracer-arm, and therefore the vertical lever 46, which in turn will `rock either on the pivotal points`15A or 42, and in like manner each movement of the lever-arm 46 will transmit to the link 47 a pivotal movement, operating either on the center-bearing points 51 or 53, and in these movements the plate 36 will be moved in a direction corresponding to the movement of the tracerpoint. or lowering the bracket 12 and collar 43 the degree of the angular movement-may be increased or diminished. It will be readily understood that a variety of adjustments may be accomplished by raising or lowering the loo IIS
It will be understood that by raising brackets 4 and 12 and collar 43, all of which can be defined by a definite rule of measurement, which it is unnecessary for me here to elaborate.
1. In an engraving-machine or the like, aV
freely-pivoted tool-carrying beam, the toolcarrying arm of said beam being free to be lifted from its working position and falling freely toward said position, and a spring interposed between some portion of said beam and the frame of the machine and operatively engaging both of said parts just about as the beam reaches its working position but out of operative engagement with one of said parts when the beam is lifted, thereby providing a cushion for said beam;` substantially as described.
2. In an engraving-machine or the like, a freely-pivoted tool-carrying beam, the toolcarrying arm of said beam being free to be lifted from its Working position and falling freely toward said position, a spring between some portion of said beam and the frame of the machine and operatively engaging both` of said part-s just about as the beam reaches its working position but out of operative engagement with one of said parts when the beam is lifted, thereby providing a cushion for said beam, said spring being attached to one of said parts, and a set-screw attached to the other of said parts and engaging said spring as the said beam is about to reach its working position; substantially as described.
3.` In a routing-machine, an upright support provided with vertical ways in combination with means mounted in said ways to su pport and adjust the routing-tool, and a supporting-table or right-angu1ar frame mounted in said ways to be adjusted and secured therein, said table provided with vertical ways in combination with a supporting bracket mounted in said Ways to be adjusted and secured therein,`and a lever suspended from said bracket and means to secure said parts together or to adjust the same with reference to each other, substantially as described.
4:. In anengraving or routing machine, a
suspended lever and adjustable connections pivotally connected and mounted as follows: a bifurcated bracket carrying center-bearin g points in its arms, said bracket being adj ustably `mounted in vertical ways in a supporting-frame, auring having oppositely-disposed center bearings and oppositely-disposed center points, a vertical lever providedwith a collar adj ustably secured thereto and having oppositely-disposed center bearings, the ring being `mounted between the arms of the bracket and thefcollar within the ring in com-` bination with a link having a bifurcated end,`
with center-bearin g points in the arms ot' said bifurcated end, a :ring having oppositely-disposed center bearings and oppositely disposed center-bearing points; a second collar adj ustably secured to said vertical lever', said collar having opjlositelydisposed center bear ings, the ring being mounted between the arms of the link and the second collar within the ring, substantially as described.
5. In an engraving or routing machine, an adjustable suspended lever pivotally connected and mounted as follows: a bifurcated bracket carrying center-bearing points in its arms, said brackets being adj ustably mounted in vertical ways in a supporting-frame, a ring having oppositely-disposed center bearings and oppositely-disposed center points, a vertical lever provided with a collar adjustably secured thereto and having oppositelydisposed center bearings, the ring being mounted between the arms of the bracket and the collar within the ring in combination with a link having a bifurcated end, with centerbearing points in the arms of said biturcated4 ed as follows: a bifurcatedbracket carrying` center-bearing points in its arms, said brackets being adj ustably mounted in vertical ways in a supporting-frame, a ring having oppositely-disposed center bearings and oppositely-disposed center points, a vertical lever provided with a collar adj ustably secured thereto and having oppositely-disposed center bearings, the ring being mounted .between the arms of the bracket and the collar within the ring in combination with a link having a in the arms of the said bifurcated end a ring having,oppositely-disposed center bearings and oppositely-disposed center-bearing points; a second collar adjustably secured to IOO IIO
ybifurcated end, with center-bearing points Y said vertical lever, said collar having oppositely-disposed center bearings, the ring being mounted between the arms of `the, link and the second collarwithin the ring, the link being pivotally connected at the other end `with an engraving-table having a universal movement, and the vertical lever being pivotallyr connected to atracer-stylus, the vertical lever being ot' two parts a sleeve anda shaft, the shaft being adjustable within the sleeve and means to secure the same therein, substantially as described.
Signed by me at New York, N. Y., this 6th day of November, 1899.
WILLIAM S. EATON..
Vitnesses: l
EMMA W. FINLAYsoN, THOMAS I. DALToN.
US8080999A 1899-11-23 1899-11-23 Routing or engraving machine. Expired - Lifetime US696950A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2666989A (en) * 1949-10-03 1954-01-26 Gorton George Machine Co Multiple spindle engraving and the like machine tools
US2803238A (en) * 1955-05-10 1957-08-20 Durndell George Jasper Means for forming grinding wheels

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2666989A (en) * 1949-10-03 1954-01-26 Gorton George Machine Co Multiple spindle engraving and the like machine tools
US2803238A (en) * 1955-05-10 1957-08-20 Durndell George Jasper Means for forming grinding wheels

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