US1343554A - Machine for forming grooves - Google Patents

Machine for forming grooves Download PDF

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US1343554A
US1343554A US307416A US30741619A US1343554A US 1343554 A US1343554 A US 1343554A US 307416 A US307416 A US 307416A US 30741619 A US30741619 A US 30741619A US 1343554 A US1343554 A US 1343554A
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slide
work
shaft
tool
machine
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US307416A
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William F Fischer
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23DPLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
    • B23D5/00Planing or slotting machines cutting otherwise than by relative movement of the tool and workpiece in a straight line
    • B23D5/02Planing or slotting machines cutting otherwise than by relative movement of the tool and workpiece in a straight line involving rotary and straight-line movements only, e.g. for cutting helical grooves
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S82/00Turning
    • Y10S82/902Oil grooving device
    • 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
    • Y10T409/50Planing
    • Y10T409/500164Planing with regulation of operation by templet, card, or other replaceable information supply
    • 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
    • Y10T409/50Planing
    • Y10T409/502624Means for cutting groove
    • Y10T409/502788Arcuate groove
    • 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
    • Y10T409/50Planing
    • Y10T409/502624Means for cutting groove
    • Y10T409/502788Arcuate groove
    • Y10T409/502952For rifling

Definitions

  • WITNESSES INVENTOR 'A TTOR/VE Y 'w. F, FISCHER. MACHINE FOR FORMING GROOVES.
  • WITNESSES INVENTQR mLLlflM ffiscflfim A TTORIVEY W. F. FISCHER.
  • This invention is designed to provide an improved machine having the object of cutting grooves of various forms in bearings, for the purpose of holding a lubricant for said bearings and the co-acting journals.
  • the machine effects the desiderata of holding a bearing relatively to a co-acting tool so that the bearing can be moved relatively to the stationary tool, the tool can be moved variously under control with relation to the stationary bearing, and the bearing and tool can he moved simultaneously, to cut straight, circular or spiral grooveseither continuously or interruptedly; the mechanism being adapted for varying the curvature of the groove, the length of the groove and generally the character of the groove at will.
  • the improvements are comprised in a machine provided with a journaled chuck adapted for holding the work, mechanism for revolving or fixing said chuck at will, a post for holding, a tool adapted to cut a groove in said work, and means for moving said tool parallel to the axis of revolution of the chuck, at right angles to the axis and at intermediate angles with relation thereto to effect desired results.
  • Figure 1 is a perspective view of the machine.
  • Fig. 2 is a horizontal part sectional view of the same.
  • Fig. 3 is a broken vertical sectional view on the line 83* of Fig. 2.
  • Fig. 4 is a broken vertical sectional view on the line 4 l of Figs. 2 and
  • Fig. 5 is a broken part sectional elevation of detached details comprising a forming cam together with cooperating means for controlling the tool.
  • 6 is a detached top plan view of mechanism for controlling the chuck.
  • Figs. 7, 8, 9 and 10 are perspective views of bearings provided with lubricator grooves in illustration of types of effects produced by the mechanism, and
  • Figs. 11 and 12 are perspective views of types of former cams used in the mechanism for producing different effects.
  • the machine illustrated comprises a frame (1) having a bearing (1 in which is journaled the spindle (2) provided with the chuck (3) holding the work (4), shown as a cylindrical bearing.
  • a screw (5) movable in the bearing (1 is adapted for fixing the spindle (2) when it is desired to hold the work stationary.
  • a pinion (6) adapted to turn on the spindle (2), has fixed thereto a clutching device (7) adapted to be engaged and disengaged by a clutching device (8) which is engaged to the spindle by a spline
  • the device (8) is movable along the spindle (2) by a collar (9) in which it revolves and a yoke (10) engaging the collar, the yoke being fixed to a rod (11) adapted to be reciprocated by its handle (11 in the bearings (1
  • An idler gear (12) journaled on the ad justable bearing (1), revolves the pinion (6) and is revolved by a pinion (13) fixed on the driving shaft (let), which is journaled in the bearings (1 and (1). 7
  • a stud or roller (19) is disposed eccentrically on a clutching device (20) which is movable along a shaft (21) journalcd in the bearings (l and (1 being engaged to the shaft by the spline (21).
  • the stud or roller (19) is adapted to be engaged in the cam (18) to turn the shaft (21) or to be disengaged therefrom when the clutching device is moved into clutching engagement with the clutch bearing (l whereby the shaft (21) is held stationary.
  • a guide (25) is connected in oscillatory relation to the slide by the arbor (26), this guide having a scale 25 on an end thereof co-acting with the index (2 1 onthe slide (2%) for setting the guide with reference to the slide.
  • a slide (26) is movable in the guide (25) and has journaled therein a shaft (27) to which it is engaged by the collars (27 and (27),.'
  • This shaft (27) has a hollowf threaded section (27 which is movable longitudinally on the shaft (28) connected thereto by a spline (28) and makes athr eaded engagement with the slide (29).
  • the shaft (28) is ournaled in a slide (30) provided with transverse ways (30 for controlling the movement of the slide (29.) which is carried thereby, the shaft being provided with a handle (28) for turning it to revolve the shaft (27) and adjust the slide (29).
  • a threaded rod (31) is fixed to the slide (29) by its bent arm (29) through which the shaft (27) passes, the rod-being engaged by the nuts adjustable thereon in movable relation to the slide (26).
  • the slide (30) is movable along the ways (it) by a link (33) having a pivotal connection (33) therewith and an adjustable pivotal connection (33) with the wheel (16).
  • the wheel has a diametral way (16'") in which the connection is adapted to be set at the desired distance from the wheels center of rotation, to effect the. desired reciprocation of the slide (30) or permit it to re main stationary.
  • a tool post (3 1) is fixed in laterally ad- 7 justable relationupon the slide (29) having the transverse ways (29) therein, the post holding adjustably the tool (35) provided" with a cutter (35) adapted to act in the bearing (14) to form a groove therein.
  • the driving shaft (14-) now acts through the gears (13), (12 and (6) to, turn the spindle (2), the bearing (4) being turned thereby in contact with the cutter (35
  • the cam (18) acts through the eccentric (l9) and member (20) on the shaft (21) which acts through the gears (22) on "the racks (25) whereby the slide (as) is shifted laterally to disengage and reengage the. tool with relation to the work at the desired limits of the groove.
  • the clutch member- (20) is engaged with the clutch member (1 which disengages the eccentric (19) from the cam (18) sothat the tool (35) remains in the same lateral position with relation tothe slide (30) as the work is revolved in contact therewith, the way (25) being set parallel to the axis of a cylindrical bushing'and at an angle to the axis of a tapered bushing as described.
  • a work holding device means for moving one of said devices with relation to the other to effect the cutting operation, and; means for throwing said cutting device out of engagement with the work, said means last named comprising a journaled shaft, means for rocking said shaft, a slide and means whereby said shaft operates said slide.
  • said last named means comprising a hollow shaft having a threaded connection with saidslide first named and a journaled connection with saidslide second named, a journaledshaft extending into said hollow shaft and means whereby said journaled shaft revolves said hollow shaft and said hollow shaft is movable longitudinally on 16.
  • a frame having a way, a slide adapted to reciprocate along said way, aslide movable on said slide firstnamed trans versely to said way; a guide: adapted to be set atidifferent angularrelations to said way, a slide movablealon'g said guide, means for coupling said slides second i and third named, means for-shifting said guide so as to shift said second and thirdinamed slides and means for reciprocating saidlguide.
  • a frame having a way, a slide*1nov-- a tool carried by said slide second named, means for manually adjusting said slide second named, a Way transverse to said Way first named, a slide movable along said Way second named, a guide adapted to be adjusted on and to be reeiprocated by said slide third named, means for coupling said second named.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Milling, Broaching, Filing, Reaming, And Others (AREA)

Description

w. P. FISCHER. MACHINE FOR FORMING GROOVES.
APPLICATION FILED JUNE 28- I9I9.
1,343,554. iatented June 15, 1920.
4 SHEETS-SHEET 1'.
d Z6 55a 1; i
WITNESSES: INVENTOR 'A TTOR/VE Y 'w. F, FISCHER. MACHINE FOR FORMING GROOVES.
APPLICATION FILED .IUNE 28,1919.
Patented J 11116 15, 1920.
4 SHEETS-SHEET 2.
INVENTOR MLL/fl/vi-fisc/rm BY Gd )2.
A TTORNEY W. .F. FISCHER.
MACHINE FOR FQRMING GROOVES.
APPLICATION FILED JUNE 28, 1919.
1,343,55Q r Y PatentedJune15,1920.
4 SHEETS-SFEET 3.
WITNESSES: INVENTQR mLLlflM ffiscflfim A TTORIVEY W. F. FISCHER.
MACHINE FOR FORMING GROOVES. APPLJCATION FILED IUNE 2a. 1919.
1,343,554. ramnwumlwzor 4 SHEETS-SHEET 4- WITNESSES: 1 //v VENTOR inn/71 V lhumnflfixcnm.
K a n- M A TTORNEY WILLIAM F.'FISCHER, 0F PHILADELPHIA, P END?!S"X'ILYDKIWIA.
MACHINE FOR FORMING GROOVE-S.
' Specification of Letters Patent. Patented June 15, 1920.
Application filed June 28, 1919. Seriallio. 307,416.
To all whom it may concern:
Be it known that I, )ViLLIAM F. FISCHER, a citizen of the United States, residing at Philadelphia, in the county of Philadelphia and State of Pennsylvania, have invented certain Improvements in Machines for Forming Grooves, of which the following is a specification.
This invention is designed to provide an improved machine having the object of cutting grooves of various forms in bearings, for the purpose of holding a lubricant for said bearings and the co-acting journals.
The machine effects the desiderata of holding a bearing relatively to a co-acting tool so that the bearing can be moved relatively to the stationary tool, the tool can be moved variously under control with relation to the stationary bearing, and the bearing and tool can he moved simultaneously, to cut straight, circular or spiral grooveseither continuously or interruptedly; the mechanism being adapted for varying the curvature of the groove, the length of the groove and generally the character of the groove at will.
In its preferred form, the improvements are comprised in a machine provided with a journaled chuck adapted for holding the work, mechanism for revolving or fixing said chuck at will, a post for holding, a tool adapted to cut a groove in said work, and means for moving said tool parallel to the axis of revolution of the chuck, at right angles to the axis and at intermediate angles with relation thereto to effect desired results.
The characteristic features of the i11vention are fully disclosed, in the machine set forth in the following description and the accompanying drawings in illustration thereof.
In the drawings, Figure 1 is a perspective view of the machine. Fig. 2 is a horizontal part sectional view of the same. Fig. 3 is a broken vertical sectional view on the line 83* of Fig. 2. Fig. 4 is a broken vertical sectional view on the line 4 l of Figs. 2 and Fig. 5 is a broken part sectional elevation of detached details comprising a forming cam together with cooperating means for controlling the tool. 6 is a detached top plan view of mechanism for controlling the chuck. Figs. 7, 8, 9 and 10 are perspective views of bearings provided with lubricator grooves in illustration of types of effects produced by the mechanism, and Figs. 11 and 12 are perspective views of types of former cams used in the mechanism for producing different effects.
The machine illustrated comprises a frame (1) having a bearing (1 in which is journaled the spindle (2) provided with the chuck (3) holding the work (4), shown as a cylindrical bearing. A screw (5) movable in the bearing (1 is adapted for fixing the spindle (2) when it is desired to hold the work stationary.
A pinion (6), adapted to turn on the spindle (2), has fixed thereto a clutching device (7) adapted to be engaged and disengaged by a clutching device (8) which is engaged to the spindle by a spline The device (8) is movable along the spindle (2) by a collar (9) in which it revolves and a yoke (10) engaging the collar, the yoke being fixed to a rod (11) adapted to be reciprocated by its handle (11 in the bearings (1 An idler gear (12), journaled on the ad justable bearing (1), revolves the pinion (6) and is revolved by a pinion (13) fixed on the driving shaft (let), which is journaled in the bearings (1 and (1). 7
A beveled pinion (15), fixed on the inner end of the driving shaft (141), engages a beveled gear (16) fixed on a shaft (17) which is journaled in the bearing (1 the shaft (17) having a peripherally grooved cam (18) detachably connected therewith so that different cams as (18) may be substituted therefor as required by the work to be done.
A stud or roller (19) is disposed eccentrically on a clutching device (20) which is movable along a shaft (21) journalcd in the bearings (l and (1 being engaged to the shaft by the spline (21 The stud or roller (19) is adapted to be engaged in the cam (18) to turn the shaft (21) or to be disengaged therefrom when the clutching device is moved into clutching engagement with the clutch bearing (l whereby the shaft (21) is held stationary.
Gears (22) fixed on the shaft (21) engage the racks (23) fixed on the slide ('24:) which is movable along the guides (1 transversely to the shaft. A guide (25) is connected in oscillatory relation to the slide by the arbor (26), this guide having a scale 25 on an end thereof co-acting with the index (2 1 onthe slide (2%) for setting the guide with reference to the slide. A slide (26) is movable in the guide (25) and has journaled therein a shaft (27) to which it is engaged by the collars (27 and (27),.' This shaft (27) has a hollowf threaded section (27 which is movable longitudinally on the shaft (28) connected thereto by a spline (28) and makes athr eaded engagement with the slide (29). The shaft (28) is ournaled in a slide (30) provided with transverse ways (30 for controlling the movement of the slide (29.) which is carried thereby, the shaft being provided with a handle (28) for turning it to revolve the shaft (27) and adjust the slide (29). l
A threaded rod (31)is fixed to the slide (29) by its bent arm (29) through which the shaft (27) passes, the rod-being engaged by the nuts adjustable thereon in movable relation to the slide (26). Y
7 The slide (30) is movable along the ways (it) by a link (33) having a pivotal connection (33) therewith and an adjustable pivotal connection (33) with the wheel (16). The wheel has a diametral way (16'") in which the connection is adapted to be set at the desired distance from the wheels center of rotation, to effect the. desired reciprocation of the slide (30) or permit it to re main stationary. r
l A tool post (3 1) is fixed in laterally ad- 7 justable relationupon the slide (29) having the transverse ways (29) therein, the post holding adjustably the tool (35) provided" with a cutter (35) adapted to act in the bearing (14) to form a groove therein.
Inthe operation of the machine, when itis desired to cut a straight longitudinal groove (4 in the cylindrical bearing l) as illustrated in Fig. 7, the clutching device (8) is held out of engagement with the clutching device (7) so that the pinion (6) shall be free on the spindle (2) which is now fixed in its bearing (l by meansof the screw (5), and the clutching device (20) is moved into engagement with the clutching device (1 so that the eccentric (l9 is disengaged from the cam (18) and the shaft (21) is fixed in position. The driving shaft (is) now acts through the beveled gears (15) and of the wheel (.16) for effecting the movement of the slide corresponding to the. length of the groove desired. The tool (35) is adjusted laterally to engage the work by turning the handle (28), the parts (32) being properlyset.
In formingthe circular grooves (4 in the be ring a how in F s- 7 the nection (33 is fixed at the center of the wheel ('16.). so that no motion will be communicated through the link (33) to the slide (30) ,and the tool (35) is set in thepost (34) so that the cutter (35 will engage the interior of the bearing (4L) at the desired point for cutting the particular groove, the slide (29) being adjusted laterally on the slide (30) by turning the handle (28* to bring the cutter (35) into contact with the bearing (a) and the nuts being adjusted to permit the further movement of the tool corresponding to the depth to be cut. The clutch member (8) is now operated to fix the pinion (6). to thespindle (2;), the eccentric (19) being engaged with the cam (18). The driving shaft (14-) now acts through the gears (13), (12 and (6) to, turn the spindle (2), the bearing (4) being turned thereby in contact with the cutter (35 At the same time the cam (18) acts through the eccentric (l9) and member (20) on the shaft (21) which acts through the gears (22) on "the racks (25) whereby the slide (as) is shifted laterally to disengage and reengage the. tool with relation to the work at the desired limits of the groove.
in forming the spiral grooves (et in the tapered bushing shown in Fig. 8, the guide (25) is set so that will be parallel to the desired line of mo emen Of t e cut e Th Pi h and eng h o he gr ov s will be determined by the size of the wheel (12) inserted in the machine, to regulatethe rate of revolution of the work; thefpoint at which the connection (33 is set with reference to the center of the wheel (16), to regulate the stroke of the tool, and the character of the cam (18 engaged with theeccentric (19.) which shifts the tool laterally to engage and disengage the work.
In forming the continuoujsspiral groove (e in the bushing shown in Fig. 9, the clutch member- (20) is engaged with the clutch member (1 which disengages the eccentric (19) from the cam (18) sothat the tool (35) remains in the same lateral position with relation tothe slide (30) as the work is revolved in contact therewith, the way (25) being set parallel to the axis of a cylindrical bushing'and at an angle to the axis of a tapered bushing as described.
In cutting the grooves (4) as illustrated in Fig. 10, the'operation described in connection with Fig. 8 is, repeated after disengaging the clutch member 8 and adjusting the, shaft (2) through a half turn.
It, will" be. understood that the. machine is adapted for cutting external as well as internal grooves. I
Having described my invention, I claim 1. In a machine of the character described, the combination of a j ournaled. spindle having means for holding work, driving mechanism, means for engaging and disengaging said spindle with relation to said driving mechanism, a cutting tool, means whereby said driving mechanism reciprocates said cutting tool in contact with the work held by said spindle, and means whereby said driving mechanism reciprocates said cutting tool to engage and disengage it periodically with relation to said work.
2. In a machine of thecharacter described, the combination with a cutting tool and a work holder, of adjustable automatic means for reciprocating said tool through variable predetermined distances, means whereby said work holder can be revolved or held stationary with relation to the moving tool,
and automatic means for reciprocating said tool transversely to the line out thereby to effect its engagement and disengagement with relation to the work.-
3. In a machine of the character described, the combination with a cutting tool and a work holder, of means for reciprocating said tool in contact with work engaged by said holder to form a sectional groove in said work, manually operated means for moving said tool into and out of engagement with said work and automatically operated means for throwing said tool into and out of engagement with the work at predetermined points in its cutting operation so as to form a sectional groove.
a. In a machine of the character described, the combination with a reciprocatory cutting tool and a revoluble work holder, of driving means for revolving said holder, manually operated means adapted for moving said tool into and out of engagement with the work, and mechanism comprising a cam and a shaft revolved thereby whereby said driving means throws said tool out of engagement with the work at a predetermined point in its cutting operation.
5. In a machineof the'character described, the combination of a driving shaft, a journaled work holder, means for engaging and disengaging said holder with relation to said shaft, means for fixing the disengaged holder, a cutting tool, a reciprocatory slide for carrying said tool in contact with work engaged by'said holder, a link for reciproeating said slide, a wheel having means for connecting said link therewith at variable distances from its axis, and means whereby said shaft revolves said wheel.
6. In a machine of the character described, the combination of a driving shaft, a work holder comprising a journaled spindle, means for engaging and disengaging said spindle with relation to said shaft, means for fixing said spindle when disengaged from said shaft, a reciprocatory slide, a link for reciprocating said slide, a wheel having means for connecting said linktherewith at variable distances from its. axis, means whereby said shaft revolves said wheel to operate said link and reciprocate said slide, a slide adapted to reciprocate on said slide first named transversely to its line of reciprocation, means comprising a tool carried by said slide second named, and means for reciprocating said slide second named on said slide first named.
7. I11 a machine of the character described, thecombination of a work holding device, a cutting device adapted to act upon work engaged by said holding device, means for moving one of said devices with relation to the other for effecting the cutting operation, manually operated means for adjusting said cutting device with relation to the work, and automatically operated means comprising a cam and mechanism revolved thereby for throwing said cutting device into and out of engagement with the work.
8. In a machine'of the character described, the. combination with a journaled work holding device and a reciprocatory cutting device, of means for revolving the Work holding device and reciprocating the cutting device simultaneously to cut spiral grooves in work held by said holder, and automatically operated means for reciproeating said cutting device transversely to its cutting movement to effect its engagement and disengagement with the work during the continuous revolution of the work holding device. i a
9. In a machine of the character described. the combination of driving means, a journaied work holder, areciprocatory cutting tool, mechanism whereby said driving means moves said tool in contact with work engaged by said holder and revolves" said holder with the work in contact with said tool, and mechanism operated by said drivingmeans for reciprocating said tool transversely} to its cutting movement to engage and disengage it with relation to the work, said mechanism last named comprising a journaled shaft, a cam connecting said shaft with said driving means and a reciprocatory slide operated by said shaft.
10. In a machine of the character described, the oombination of a cutting device,
a work holding device, means for moving one of said devices with relation to the other to effect the cutting operation, and; means for throwing said cutting device out of engagement with the work, said means last named comprising a journaled shaft, means for rocking said shaft, a slide and means whereby said shaft operates said slide.
11. In a machine of the characterfdescribed. the combination of a cutting device,
a Work holding device, means for moving one of said devices with relation to the other to effect the cutting operation, and means forthr'owing said cutting device into" and outof engagement with the work, said means lastnamed comprising a journaled shaft, mechanism comprising a cam for rocking said shaft, a slide, andmechanism comprisinga= gear and rack whereby said shaft reciprocatessaid slide.
12. In a machine of the character described, the combination of a work holding device, a cutting device, means for moving saidworkholding devicewv-ith relation to said cutting device and means for moving saidcutting device with relation to said work holding device, said means last named comprising a slide on Which said cutting device is carried, a second slide, means whereby said slide first named is connected in adjustable relation to said slide second named, a journaled shaft, and means comprising a rack and .gearwhereby said slide second namedzis reciprocated by said-shaft to reciprocate said: slide first named 13L'In a vmachine of the character described, the combination of: a work liolding device,a cutting device, and means for'movingsaid cutting devi'ce with: relation to work engaged by-said holding device, said means comprising a slide: by which said cutting device is movable into andxout of engage-l ment with the work, a second slide, means for connecting saidslides in variable rela tion, an oscillatory guide along i which said second slide is movable, a third slide by which said: guide is carried, andmeans for reciprocating said third slide.
14. In I machineof the character described, the combination of 'atool, means comprising a slide and way whereby" said tool is movable, a second slide and a way I therefor transverse to said way first named,
and means for operating said slide first named under control of said slide second named, said last named means comprising a hollow shaft having a threaded connection with saidslide first named and a journaled connection with saidslide second named, a journaledshaft extending into said hollow shaft and means whereby said journaled shaft revolves said hollow shaft and said hollow shaft is movable longitudinally on 16. In machine of the character "described, the combination of a journaled work holder, a slide adapted to reciprocate parallel to the axis of said work holder, a
slide adapted to reciprocate on said slide first; named transversely to its direction of its movement, a toolcarried by said'slide secondname'chanoscillatory guide adapted to beset at different angular relations to the axis of said work-holder, a slide movable "catory slide movable along saidguide, and
a shaft j ournaled in said slide third" named and having a threaded 'connection with said slide second named. i
18. In a machine of the character described,- a frame having a way, a "slide adapted to reciprocate along said way, a-slide' movable on said slide-first named transversely to-saidway, a' guide adapted to be set at different angular relations to said way,-a slide-movable alongsaid way, and a revoluble shaft having ascrew threaded connection withv said slide second-named and a journaled connectionwith said slide third named. r
19. In-a-machine of the character described, a frame having a way, a slide adapted to reciprocate along said way, aslide movable on said slide firstnamed trans versely to said way; a guide: adapted to be set atidifferent angularrelations to said way, a slide movablealon'g said guide, means for coupling said slides second i and third named, means for-shifting said guide so as to shift said second and thirdinamed slides and means for reciprocating saidlguide.
20. 1 11 a machine of the'character described, a frame having a way, a slide a dapted to reciprocate along said way,-adjustable driving mechanism for reciprocating said slide through variable predetermined distances along said way, a slide movableon said slide first named transversely to said way, means for manually adjusting said slide second named, a way: transverse to said way first named, a-slide movablealongsaid way second named, a guide adjustable on said slide third named, a slide movable along said guide, andan adjustable coupling connecting said second and fourth named slides. V
21. In a machine of the character described, a frame having a way, a slide*1nov-- a tool carried by said slide second named, means for manually adjusting said slide second named, a Way transverse to said Way first named, a slide movable along said Way second named, a guide adapted to be adjusted on and to be reeiprocated by said slide third named, means for coupling said second named.
In testimony whereof I have hereunto set my name this 27th day of June, 1919.
WILLIAM F. FISCHER.
US307416A 1919-06-28 1919-06-28 Machine for forming grooves Expired - Lifetime US1343554A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2628539A (en) * 1945-01-04 1953-02-17 Neergaard Leif Eric De Method and means for recording and reproducing displacements

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2628539A (en) * 1945-01-04 1953-02-17 Neergaard Leif Eric De Method and means for recording and reproducing displacements

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