US698832A - Carving or copying machine. - Google Patents

Carving or copying machine. Download PDF

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US698832A
US698832A US9344402A US1902093444A US698832A US 698832 A US698832 A US 698832A US 9344402 A US9344402 A US 9344402A US 1902093444 A US1902093444 A US 1902093444A US 698832 A US698832 A US 698832A
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tool
holders
pair
carving
pivot
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US9344402A
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John Gates
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q35/00Control systems or devices for copying directly from a pattern or a master model; Devices for use in copying manually
    • B23Q35/04Control systems or devices for copying directly from a pattern or a master model; Devices for use in copying manually using a feeler or the like travelling along the outline of the pattern, model or drawing; Feelers, patterns, or models therefor
    • B23Q35/08Means for transforming movement of the feeler or the like into feed movement of tool or work
    • B23Q35/10Means for transforming movement of the feeler or the like into feed movement of tool or work mechanically only
    • 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
    • Y10T409/301624Duplicating means
    • Y10T409/30168Duplicating means with means for operation without manual intervention
    • Y10T409/30224Duplicating means with means for operation without manual intervention and provision for circumferential relative movement of cutter and work
    • 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
    • Y10T409/301624Duplicating means
    • Y10T409/30168Duplicating means with means for operation without manual intervention
    • Y10T409/302352Duplicating means with means for operation without manual intervention including plural cutters
    • 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
    • Y10T409/301624Duplicating means
    • Y10T409/30168Duplicating means with means for operation without manual intervention
    • Y10T409/302408Duplicating means with means for operation without manual intervention including cross-slide tool carrier

Definitions

  • Nana's PEI'ERS ca. Puqv aurnu. iusumsmn, 04 c.
  • the tools are in pairs, moving in opposite directions toward or away from the center line of the work, so that only a half-pattern is necessary, and the machine also is so arranged that the tools can be turned in any direction.
  • Figure 1 is a plan, and Fig. 2 an end eleva tion, of a machine constructed according to this invention. ted in Figs. 1 and 2 in order to better illustrate other parts.
  • Fig. 2 is partly in section on the line 2 2 of Fig. 1.
  • Fig. 3 is a part plan to a larger scale.
  • Fig. 4 is a section on the line 4 4, Figs. 1 and 3.
  • Figs. 5, 6, and 7 are part side and front elevations and a plan showing a detail of the table.
  • Fig. 8 is a View, on an enlarged scale and in transverse section, showing the manner in which the chain may be. secured to the slides.
  • Fig. 9 is a detail plan view of the same.
  • Each tool-holder 1 is free to rotate'in bear-- ings 2, carried by a sleeve 3, and is driven through bevel-gear 3 by a shaft 4, working inside the sleeve.
  • Each shaft 4 has fixed to it a pulley 5, driven by an endless band 6, passing over a suitable guide 6
  • the bearings of the shaft 4 are fixed to a sleeve 7 on a spindle 8, so that the tool-holder 1 can beturned in a horizontal plane about the spindle 8, and it is retained in any desired posi tion by the pawl 9 on the bracket 10, which engages with a ratchet-wheel 9, fixed to the Some of the parts areomit-' ingly-beveled surfaces at their four edges or corners.
  • the two slides are fixed at 16 to an endless chain 16, passing around pulleys 17 at the ends of the table, so that they move together, butin opposite directions.
  • One rod 11 of each pair is clamped to one of the bars 12, while the other rod 11 of each pair is clamped to the other bar 12.
  • One of the bars 12 is attached to one of the slides 13, while the other bar 12 is attached to the other slide 13. (See Fig. 4.)
  • rods X are attached to opposite ends of the slides 13, and each rod 11 is connected by a brace 00 to one of the rods X.
  • a clamping device y is employed to connect each rod 11 to its brace so.
  • Figs. 8 and 9 I have shown one way in which the chain 16 may be attached to the slides 13. Any suitable device may be employed for this purpose; but it may be done by means of bolts 19, extending through links of the chain and into screw-threaded sockets in the slides.
  • the shafts 18 and 19 are a pair of square shafts free to turn in bearings at the two ends of the table.
  • the shafts 18 and 19 have fixed to one end right and left hand skew-gearpinions 20,Fig. 3, gearing with corresponding pinions 21 on the shaft 22.
  • This shaft can be turned by a handle fitting onto its front end, which is square at22 and by this means the shafts 18 and 19 can be simultaneously turned in opposite directions.
  • the shafts 18 and 19 pass through worms 23, freeto turn in bearings carried by the sleeves 7 and gearing with worm-Wheels 24 on flexible shafts 25.
  • These shafts are connected by a train of wheels 25 to the sleeves 3, so that by turning the shaft 22 the tools of all the pairs are simultaneously caused to incline'more or less toward or away from each other.
  • the rear end of the shaft 22 has fixed to it a bevel-pinion26 gearing with a bevelpinion 27 fixed to a vertical screw 26, gearmoves up-and down on a scale 28 and shows the
  • the table 14 is pivoted to a shaft 29, fixed to brackets 30, projecting from a longitudinal beam 31.
  • the shaft 29 has fixed to it a worm-wheel 32, Fig. 3, gearing with a worm 33 on a shaft 33*, carried in bearings 34 on the table, so that by turning this worm the ingwith a nut 28 on an indicator 27, which table, and with it the tools, can be tilted in either direction.
  • the beam 31 is free to move up and down on guide-rods 34, fixed to a second beam 35, and is hung from levers 36, pivoted by a rod 37 to the beam 35 and carrying counterbalance-weights 38.
  • the weights 38 are also pivoted to levers 39, pivoted at one end by means of a bar 38 to the beam 35, and one of the levers 39 (not carrying a weight) at its other end carries a pawl 40, gearing with a vertical rack 41, connected by toothed pinions 41 to the weighted treadle 42.
  • a pawl 40 gearing with a vertical rack 41, connected by toothed pinions 41 to the weighted treadle 42.
  • the shaft 48 is driven from the main shaft 55 of the machine bya belt 56, which passes around a pulley 57 on it, a pulley 58 on the main shaft, two guide-pulleys 59 on the beam 35, and a pulley 60 on the ground, so that the beam can be raised and lowered without altering the tightness of the belt.
  • the table on which the work is carried consists of a number of slats 61, movable in a frame 62, so that the work can either be supported on the surface of the table or pivoted between two slats in such a manner that it can be rotated.
  • 61 indicates the devices between which the work may be pivoted.
  • the table is supported on guides 63, running from front to back of the machine, and can be moved by ahandle'64 on aslide 65, which can move to and fro on one of the guide-frames 63 and be clamped in any position which may be convenient.
  • the handle 64 is secured to a shaft b, to which one of the chain-wheels 66 and the eccentric a are also secured.
  • the shaft 1) turns in bearings in the slide 65.
  • 0 indicates an eccentric-strap surrounding the eccentric Ct and carrying a rod 0, which extends through a clamp d, pivoted to the slide 65.
  • d indicates a handle for tightening the clamp.
  • the handle 64 maybe turned freely, the rod 0"m0ving back and forth in the clamp; but when the clamp is tightened the rod 0 is 'held stationary, and the handle 64 can turn.
  • the central chain-wheel 66 drives an endless chain 67, passing around guide-pulleys 68 at the front and back of the'ma'chine.
  • the chain can be clamped to a bar 69 on the worktable'by means of a double clamp 70, movable along the chain and along the bar.
  • the object of this arrangement is to prevent the clamp from fouling the guide-pulleys whatever may be the position of the slide.
  • the work table may be moved back and forth to any desired position by simply turning the handle 64 and may be fixed in any position by means of the clamping devices d cl.
  • the driving-belt of one of the tool-holders of each pair is removed, and the pattern is followed by the tool or by a pointer which may be substituted for the tool.
  • the work or tools, or both, are moved by the various handles.
  • What I claim is 1.
  • the combination of tool-holders arranged in pairs means for simultaneously moving the tool-holders of each pair laterally toward or away from each other, a pair of transverse shafts, means for rotating the shafts, gearing connecting one of the shafts to one of the tool-holders of each pair, and gearing connecting the other shaft to the other tool-holder of each pair.
  • the combination of tool-holders arranged in pairs means for simultaneously inclining the tool-holders of each pair toward or away from each other, a pair of transverse shafts, means for rotating the shafts, gearing connecting one of the shafts to one of the tool-holders of each pair, and gearing connecting the other shaft to the other tool-holder of each pair.
  • the combination of tool-holders arranged in pairs means for simultaneously moving the tool-holders of each pair laterally toward or away from each other, and means for simultaneously inclining the toolholders of each pair toward or away from each other.
  • the combination of tool-holders arranged in pairs means for simultaneously moving the tool-holders of each pair laterallytoward or away from each other, a table supporting the tool-holders, a pivot for thetable, and means for turning the table about its pivot.
  • the combination of tool-holders arranged in pairs means for simultaneously moving the tool-holders of each pair laterally toward or away from each other, means for simultaneously inclining the tool-holders of each pair toward or away from each other, a table supporting the tool-holders, a pivot for the table, and means for turning the table about its pivot.
  • a carving-machine thecombination of tool-holders arranged in pairs, means for simultaneously moving the tool-holders of each pair laterally toward or away from each other, a table supporting the tool-holders, a pivot for the table, means for turning the table about, itspivot, a beam supporting the pivot, a second beam supporting the first, means for lifting the first beam relatively to the second, and means for raising the second beam.
  • the combination of tool-holders arranged in pairs means for simultaneously inclining the tool-holders of each pair toward or away from each other, a table supporting the tool-holders, a pivot for the table, means for turning the table about its pivot, a beam supporting the pivot, a second beam supporting the first, means for lifting the first beam relatively to the second, and means for raising the second beam.
  • the combination of tool-holders arranged in pairs means for simultaneously moving the toolholders of each pair laterally toward or away from each other, means for. simultaneously inclining the tool-holders of each pair toward or away from each other, a table supporting the tool-holders,a pivot for the table, means for turning the table about itspivot, a beam supporting thepivot, a second beam supporting the first, means for lifting the first beam relatively to the second, and means for raising the second beam.
  • the combination of tool-holders arranged in pairs means for simultaneously moving the tool-holdersiof each pair laterally toward or away from each other, a' table supporting the tool-holders, a pivot for the table, means for turning the ta ble about its pivot, a beam supporting the pivot, a second beam, counterbalanced levers pivoted to the second beam and supporting the first, a pawlcarried by one of the levers, a rack with which the pawl engages, and means for lowering the rack.

Description

No. 698,832. Patented Apr. 29, I902.
J. GATES. CARVING 0R COPYING MACHINE.
(Application filed Feb. 10, 1902.)
(No Model.) 3 Sheets-Sheet l.
MOW" am;
No. 698,832. i PatentedApr. 29, I902. J. GATES. GARVING UR COPYING MACHINE. (Application filed. Fab. 1'0, 1902. (No Model.) I: 3 Sheets-Sheet 2.
Witness! q [Zen/1b?- %%WM m: Nana's PEI'ERS ca. Puqv aurnu. iusumsmn, 04 c.
No. 698,832. Patented Apr. 29, I902.
J. GATES. CARVING 0R COPYING MACHINE.
7 (Application filed Feb. 10. 1902.) (No Model.) 3 Sheets-Sheet 3.
r 1: Nonms PETERS o FHOTOAJTHCL, wumucron. u. c.
UNITED STATES PATENT OFFICE.
JOIIN GATE S, OF TUFUELL PARK, ENGLAND.
CARVING OR COPYING MACHINE.
SPECIFICATION forming part of Letters Patent No. 698,832, dated April 29, 1902.
Application filed February 10 1902. Serial No. 93,444. (No model.)
To all whom, it may concern:
Be it known that I, JOHN GATES, carver, a subject of the King of Great Britain, residing at 57 Yerbury road, Tufuell Park, in the countyof Middlesex, England, have invented certain newand useful Improvements in Garving or Copying Machines, of which the following is a specification.
According to this invention the tools are in pairs, moving in opposite directions toward or away from the center line of the work, so that only a half-pattern is necessary, and the machine also is so arranged that the tools can be turned in any direction.
Figure 1 is a plan, and Fig. 2 an end eleva tion, of a machine constructed according to this invention. ted in Figs. 1 and 2 in order to better illustrate other parts. Fig. 2 is partly in section on the line 2 2 of Fig. 1. Fig. 3 is a part plan to a larger scale. Fig. 4 is a section on the line 4 4, Figs. 1 and 3. Figs. 5, 6, and 7 are part side and front elevations and a plan showing a detail of the table. Fig. 8 is a View, on an enlarged scale and in transverse section, showing the manner in which the chain may be. secured to the slides. Fig. 9 is a detail plan view of the same.
Only two pairs of tool-holdersar'e shown; but it will be understood that any number of pairs may be employed, according to the width of the work and the number of copies to be made simultaneously.
Each tool-holder 1 is free to rotate'in bear-- ings 2, carried by a sleeve 3, and is driven through bevel-gear 3 by a shaft 4, working inside the sleeve. Each shaft 4 has fixed to it a pulley 5, driven by an endless band 6, passing over a suitable guide 6 The bearings of the shaft 4 are fixed to a sleeve 7 on a spindle 8, so that the tool-holder 1 can beturned in a horizontal plane about the spindle 8, and it is retained in any desired posi tion by the pawl 9 on the bracket 10, which engages with a ratchet-wheel 9, fixed to the Some of the parts areomit-' ingly-beveled surfaces at their four edges or corners. The two slides are fixed at 16 to an endless chain 16, passing around pulleys 17 at the ends of the table, so that they move together, butin opposite directions. One rod 11 of each pairis clamped to one of the bars 12, while the other rod 11 of each pair is clamped to the other bar 12. One of the bars 12 is attached to one of the slides 13, while the other bar 12 is attached to the other slide 13. (See Fig. 4.) In order to strengthen or steady the rods 11, rods X are attached to opposite ends of the slides 13, and each rod 11 is connected by a brace 00 to one of the rods X. Preferably a clamping device y is employed to connect each rod 11 to its brace so.
In Figs. 8 and 9 I have shown one way in which the chain 16 may be attached to the slides 13. Any suitable device may be employed for this purpose; but it may be done by means of bolts 19, extending through links of the chain and into screw-threaded sockets in the slides.
18 and 19 are a pair of square shafts free to turn in bearings at the two ends of the table. The shafts 18 and 19 have fixed to one end right and left hand skew-gearpinions 20,Fig. 3, gearing with corresponding pinions 21 on the shaft 22. This shaft can be turned by a handle fitting onto its front end, which is square at22 and by this means the shafts 18 and 19 can be simultaneously turned in opposite directions. The shafts 18 and 19 pass through worms 23, freeto turn in bearings carried by the sleeves 7 and gearing with worm-Wheels 24 on flexible shafts 25. These shafts are connected by a train of wheels 25 to the sleeves 3, so that by turning the shaft 22 the tools of all the pairs are simultaneously caused to incline'more or less toward or away from each other. The rear end of the shaft 22 has fixed to it a bevel-pinion26 gearing with a bevelpinion 27 fixed to a vertical screw 26, gearmoves up-and down on a scale 28 and shows the inclination of the tools.
The table 14 is pivoted to a shaft 29, fixed to brackets 30, projecting from a longitudinal beam 31. The shaft 29 has fixed to it a worm-wheel 32, Fig. 3, gearing with a worm 33 on a shaft 33*, carried in bearings 34 on the table, so that by turning this worm the ingwith a nut 28 on an indicator 27, which table, and with it the tools, can be tilted in either direction. The beam 31 is free to move up and down on guide-rods 34, fixed to a second beam 35, and is hung from levers 36, pivoted by a rod 37 to the beam 35 and carrying counterbalance-weights 38. The weights 38 are also pivoted to levers 39, pivoted at one end by means of a bar 38 to the beam 35, and one of the levers 39 (not carrying a weight) at its other end carries a pawl 40, gearing with a vertical rack 41, connected by toothed pinions 41 to the weighted treadle 42. By depressing this treadle the rack 41 is drawn downward and the beam 31, and with it the table and tools, are raised, the beam 35 remaining stationary. The beam 35 is free to move up and down in guides 43, its ends being supported by vertical screws 44, which can be turned simultaneously through bevel gear 44 by the shaft 45 and wheel 46.
The endless bands 6, by which the tools are driven, all pass around a drum 47, working in bearings carried by brackets 47 rising from the table 14 and connected to a shaft 48 on the beam 35 by a pair of links 49, which are jointed together, the joint-pin having fixed to it two pulleys 50 for two belts 51 and 52, which also pass around pulleys 53 and 54 on the shaft 48 and drum 47, respectively. The shaft 48 is driven from the main shaft 55 of the machine bya belt 56, which passes around a pulley 57 on it, a pulley 58 on the main shaft, two guide-pulleys 59 on the beam 35, and a pulley 60 on the ground, so that the beam can be raised and lowered without altering the tightness of the belt.
The table on which the work is carried consists of a number of slats 61, movable in a frame 62, so that the work can either be supported on the surface of the table or pivoted between two slats in such a manner that it can be rotated. 61 indicates the devices between which the work may be pivoted. The table is supported on guides 63, running from front to back of the machine, and can be moved by ahandle'64 on aslide 65, which can move to and fro on one of the guide-frames 63 and be clamped in any position which may be convenient. The handle 64 is secured to a shaft b, to which one of the chain-wheels 66 and the eccentric a are also secured. The shaft 1) turns in bearings in the slide 65.
0 indicates an eccentric-strap surrounding the eccentric Ct and carrying a rod 0, which extends through a clamp d, pivoted to the slide 65.
d indicates a handle for tightening the clamp. When the clamp is loose, the handle 64 maybe turned freely, the rod 0"m0ving back and forth in the clamp; but when the clamp is tightened the rod 0 is 'held stationary, and the handle 64 can turn.
The central chain-wheel 66 drives an endless chain 67, passing around guide-pulleys 68 at the front and back of the'ma'chine. The chain can be clamped to a bar 69 on the worktable'by means of a double clamp 70, movable along the chain and along the bar. The object of this arrangement is to prevent the clamp from fouling the guide-pulleys whatever may be the position of the slide. By this arrangement the work table may be moved back and forth to any desired position by simply turning the handle 64 and may be fixed in any position by means of the clamping devices d cl.
If a pattern is employed, the driving-belt of one of the tool-holders of each pair is removed, and the pattern is followed by the tool or by a pointer which may be substituted for the tool. The work or tools, or both, are moved by the various handles.
What I claim is 1. In a carving-machine, the combination of tool-holders arranged in pairs, means for simultaneously moving the tool-holders of each pair laterally toward or away from each other, a pair of transverse shafts, means for rotating the shafts, gearing connecting one of the shafts to one of the tool-holders of each pair, and gearing connecting the other shaft to the other tool-holder of each pair.
2. In a carving-machine, the combination of tool-holders arranged in pairs, means for simultaneously inclining the tool-holders of each pair toward or away from each other, a pair of transverse shafts, means for rotating the shafts, gearing connecting one of the shafts to one of the tool-holders of each pair, and gearing connecting the other shaft to the other tool-holder of each pair.
3. In a carving-machine, the combination of tool-holders arranged in pairs, two slides each carrying one tool-holder of each pair, means for simultaneously moving the slides in opposite directions, a pair of transverse shafts, means for rotating the shafts, gearing connecting one of the shafts to one of the tool-holders of each pair, and gearing connecting the other shaft to the other toolholder of each pair.
4. In a carving-machine, the combination of tool-holders arranged in pairs, means for simultaneously moving the tool-holders of each pair laterally toward or away from each other, and means for simultaneously inclining the toolholders of each pair toward or away from each other.
5. In a carving-machine, the combination of tool-holders arranged in pairs, two slides each carryingone tool-holder of each pair, means for simultaneously moving the slides in opposite directions, and means for simultaneously inclining the tool-holders of each pair toward or away from each other.
too
6. In a carving-machine, the combination of tool-holders arranged in pairs, means for simultaneously moving the tool-holders of each pair laterallytoward or away from each other, a table supporting the tool-holders, a pivot for thetable, and means for turning the table about its pivot.
7. In a carving-machine, the combination of tool-holders arranged in pairs, means for simultaneously inclining the tool-holders of each pair toward or away from each other, a table supporting the tool-holders, a pivot for the table, and means for turning the table about its pivot.
8. In a carving-machine, the combination of tool-holders arranged in pairs, means for simultaneously moving the tool-holders of each pair laterally toward or away from each other, means for simultaneously inclining the tool-holders of each pair toward or away from each other, a table supporting the tool-holders, a pivot for the table, and means for turning the table about its pivot.
9. In a carving-machine, the combination of tool-holders arranged in pairs, two slides each carrying one tool-holder of each pair, means for simultaneously moving .the slides in opposite directions, a table supporting the slides, apivot for the table, and means for turning the table about its pivot.
10. In a carving-machine, the combination of tool-holders arranged in pairs, two slides each carrying one tool-holder of each pair, means for simultaneously moving the slides in opposite directions, means for simultaneously inclining the tool-holders of each pair toward or away from each other, a table supporting the slides, a pivot for the table, and means for turning the table about its pivot.
11. In a carving-machine, the combination of tool-holders, a beam supporting the toolholders, a second beam, vertical guides for the first beam fixed to the second beam, means for lifting the first beam relatively to the second, and means for raising the second beam.
12. In a carving-machine, the combination of tool-holders, a beam supporting the toolholders, a second beam, counterbalanced 1e vers pivoted to the second beam and supporting the first, a pawl carried by one of the levers, a rack with which the pawl engages, and means for lowering the rack.
13. In a carving-machine, thecombination of tool-holders arranged in pairs, means for simultaneously moving the tool-holders of each pair laterally toward or away from each other, a table supporting the tool-holders, a pivot for the table, means for turning the table about, itspivot, a beam supporting the pivot, a second beam supporting the first, means for lifting the first beam relatively to the second, and means for raising the second beam.
14. In a carving-machine, the combination of tool-holders arranged in pairs, means for simultaneously inclining the tool-holders of each pair toward or away from each other, a table supporting the tool-holders, a pivot for the table, means for turning the table about its pivot, a beam supporting the pivot, a second beam supporting the first, means for lifting the first beam relatively to the second, and means for raising the second beam.
15. In a carving-machine, the combination of tool-holders arranged in pairs, means for simultaneously moving the toolholders of each pair laterally toward or away from each other, means for. simultaneously inclining the tool-holders of each pair toward or away from each other, a table supporting the tool-holders,a pivot for the table, means for turning the table about itspivot, a beam supporting thepivot, a second beam supporting the first, means for lifting the first beam relatively to the second, and means for raising the second beam.
16. In a carving-machine, the combination of tool-holders arranged in pairs, two slides each carrying one tool-holder of each pair, means for simultaneously moving the slides in opposite directions, a table supporting the slides, a pivot for the table, means for turning the table about its pivot, a beam supporting the pivot, a second beam supportingthe first, means for lifting the first beam relatively to the second, and means for raising the second beam.
17. Ina carving-machine, the combination of tool-holders arranged in pairs, two slides each carrying one tool-holder of each pair, means for'simultaneously moving the slides in opposite directions, means for simultaneously inclining the tool-holdersof each pair toward or away from each other, a table supporting the slides, a pivot for the table, means for turning the table about its pivot, a beam supporting the pivot, a second beam supporting the first, means for lifting the first beam relatively to the second, and means for rais-v ing the second beam.
18. In a carving-machine, the combination of tool-holders arranged in pairs, means for simultaneously moving the tool-holdersiof each pair laterally toward or away from each other, a' table supporting the tool-holders, a pivot for the table, means for turning the ta ble about its pivot, a beam supporting the pivot, a second beam, counterbalanced levers pivoted to the second beam and supporting the first, a pawlcarried by one of the levers, a rack with which the pawl engages, and means for lowering the rack.
' 19. .In a carving-machine the combination of tool-holders arranged in pairs, means for simultaneously'inclining the tool-holders of each pair toward or away from each other, a table supporting the toot-holders, a pivot for the table, means for turning the table about its pivot, a beam supporting the pivot, a secondbeam, counterbalanced levers pivoted to the second beam and supporting the first, a
&
ing the pivot,a second beam, counterbalanced levers pivoted to the second beam and supporting the first, a pawl carried by one of the levers, a rack with which the pawl engages, and means for lowering the rack.
21. In a carving-machine, the combination of tool-holders arranged in pairs, two slides each carrying one tool-holder of each pair, means for simultaneously moving the slides in opposite directions, a table supporting the slides, a pivot for the table, means for turning the table about its pivot, a beam supporting the pivot, a second beam, counterbalanced levers pivoted to the secondbeam and supporting the first, a pawl carried by one of the levers, a rack with which the pawl engages, and means for lowering the rack.
22. In a carving-machine, the combination JOHN GATES.
Witnesses WILFRED CAR'PMAEL,
DEANSTON OARPMAEL.
US9344402A 1902-02-10 1902-02-10 Carving or copying machine. Expired - Lifetime US698832A (en)

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