US543110A - Routing-machine - Google Patents
Routing-machine Download PDFInfo
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- US543110A US543110A US543110DA US543110A US 543110 A US543110 A US 543110A US 543110D A US543110D A US 543110DA US 543110 A US543110 A US 543110A
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- shaft
- machine
- routing
- pulley
- vertical
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- 210000002832 Shoulder Anatomy 0.000 description 8
- 238000010276 construction Methods 0.000 description 8
- 210000003746 Feathers Anatomy 0.000 description 6
- 230000036633 rest Effects 0.000 description 6
- 230000013707 sensory perception of sound Effects 0.000 description 6
- 230000005484 gravity Effects 0.000 description 4
- 229910001018 Cast iron Inorganic materials 0.000 description 2
- 241001286408 Gretna Species 0.000 description 2
- 125000003580 L-valyl group Chemical group [H]N([H])[C@]([H])(C(=O)[*])C(C([H])([H])[H])(C([H])([H])[H])[H] 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 230000002093 peripheral Effects 0.000 description 2
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, 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
- B23Q1/00—Members which are comprised in the general build-up of a form of machine, particularly relatively large fixed members
- B23Q1/25—Movable or adjustable work or tool supports
- B23Q1/26—Movable or adjustable work or tool supports characterised by constructional features relating to the co-operation of relatively movable members; Means for preventing relative movement of such members
- B23Q1/28—Means for securing sliding members in any desired position
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- Y—GENERAL 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
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T409/00—Gear cutting, milling, or planing
- Y10T409/30—Milling
- Y10T409/304536—Milling including means to infeed work to cutter
- Y10T409/30532—Milling including means to infeed work to cutter with means to advance work or product
- Y10T409/305376—Vertically
-
- Y—GENERAL 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
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T409/00—Gear cutting, milling, or planing
- Y10T409/30—Milling
- Y10T409/304536—Milling including means to infeed work to cutter
- Y10T409/305544—Milling including means to infeed work to cutter with work holder
- Y10T409/305656—Milling including means to infeed work to cutter with work holder including means to support work for rotation during operation
Definitions
- FIG. 1 is a side elevation showing the pattern-roller in place on the machine and raised partly upward.
- FIG. 2 represents a reverse side elevation for showing the mechanism on the opposite side of the machine, showing also the pattern-roller in itslowest posit-ion thereon.
- Fig. 3 is a top or plan view of the machine complete.
- Fig. 4 represents a front elevation of the machine, showing by dotted lines the pulley and belt for driving the cutting or routing. tool.
- Fig. 1 is a side elevation showing the pattern-roller in place on the machine and raised partly upward.
- Fig. 2 represents a reverse side elevation for showing the mechanism on the opposite side of the machine, showing also the pattern-roller in itslowest posit-ion thereon.
- Fig. 3 is a top or plan view of the machine complete.
- Fig. 4 represents a front elevation of the machine, showing by dotted lines the pulley and belt for driving the cutting or routing. tool.
- FIG. 5 represents a vertical longitudinal section cutting centrally through the frame of the machine and hub of the worm-wheel on or about line a a, Fig. 3, showing a side elevation of the interior mechanism, the cutting-spindle and tool and its supporting mechanism being omitted.
- v 8 represents a detached top View of the friction-gearing and worm-wheel for operating the worm-gear wheel and rotating the printroller shaft, a horizontal section being shown through a portion of the side of the frame to which the boxes are attached, in which is mounted said friction-gear and worm-wheel shaft.
- Fig. 9 represents an enlarged top or plan view of the worm-gear wheel, showing also a horizontal or cross section through the vertical shaft upon which it is mounted.
- the frame of the machine consists of a substan tially rectangular case having its sides 1, 2, 3, and 4 and its top 5 constructed, preferably, of cast-iron; but'it may ber made of any suitable material or shape. It is provided with a supporting-standard 6, having at its top an overhanging supporting-arm 7, pivoted thereto by a pin 8. The forward end of the arm 7 when thrown forward in its normal position rests on the forwardly-projecting portion 9 of the supporting-standard 6. The object in thus pivoting the supporting-standard will be described farther on.
- the forward end of the over hanging arm 7 is provided with a vertically-removable box 10, and at the front the Vertical opening in which the box 10 passes until stopped by its flange 11 is split and provided with clamping portions 12 and 13.
- a horizontal driving-shaft 15 mounted in the horizontal bearing-boxes 16 and 17.
- On the shaft 15 is rigidly secured in any well-known way the driving-pulley 18, (see Fig. 5,) and that carries the cutting or routing tool 21.
- the vertical print-roller shaft 22 represents the vertical print-roller shaft.
- the upper end of this shaft is mounted in the removable vertical box 10, so that it can move freely up or down or rotate therein.
- the lower portion of the shaft 22 is slightly enlarged and provided with a screw portion 23, on which is mounted a conical screw-nut 24, and'a short distance below the screw portion is a conical collar 25.
- a print-roller 26 can be easily put on to the shaft 22 by moving the shaft down to the limit of its downward movement or to the position shown in Figs. 5 or 6, then reprovided with an opening 27 through it, (see- Ice moving the box 10 and turning the overhang- Fig. 7,) can be put down over the shaft 22 and tightened rigidly in place to said shaft by means of the nut 24, after which the box 10 is again put in place and the roller is ready to be operated upon.
- the lower portion of the shaft 22, below the collar 25, is provided either with a groove or feather 2S, and passes through a worm gearwheel 29 adapted to fit the shaft and feather, so that while the shaft has a free up-anddown movement through the worm gearwheel it cannot turn therein.
- the foot of the shaft 22 is provided with a ieduced portion 30, (shown by dotted lines in Fig. 6,) which passes down through an opening in the end of a bracket 31 until stopped by the surrounding under portion of the shaft above the reduced portion, the reduced portion extending down through and slightly below the under side of the bracket and having a collar 32 secured to it by a screw or other well-known means, and as the collar 32 forms a shoulder below the bracket 3.
- well known bearing is formed for the shaft in which it can rotate freely without being moved in the direction of its length either way from its hearing or the box in which it rotates.
- the hub of the worm gear-wheel is secured to the top 5 of the frame or case, so that while it is free to turn in its bearing it cannot be withdrawn from it, as follows:
- the hub 33 (see Fig. 7) is provided with a reduced portion 34, which projects up through the top 5 until the shoulder made by the larger portion 33 rests up against the under side of said top.
- a collar 35 through which the shaft 22 moves or turns, is then rigidly secured to the hubby bolts 36.
- Figs. 5 and 6 I have shown a slightlymodified form of the hub 33 by making the hub and reduced portion of substantially the same diameter and the enlarged portion in the form of a collar, substantially as shown.
- the bracket 31 is mounted on a vertical screw-rod 37, supported in journal-boxes 38 and 39, reference being bad to Fig. 6.
- a horizontal friction disk 40 At the top of the screw shaft or rod 37 is rigidly secured a horizontal friction disk 40.
- the disk 40 when the machine is in operation, engages with the face of a substantially-vertically movable disk 41 (see Figs. 5 and 6) and is operated by it.
- This disk 41 is mounted on a bell-crank arm 42 42, (see Figs. 2, 3, and 4; also Figs. 5 and 6,) which is mounted on a pivotal portion 43 (see Figs. 2 and 5) rigidly secured to the side of the frame.
- this pivotal portion or shaft 43 is mounted a wide pulley e, divided into two parts 44 and 45 (see Fig. by a little projecting surrounding rib 46; but if desired the rib may be dispensed with and the entire face of the pulley made smooth.
- the outer portion 45 is the driving portion of the pulley.
- a shaft 46 At the opposite end of the horizontal portion of the arm is mounted a shaft 46, having thedisk 41 rigidly secured to its inner end and a pulley 47 secured rigidly to its opposite end.
- the pulley 47 and the portion 44 of the wide pulley e are connected by a belt 48, so that the driving portion 45 turns the pulley 47 and disk 41 at the same time.
- the vertical portion of the bell-crank arm terminates in a handle 49.
- a transverse shaft50 (see Fig. 6) is mounted in suitable boxes in the frame of the machine and on this shaft are rigidly secured two pulleys 51 and 52, the pulley 52 acting as a driving-pulley. Between the pulleys 51 and 52 is loosely mounted an arm 53, having a handle 53, and directly above the pulley 51 is mounted loosely on a short pin or shaft 54, which is rigidly secured to the said arm 53, a combined friction disk and pulley 55.
- the pulley or disk 55 is a web-pulley, its inner side acting as a friction-disk.
- a friction- Wheel 59 On the inside of the frame of the machine is mounted, in boxes 56 and 57 on ahorizontal shaft 58, (see Figs. 6 and 8, where this construction is more clearly shown,) a friction- Wheel 59, and a worm-wheel 60 is rigidly scoured to the shaft 58, and the worm-whcele1r gages with the worm gear-wheel 29.
- the peripheral face of the friction-wheel 59 rests against the side face of the friction-disk 55 with sufficient force to be operated by it, so that by moving the handle 53 back or forward the print-roller shaft may be made to rotate when the machine is operating in either direction, it being understood that when I say the machine is in operation the driving-pulleys 45 and 52 are each being rotated by means of a belt connecting them with pulleys operated by a steam-engine or other source of power.
- a transverse shaft 61 is mounted in suitable boxes in the frame of the machine, and at each side of the machine, rigidly secured to said shaft, is a curved arm 62, the two arms curving together at the top in the form of an arch, or substantially so, upon which is socured a dovetailed slideway-bed
- a transverse slideway portion 65 adapted to slide either waytransversely or sidewise.
- this slideway portion 65 is another portion 66, adapted to slide longitudinally backward or forward or in a direction at right angles to the transverse movement of the portion 65.
- the portion 66 when adjusted to the point desired, is rigidly secured by a set-screw 67. (See Fig. 4.)
- the transverse slideway portion 65 is made tends down through an opening in the portion 61, and two oppositely-adjustable set-,
- the spindle 20 On the. longitudinally-adjustable slideway portion (56 is mounted in suitable bearings the spindle 20. (See Fig. 4, where the end-of this spindle vis shown.) In the front end of this spindle is secured the renting or cutting tool 21. (See Figs. 1 and 2.)
- the spindle 20 is driven by means of a small pulley .73, rigidly secured to it, and a belt 74, which extends downward and connects with the pulley 19. (See Fig. 4, where this belt is shown partly in dotted lines.) It is intended for and adapted to be driven at a very high rate of sp,eedfr om-fiftee n,to eighteen thousand revolutions a minute.
- each of the arms 62 Extending backward from the lower endsof each of the arms 62 is a horizontal arm 75, the ends of which are connected to a transverse shaft 76. 7 (Shown by dotted lines in Fig. 3 and insectionin Fig. 5.)
- This shaft passes through an elongated hole 77 (see Fig. 5) in each sideof the machine frame or case, and within said frameis a foot-step 78, which ex tends back and is pivoted by a pin 79, (see Fig. 1,),where thispivotal pin is shown and the greater portion of the foot-step is shown by dotted lines.
- a connecting-link 79* (also shown in Fig. 1 by dotted lines,) so that every timethefootstep is forced downward the routing or cutting tool is moved forward, and gravity brings the arms back to their normal position when the foot-step is released. Should gravity not be sufficient, a spring 80 (shown in Fig. 2) may be used to assist
- the driving-pulley 18 drives thecutting apparatus, and the driving-pulleys 45 and 52 drive the mechanism thatfmoves the print-roller through either its rotary or vertical movements, and all the operator does by'means of the handles is to control the directionand.
- the print-roller may be raised and lowered or made to rotate with a varying speed, so that a spiral or anyother form of line or engraving may be cut on the roller by the cuttingtool.
- the motion ofthese parts may also be stopped at -any time while all the drivingpulleys and friction-disks 41 and 55 are running, by moving said disks so that their centers will be in a line with the centers of the disks 40 and 59, which they operate, or so that the disks 40 and 59 will run in the central depressions 81 and 82 in the continu-v ously-rotating friction-disks 41 and 55, or
- a routing machine the combination with a swinging frame pivoted to thelower portion of the supporting frame, of a spindle carriageat the top ofthe swinging frame having a routing or cutting tool spindle mounted in suitable bearings thereon and carrying a routing or cutting tool, means for giving the same a rapid rotary motion, means for adjusting the routing tool carriage laterally toward or from either side of a radial line from the center of the printing roller for the pure posesset forth and a foot-step pivoted to the machine frame, connected by a link with the swinging frame for bringing the routing or IIO tool spindle a rapid rotary motion, means for adjusting the routing tool carriage laterally either side of a radial line from the print roller, means for adjusting the routing tool carriage longitudinally toward or from the print roller and a foot step pivoted to the machine frame and connected by a connecting link with the swinging frame for bringing the routing tool to its work, substantially as described.
- a routing machine the combination with a printing roller shaft mounted in vertical hearings on the machine frame, means for securing a printing roller thereto, a vertical screw shaft mounted in boxes within the machine frame, a bracket having one side in engagement with the screw thread on said vertical screw shaft and the other side secured between shoulders to the foot of the printing roller shaft so that while it has a free rotary movement it cannot be drawn therefrom, a horizontal driven friction disk secured near the top of and to the vertical screw shaft, a driving friction disk mounted in horizontal bearings and in frictional contact with the driven friction disk, means for giving the driving friction disk a rotary movement, and means connected with a hand lever for moving the driving friction disk across the face of the driven friction disk and thereby directing and varying the up or down movements of the printing rollershaft, substantially as described.
- a printing roller shaft mounted in hearings on the machine framc,and means for moving itlongitudinally up and down, in combination with a Worm gear wheel mounted in abearing on the under side of the machine table so that it can retate but not be drawn therefrom and through which the vertical shaft reciprocates during its up and down movements but is prevented from turning therein by means of a feather, a worm wheel mounted on a horizontal shaft in bearings on the inner side of the frame of the machine, and adapted to engage with the worm gear wheel, a driven friction disk rigidly secured to the outer end of said shaft a combined driving friction disk and pulley, in engagement therewith, and mounted on a swinging arm having its lower end connected with the driving shaft, a pulley on said driving shaft directly under the driving friction disk the two being connected by a belt, and a driving pulley secured to the outer end of said driving shaft, for the purposes described.
Description
(No Mbdel.) 2 SheetsSl1eet;'1.v
G. W. SYM'ONDS. ROUTING MACHINE.
No. 543,110. Patented July 23, 1895.
Witnesses.
$0 2 flf'ligwwa/d Inventor.
a z torney.
2 t e e h S m nu e h S 2 3 w I 0% A m G S 1 W U .0 G
(No Model.)
Patented July 23, 1895.
I.. I'l
val/ r l/ v WEW a s V. J;
01 M/(Vmmafi/ Inventor.
Witnesses. I i
Aim M Unitas STATE PATENT Gretna.
GEORGE W. S YMONDS, OF BUFFALO, NEW YORK.
ROUTING-MACHINE.
SPECIFICATION forming part of Letters Patent No. 543,110, dated July 23, 1895. Application filed September 28, 1894. Serial No. 524,878. (No model.)
To aZZwhom it mar-y concern:
Be it known that I, GEORGE W. SYMoNDs, a citizen of the United States, residing in Buffalo, in the county of Erie and State of New York, have'invented certain new and useful Improvements in Routing-Machines, of which the following is a specification.
My invention relates to an improved means for producing designs upon print-rollers for printing upon wall-paper or for other similar purposes, and will be fully and clearly hereinafter described and claimed, reference being had to the accompanying drawings, in which Figure 1 is a side elevation showing the pattern-roller in place on the machine and raised partly upward. 'Fig. 2 represents a reverse side elevation for showing the mechanism on the opposite side of the machine, showing also the pattern-roller in itslowest posit-ion thereon. Fig. 3 is a top or plan view of the machine complete. Fig. 4 represents a front elevation of the machine, showing by dotted lines the pulley and belt for driving the cutting or routing. tool. Fig. 5 represents a vertical longitudinal section cutting centrally through the frame of the machine and hub of the worm-wheel on or about line a a, Fig. 3, showing a side elevation of the interior mechanism, the cutting-spindle and tool and its supporting mechanism being omitted.
6 represents a vertical transverse section Fig.
v 8 represents a detached top View of the friction-gearing and worm-wheel for operating the worm-gear wheel and rotating the printroller shaft, a horizontal section being shown through a portion of the side of the frame to which the boxes are attached, in which is mounted said friction-gear and worm-wheel shaft. Fig. 9 represents an enlarged top or plan view of the worm-gear wheel, showing also a horizontal or cross section through the vertical shaft upon which it is mounted.
Referring to the drawings in detail, the frame of the machine consists of a substan tially rectangular case having its sides 1, 2, 3, and 4 and its top 5 constructed, preferably, of cast-iron; but'it may ber made of any suitable material or shape. It is provided with a supporting-standard 6, having at its top an overhanging supporting-arm 7, pivoted thereto by a pin 8. The forward end of the arm 7 when thrown forward in its normal position rests on the forwardly-projecting portion 9 of the supporting-standard 6. The object in thus pivoting the supporting-standard will be described farther on.
The forward end of the over hanging arm 7 is provided with a vertically-removable box 10, and at the front the Vertical opening in which the box 10 passes until stopped by its flange 11 is split and provided with clamping portions 12 and 13. A thumb-nut 14, which runs loosely in one of the clamping portions and screws into the other, afiords the wellknown means for tightening the removable box 10 rigidly when in place.
Near the bottom of the supporting frame is a horizontal driving-shaft 15 mounted in the horizontal bearing- boxes 16 and 17. On the shaft 15 is rigidly secured in any well-known way the driving-pulley 18, (see Fig. 5,) and that carries the cutting or routing tool 21.
22 represents the vertical print-roller shaft. The upper end of this shaft is mounted in the removable vertical box 10, so that it can move freely up or down or rotate therein. The lower portion of the shaft 22 is slightly enlarged and provided with a screw portion 23, on which is mounted a conical screw-nut 24, and'a short distance below the screw portion is a conical collar 25.
From the above construction it will be seen that a print-roller 26 can be easily put on to the shaft 22 by moving the shaft down to the limit of its downward movement or to the position shown in Figs. 5 or 6, then reprovided with an opening 27 through it, (see- Ice moving the box 10 and turning the overhang- Fig. 7,) can be put down over the shaft 22 and tightened rigidly in place to said shaft by means of the nut 24, after which the box 10 is again put in place and the roller is ready to be operated upon.
The lower portion of the shaft 22, below the collar 25, is provided either with a groove or feather 2S, and passes through a worm gearwheel 29 adapted to fit the shaft and feather, so that while the shaft has a free up-anddown movement through the worm gearwheel it cannot turn therein.
The foot of the shaft 22 is provided with a ieduced portion 30, (shown by dotted lines in Fig. 6,) which passes down through an opening in the end of a bracket 31 until stopped by the surrounding under portion of the shaft above the reduced portion, the reduced portion extending down through and slightly below the under side of the bracket and having a collar 32 secured to it by a screw or other well-known means, and as the collar 32 forms a shoulder below the bracket 3. well known bearing is formed for the shaft in which it can rotate freely without being moved in the direction of its length either way from its hearing or the box in which it rotates.
The hub of the worm gear-wheel is secured to the top 5 of the frame or case, so that while it is free to turn in its bearing it cannot be withdrawn from it, as follows: The hub 33 (see Fig. 7) is provided with a reduced portion 34, which projects up through the top 5 until the shoulder made by the larger portion 33 rests up against the under side of said top. A collar 35, through which the shaft 22 moves or turns, is then rigidly secured to the hubby bolts 36.
In Figs. 5 and 6 I have shown a slightlymodified form of the hub 33 by making the hub and reduced portion of substantially the same diameter and the enlarged portion in the form of a collar, substantially as shown.
The bracket 31 is mounted on a vertical screw-rod 37, supported in journal- boxes 38 and 39, reference being bad to Fig. 6. At the top of the screw shaft or rod 37 is rigidly secured a horizontal friction disk 40. The disk 40, when the machine is in operation, engages with the face of a substantially-vertically movable disk 41 (see Figs. 5 and 6) and is operated by it. This disk 41 is mounted on a bell-crank arm 42 42, (see Figs. 2, 3, and 4; also Figs. 5 and 6,) which is mounted on a pivotal portion 43 (see Figs. 2 and 5) rigidly secured to the side of the frame. 011 this pivotal portion or shaft 43 is mounted a wide pulley e, divided into two parts 44 and 45 (see Fig. by a little projecting surrounding rib 46; but if desired the rib may be dispensed with and the entire face of the pulley made smooth. The outer portion 45 is the driving portion of the pulley. At the opposite end of the horizontal portion of the arm is mounted a shaft 46, having thedisk 41 rigidly secured to its inner end and a pulley 47 secured rigidly to its opposite end. The pulley 47 and the portion 44 of the wide pulley e are connected by a belt 48, so that the driving portion 45 turns the pulley 47 and disk 41 at the same time. The vertical portion of the bell-crank arm terminates in a handle 49.
From the above construction it will be seen that by moving the handle 4.) in the direction of the arrow V the horizontal friction-disk 40 may be made to turn in one direction and that the speedof the disk 46 maybe varied at the will of the operator, and by moving the han dle 49 in an opposite direction a similar action will be given to the disk 40 in a reverse direc tion, and thus the print-roller may be made to move either up or down with a varying speed.
A transverse shaft50 (see Fig. 6) is mounted in suitable boxes in the frame of the machine and on this shaft are rigidly secured two pulleys 51 and 52, the pulley 52 acting as a driving-pulley. Between the pulleys 51 and 52 is loosely mounted an arm 53, having a handle 53, and directly above the pulley 51 is mounted loosely on a short pin or shaft 54, which is rigidly secured to the said arm 53, a combined friction disk and pulley 55. The pulley or disk 55 is a web-pulley, its inner side acting as a friction-disk.
On the inside of the frame of the machine is mounted, in boxes 56 and 57 on ahorizontal shaft 58, (see Figs. 6 and 8, where this construction is more clearly shown,) a friction- Wheel 59, and a worm-wheel 60 is rigidly scoured to the shaft 58, and the worm-whcele1r gages with the worm gear-wheel 29.
The peripheral face of the friction-wheel 59 rests against the side face of the friction-disk 55 with sufficient force to be operated by it, so that by moving the handle 53 back or forward the print-roller shaft may be made to rotate when the machine is operating in either direction, it being understood that when I say the machine is in operation the driving- pulleys 45 and 52 are each being rotated by means of a belt connecting them with pulleys operated by a steam-engine or other source of power.
A transverse shaft 61 is mounted in suitable boxes in the frame of the machine, and at each side of the machine, rigidly secured to said shaft, is a curved arm 62, the two arms curving together at the top in the form of an arch, or substantially so, upon which is socured a dovetailed slideway-bed In this slideway is mounted a transverse slideway portion 65, adapted to slide either waytransversely or sidewise. In this slideway portion 65 is another portion 66, adapted to slide longitudinally backward or forward or in a direction at right angles to the transverse movement of the portion 65. The portion 66, when adjusted to the point desired, is rigidly secured by a set-screw 67. (See Fig. 4.)
The transverse slideway portion 65 is made tends down through an opening in the portion 61, and two oppositely-adjustable set-,
screws69 and 70, by which it is rigidly fixed at any point to which it may be adjusted.
On the. longitudinally-adjustable slideway portion (56 is mounted in suitable bearings the spindle 20. (See Fig. 4, where the end-of this spindle vis shown.) In the front end of this spindle is secured the renting or cutting tool 21. (See Figs. 1 and 2.) The spindle 20 is driven by means of a small pulley .73, rigidly secured to it, and a belt 74, which extends downward and connects with the pulley 19. (See Fig. 4, where this belt is shown partly in dotted lines.) It is intended for and adapted to be driven at a very high rate of sp,eedfr om-fiftee n,to eighteen thousand revolutions a minute.
Extending backward from the lower endsof each of the arms 62 is a horizontal arm 75, the ends of which are connected to a transverse shaft 76. 7 (Shown by dotted lines in Fig. 3 and insectionin Fig. 5.) This shaft passes through an elongated hole 77 (see Fig. 5) in each sideof the machine frame or case, and within said frameis a foot-step 78, which ex tends back and is pivoted by a pin 79, (see Fig. 1,),where thispivotal pin is shown and the greater portion of the foot-step is shown by dotted lines.
The foot-step and a shaft 76 are connected by a connecting-link 79*, (also shown in Fig. 1 by dotted lines,) so that every timethefootstep is forced downward the routing or cutting tool is moved forward, and gravity brings the arms back to their normal position when the foot-step is released. Should gravity not be sufficient, a spring 80 (shown in Fig. 2) may be used to assist By the construction above described the driving-pulley 18 drives thecutting apparatus, and the driving- pulleys 45 and 52 drive the mechanism thatfmoves the print-roller through either its rotary or vertical movements, and all the operator does by'means of the handles is to control the directionand.
rapidity of motion of the parts driven by the driving- pulleys 18, 45, and 52. In this way the print-roller may be raised and lowered or made to rotate with a varying speed, so that a spiral or anyother form of line or engraving may be cut on the roller by the cuttingtool. The motion ofthese parts may also be stopped at -any time while all the drivingpulleys and friction- disks 41 and 55 are running, by moving said disks so that their centers will be in a line with the centers of the disks 40 and 59, which they operate, or so that the disks 40 and 59 will run in the central depressions 81 and 82 in the continu-v ously-rotating friction- disks 41 and 55, or
By means of the lateral adjustment of the cutting-tool 21 I am enabled to cut into the roller-without undercutting, or so that one a printing roller shaft mounted in vertical bearings in the supporting frameso as to be capable of a combined vertical and rotary movement, means for securing a printingroller thereon or removing it therefrom, friction gear for giving the roller shaft a varying up and down movement, a lever handle for operating and controlling the action of the said friction gear, and means forgiving said roller shaft a varying rotarymovement, in eitherdirection consisting of a variable friction gear, and lever handle, substantially as described. v
2. In a routing machine, the combination of a printing roller-shaft mounted in vertical,
bearings on the machine frame, means for securing a printing roller thereto, a vertical screw shaft mounted in boxes below the top of the machine table, a bracket having one 4 side in engagement with the screw thread on the vertical screw shaft and theother side connected with the-foot of the printing roller shaft and secured between shoulders on said shaft so that while said printing roller shaft has a free rotary movement it cannot move longitudinally either way from said bracket, a horizontal friction disk secured near the top .of and to the vertical screw shaft, a driving friction disk, in frictional contact with the horizontal friction disk and means substantially as above set forth, for giving thedriving friction disk a rotary movement, and a vertical or lengthwise movement to the printing roller-shaft as described.
3. In a routing machine, the combination with a swinging frame pivoted to thelower portion of the supporting frame, of a spindle carriageat the top ofthe swinging frame having a routing or cutting tool spindle mounted in suitable bearings thereon and carrying a routing or cutting tool, means for giving the same a rapid rotary motion, means for adjusting the routing tool carriage laterally toward or from either side of a radial line from the center of the printing roller for the pure posesset forth and a foot-step pivoted to the machine frame, connected by a link with the swinging frame for bringing the routing or IIO tool spindle a rapid rotary motion, means for adjusting the routing tool carriage laterally either side of a radial line from the print roller, means for adjusting the routing tool carriage longitudinally toward or from the print roller and a foot step pivoted to the machine frame and connected by a connecting link with the swinging frame for bringing the routing tool to its work, substantially as described.
5. In a routing machine, the combination with a printing roller shaft mounted in vertical hearings on the machine frame, means for securing a printing roller thereto, a vertical screw shaft mounted in boxes within the machine frame, a bracket having one side in engagement with the screw thread on said vertical screw shaft and the other side secured between shoulders to the foot of the printing roller shaft so that while it has a free rotary movement it cannot be drawn therefrom, a horizontal driven friction disk secured near the top of and to the vertical screw shaft, a driving friction disk mounted in horizontal bearings and in frictional contact with the driven friction disk, means for giving the driving friction disk a rotary movement, and means connected with a hand lever for moving the driving friction disk across the face of the driven friction disk and thereby directing and varying the up or down movements of the printing rollershaft, substantially as described.
6. In a routing machine, a printing roller shaft mounted in hearings on the machine framc,and means for moving itlongitudinally up and down, in combination with a Worm gear wheel mounted in abearing on the under side of the machine table so that it can retate but not be drawn therefrom and through which the vertical shaft reciprocates during its up and down movements but is prevented from turning therein by means of a feather, a worm wheel mounted on a horizontal shaft in bearings on the inner side of the frame of the machine, and adapted to engage with the worm gear wheel, a driven friction disk rigidly secured to the outer end of said shaft a combined driving friction disk and pulley, in engagement therewith, and mounted on a swinging arm having its lower end connected with the driving shaft, a pulley on said driving shaft directly under the driving friction disk the two being connected by a belt, and a driving pulley secured to the outer end of said driving shaft, for the purposes described.
7. In a routing machine, the combination with the vertical printing roller shaft and its supporting mechanism, of a pivoted overhanging arm adapted to swing over back of the supporting standard out ofthe Way, a removable jonrnal box in said overhanging arm adapted to receive the vertical printing roller shaft and means substantially as above described for tightening said box when in place, for the purposes described.
GEORGE \V. SYMONDS. Witnesses:
JAMES SANGSTER, HENRY G. ASHBERY.
Publications (1)
Publication Number | Publication Date |
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US543110A true US543110A (en) | 1895-07-23 |
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ID=2611858
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US543110D Expired - Lifetime US543110A (en) | Routing-machine |
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US (1) | US543110A (en) |
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- US US543110D patent/US543110A/en not_active Expired - Lifetime
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