US831974A - Feeding mechanism for machine-tools. - Google Patents

Feeding mechanism for machine-tools. Download PDF

Info

Publication number
US831974A
US831974A US22561704A US1904225617A US831974A US 831974 A US831974 A US 831974A US 22561704 A US22561704 A US 22561704A US 1904225617 A US1904225617 A US 1904225617A US 831974 A US831974 A US 831974A
Authority
US
United States
Prior art keywords
worm
wheel
shaft
cam
section
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US22561704A
Inventor
Friederich Mueller
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US22561704A priority Critical patent/US831974A/en
Application granted granted Critical
Publication of US831974A publication Critical patent/US831974A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16HGEARING
    • F16H3/00Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion
    • F16H3/02Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion without gears having orbital motion
    • F16H3/08Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion without gears having orbital motion exclusively or essentially with continuously meshing gears, that can be disengaged from their shafts
    • F16H3/14Gearings for reversal 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
    • Y10T29/00Metal working
    • Y10T29/51Plural diverse manufacturing apparatus including means for metal shaping or assembling
    • Y10T29/5152Plural diverse manufacturing apparatus including means for metal shaping or assembling with turret mechanism
    • Y10T29/5154Plural diverse manufacturing apparatus including means for metal shaping or assembling with turret mechanism tool turret
    • Y10T29/5159Cam operated
    • Y10T29/5161Transverse turret axis
    • 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
    • Y10T74/00Machine element or mechanism
    • Y10T74/18Mechanical movements
    • Y10T74/18056Rotary to or from reciprocating or oscillating
    • Y10T74/18088Rack and pinion type
    • Y10T74/18128Clutchable gears
    • 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
    • Y10T74/00Machine element or mechanism
    • Y10T74/19Gearing
    • Y10T74/19219Interchangeably locked
    • Y10T74/19377Slidable keys or clutches
    • Y10T74/19414Single clutch shaft
    • Y10T74/19484Single speed forward and reverse
    • Y10T74/19488Spur gears
    • 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
    • Y10T74/00Machine element or mechanism
    • Y10T74/19Gearing
    • Y10T74/1987Rotary bodies
    • Y10T74/19874Mutilated

Definitions

  • WITNESSES l/VVE/VTOR WQVWMMAMA 5mm FRIEDERICH MULLER, OF ELIZABETH, NEW JERSEY.
  • This invention relates to an improvement more particularly'in that class of machine-' tools employing a worm and worm-wheel for producing relative feeding movements between the work and the tool proper; and the invention has for its object to provide a simple and efiective means of controlling the action of the feeding mechanism through such worm and Worm-wheel.
  • the invention consists, primarily, in a worm, means for rotating it in opposite directions, a feed-shaft, a worm-wheel applied to said feed-shaft in mesh with said worm and having a radially-movable toothed peripheral section, and means for shifting said toothed peripheral section into and out of operative relation with said worm.
  • Figure 1 is a side elevation, partly in section, of the bed of the milling-machine provided with the resent improvement; and Fig. 2 is an end e evation of the same, Fig. 3 is a plan view, artly in section, of the end of the machine sfiown in Fig. 2. Fig. 4 is a side view, and Fig. 5 an edge View, of the worm and worm-wheel detached from the other portions of the machine.
  • the machine is shown with a bed 1, provided upon the upper side with two guidewaps 2, one of which is shown surmounted by a s iding carriage 3', having a depending stud 4.
  • the feed-shaft 5' is journalcd at opposite ends in the bed 1 and carries beneath the carriage 3 a cam-cylinder 6 with groove 7, en-,
  • the power for driving the feeding mechanism is communicated through the pulley 10, mounted upon the shaft 11, carryingthe loose clutch-collars 12 and 13, the former of which is connected with the worm-shaft 14 by means of the intermeshin gears 15 and 16 and the latter of which 0 utch-collars is connected with the saidworm-shaft by means of the gears 17 and 18 upon theirrespective shafts and the intermediate gear 19, intermeshing with said gears.
  • clutch-collars 12 and 13 is disposed a sliding clutch-collar 20, splined to the shaft 11 and rovided with an annular groove 21, entered by the spherical end of a in 22, carried by the shift-lever 23.
  • the sli ing clutch-collar 20 is provided with the usual teeth upon each end, which are adapted to interlock alternately with corresponding teeth u on adjacent ends of the loose collars 12 an 13.
  • the gears 15 and 16 and the gears 17, 18, and 19 are so arranged and proportioned that when the sliding collar 20 is in engagement'wlth the collar.
  • the worm-shaft 14 will be rotated forwardly at a comparatively slow speed to produce a feeding movement of the work-supporting carriage 3, while the shlfting of the clutch-collar 22 out of engagement with the collar 12 and into engagement with the collar13 causes the rotation of the wormshaft 14 in the reverse direction and at a greatly-increased speed to effect the return Intermediate the movement of the work-holding member after an operation'of the tool upon the Work in a well-known manner.
  • the worm-wheel 8 is provided with a radially-movable section consisting of a block 24, fitted in a radial slot or guideway 25 of the worm-wheel and provided upon its outer edge with a series of Worm-teeth complemental .to the peripheral teeth upon the body of the worm-wheel, such block being held from lateral displacement by means of the cheekplates 26 and 27, the latter of which is pro vided with a slotthrough which extends a lateral pin 28,'carried by the block 24.
  • An angular starting-lever 29, pivoted at 30 to a fiiced bracket 31 upon the bed 1, has its outer end portion connected, by means of a link 32, with the shift-lever 23 pivoted at 33 to the said bracket 31, and to the outer end of said starting-lever is pivoted at 34 a reciprocating cam-rod 35,the beveled head 36 of which is adapted to engage the pm 28 to raise the toothed portion of the block 24 into ICC I tool.
  • the rear face of the worm-wheel 8 is provided with an undercut slot 37, to which is fitted a similarly-shaped head 38 of a screwstud 39, provided with a clamp-nut 40.
  • the screw-stud 39 is circumferentially adjustable in the slot 37, its path of movement in the rotation of the worm 8 being such as to enable it to engage the tail of a latch-lever 41,
  • the several parts of the mechanism above described arein the positions which they assume at the end of the cycle of the machine, the starting-lever29 being shown in full linesin retracted position, with the clutch member 20 in engagement with the member 13 for effecting the backward rotation of the worm 9, the cam-rod 35 being retracted to permit the worm-wheel section 24 to drop by gravity or to be forced by engagement of tlie pin 28 with the stationary cam-piece 46, secured to the bed 1 inwardly toward the cam-shaft 5, so as to lie out of engagement with the actuating-worm as the worm-wheel 8 returns to initial or starting position in which the work-holding member assumes its initial position.
  • This movement of the starting-lever causes the shifting of the clutch member 20 from engagement with the collar 12 to engagement with the collar 13 for reversal of the direction of rotation of the worm-shaft 14 and simultaneously withdraws the cam-rod 35 to remove its head36 from the circular path of movement of the pin 28 so as to enable the toothed portion of the worm-wheel section 24 to recede from the periphery of the worm-wheel under the action of gravity or of the stationary cam 46 upon the pin 28, whereby as the worm-wheel returns to initial starting position the worm runs out of engagement with the tooth of the same, and the latter comes to rest in readiness for a succeeding operation.
  • the feed throw-out device comprising the radially movable worm wheel section 24 and the cam-rod 35, operated manually to shift it into operative position and automatically to permit its return to inoperative position in respect of the body of the worm-wheel, will operate equally well whether the worm 8 rotates continuously in one direction or alternately in opposite directions, the employment of means for reversing the direction of rotation of the worm, and hence of the cam-shaft, is evidently advantageous, as it is thereby made practicable to adjust the length of feed for a given piece of work, the circumferential adjustment of the tripping-stud 39 providing for the operation of so much only of the entire length of the cam-groove 7 as is necessary to communicate the requisite relative movement between the tool and the work.
  • worm-teeth 9 are formed upon a sleeve 49, mounted upon the wormshaft 14 and having merely a spline-andgroove connection therewith to insure its turning with the shaft, its longitudinal position thereon being capable of adjustment by means of the internally-threaded thrustcol lars 50, between which it is interposed, which are applied to the threaded portions 51 of the supporting-shaft.
  • the worm is slightly tapered from right to left.
  • the feed and worm shafts 5 and 14 are mounted in rigid bearings having no means of adjustment to compensate for wear.
  • the wear of the journals of the worm and cam shafts 14 and 5 respectively,causes the worm and Worm-Wheel to recede some- What from each other, thereby producing a Ioo r to
  • the combination with a circularly-moving feed-cam of means for communicating to said cam a feeding movement in one direction and a return movement in the opposite direction, comprising a nately in op osite directions, a worm-Wheel having a radially-movable toothed peripheral section, and means for shifting said section inwardly and outwardly to establish and inwheel with said worm.
  • the combination with a circularly-moving feed-cam, and means for communicating to said cam a feeding movement in one direction and a return movement in the opposite direction comprising a rotatin worm with means for driving it alternate y in opposite directions, a wormwheel having a radially-movable toothed peripheral section carrying alaterally-proecting pin, and a reciprocating camrod adapted to engage said lateral 'pin for radially shifting said worm-wheel section.
  • a machine-tool the combination with a cam. and a feed-shaft upon which said cam is mounted, of a worm-wheel mounted upon said feed-shaft and provided with a radiallymovable peripheral toothed section, a wormshaft and a worm thereon adapted to mesh with said worm-wheel, means comprising a clutch provided with connections,with said worm whereby the latter is driven alternately in opposite directions, and a common operating device for shifting said clutch and radially moving saidworm-wheel section to start, reverse and cause the machine to come to rest at initial osition.
  • a worm-wheel mounted upon the saidfeed shaft and provided with a radially-movable toothed peripheral section, a worm-shaft, a
  • a machine-tool In a machine-tool, the combination with a feed-shaft and a, cam mounted thereon, of a worm-wheel mounted upon the said feed-shaft and provided with a radially-movable toothed peripheral section, a worm-shaft provided with a pair of longitudinally-adjustable thrust-collars, a loose sleeve interposed between said.
  • the combination with a circularly-moving feed-cam comprising a rotating worm, means for driving it, a worm-wheel having aradiallymovable toothed peripheral section, and means for shifting said section inwardly and 'outwardly to establish and interrupt the operative relation of the worm-wheel with said worm.
  • a machine-tool the combination with a circularly-moving worm-wheel, provided with a radially-movable toothed peripheral section, and a worm adapted to mesh with said worm-wheel and provided with means for rotating it, of means operated manually for radially moving the wormwheel section into engagement with said worm to initiate the rotation of said wormwheel, and operated automatically to cause said section to move out of operative relation with said worm before the arrival of the Worm-wheel in initial starting position.

Landscapes

  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Transmission Devices (AREA)

Description

No. 831,974. PATENTED SEPT. 25, 1906.
F. MULLER. FEEDING MECHANISM FOR MACHINE TOOLS APPLICATION FILED SEPT. 23. 1904.
5 16 I m 7 x] 2 I r 47 48 4 I 4 11 Fig. 3
WITNESSES: l/VVE/VTOR WQVWMMAMA 5mm FRIEDERICH MULLER, OF ELIZABETH, NEW JERSEY.
FEEDING MECHANISM FOR MACHINE-TOOLS.
Specification of Letters Patent.
Patented Sept. 25. mos.
Application-filed September 23,1904. Serial No. 225.617-
useful Improvements in Feeding Mechanismfor Machine-Tools, of which the following is a specification, reference being had therein to the accompanying drawings.
This invention relates to an improvement more particularly'in that class of machine-' tools employing a worm and worm-wheel for producing relative feeding movements between the work and the tool proper; and the invention has for its object to provide a simple and efiective means of controlling the action of the feeding mechanism through such worm and Worm-wheel.
The invention consists, primarily, in a worm, means for rotating it in opposite directions, a feed-shaft, a worm-wheel applied to said feed-shaft in mesh with said worm and having a radially-movable toothed peripheral section, and means for shifting said toothed peripheral section into and out of operative relation with said worm.
it also includes certain specific mechanism vfor controlling the motion of said worm and for shifting the toothed eripheral section of the worm-wheel into 211M outpf operative position.
In the annexed drawings my present improvement is shown as a )plied to the millingmachine forming the su ject of my pending United States application, Serial No. 210,024, filed May 27, 1904.
Figure 1 is a side elevation, partly in section, of the bed of the milling-machine provided with the resent improvement; and Fig. 2 is an end e evation of the same, Fig. 3 is a plan view, artly in section, of the end of the machine sfiown in Fig. 2. Fig. 4 is a side view, and Fig. 5 an edge View, of the worm and worm-wheel detached from the other portions of the machine.
The machine is shown with a bed 1, provided upon the upper side with two guidewaps 2, one of which is shown surmounted by a s iding carriage 3', having a depending stud 4. The feed-shaft 5'is journalcd at opposite ends in the bed 1 and carries beneath the carriage 3 a cam-cylinder 6 with groove 7, en-,
tel-ed by the stud 40f the said carriage, and is provlded at the opplpsite extremity with the Worm-wheel 8, mes 'ng with the worm 9.
The power for driving the feeding mechanism is communicated through the pulley 10, mounted upon the shaft 11, carryingthe loose clutch- collars 12 and 13, the former of which is connected with the worm-shaft 14 by means of the intermeshin gears 15 and 16 and the latter of which 0 utch-collars is connected with the saidworm-shaft by means of the gears 17 and 18 upon theirrespective shafts and the intermediate gear 19, intermeshing with said gears. clutch- collars 12 and 13 is disposed a sliding clutch-collar 20, splined to the shaft 11 and rovided with an annular groove 21, entered by the spherical end of a in 22, carried by the shift-lever 23. The sli ing clutch-collar 20 is provided with the usual teeth upon each end, which are adapted to interlock alternately with corresponding teeth u on adjacent ends of the loose collars 12 an 13. The gears 15 and 16 and the gears 17, 18, and 19 are so arranged and proportioned that when the sliding collar 20 is in engagement'wlth the collar. 12 the worm-shaft 14 will be rotated forwardly at a comparatively slow speed to produce a feeding movement of the work-supporting carriage 3, while the shlfting of the clutch-collar 22 out of engagement with the collar 12 and into engagement with the collar13 causes the rotation of the wormshaft 14 in the reverse direction and at a greatly-increased speed to effect the return Intermediate the movement of the work-holding member after an operation'of the tool upon the Work in a well-known manner.
The worm-wheel 8 is provided with a radially-movable section consisting of a block 24, fitted in a radial slot or guideway 25 of the worm-wheel and provided upon its outer edge with a series of Worm-teeth complemental .to the peripheral teeth upon the body of the worm-wheel, such block being held from lateral displacement by means of the cheekplates 26 and 27, the latter of which is pro vided with a slotthrough which extends a lateral pin 28,'carried by the block 24.
An angular starting-lever 29, pivoted at 30 to a fiiced bracket 31 upon the bed 1, has its outer end portion connected, by means of a link 32, with the shift-lever 23 pivoted at 33 to the said bracket 31, and to the outer end of said starting-lever is pivoted at 34 a reciprocating cam-rod 35,the beveled head 36 of which is adapted to engage the pm 28 to raise the toothed portion of the block 24 into ICC I tool.
e=gagement with the worm 9 when the machii e is started.
The rear face of the worm-wheel 8 is provided with an undercut slot 37, to which is fitted a similarly-shaped head 38 of a screwstud 39, provided with a clamp-nut 40. The screw-stud 39 is circumferentially adjustable in the slot 37, its path of movement in the rotation of the worm 8 being such as to enable it to engage the tail of a latch-lever 41,
mounted upon afixed stud 42 on the bed 1 and having its operative end formed with a hook 43, adapted to engage a tooth 44 upon the outer extremity of the angular portion of the starting-lever 29, a spring 45 being provided to maintainthe latch-lever 41 normally in engagement with the starting-lever 29.
As illustrated in the drawings, the several parts of the mechanism above described arein the positions which they assume at the end of the cycle of the machine, the starting-lever29 being shown in full linesin retracted position, with the clutch member 20 in engagement with the member 13 for effecting the backward rotation of the worm 9, the cam-rod 35 being retracted to permit the worm-wheel section 24 to drop by gravity or to be forced by engagement of tlie pin 28 with the stationary cam-piece 46, secured to the bed 1 inwardly toward the cam-shaft 5, so as to lie out of engagement with the actuating-worm as the worm-wheel 8 returns to initial or starting position in which the work-holding member assumes its initial position.
To throw the feeding mechanism into effective or feeding relation, the starting-lever 29 is thrown forwardly into the dotted-line position, (represented in Fig. 3,) which causes the shift-lever 23 to disengage the clutch-collar 20 from the toothed collar 13 and to couple the same with the toothed collar 12 for communicating to the worm-shaft 14 a forward-feeding movement and simultaneously advances the cam-rod 35, whose head 36 engages the pin 28 and raises the worm-wheel section 24 into engagement with the rotating worm 9, whereby the forward movement of the worm=wheel 8,cam-shaft 5, and cam 6 are initiated and the feed of the carriage 3 begun to carry the work to the This feeding movement continues until the worm 8 is rotated to the point indicated in Fig. 2, when its tripping-stud 39 engages the latch-lever 4'1 and tilts the latter in opposition to its spring 45, and thereby releases the starting-lever 29, which returns to initial position under the action of the spring 47, interposed between the same, and a pin 48 upon the bed 1. This movement of the starting-lever causes the shifting of the clutch member 20 from engagement with the collar 12 to engagement with the collar 13 for reversal of the direction of rotation of the worm-shaft 14 and simultaneously withdraws the cam-rod 35 to remove its head36 from the circular path of movement of the pin 28 so as to enable the toothed portion of the worm-wheel section 24 to recede from the periphery of the worm-wheel under the action of gravity or of the stationary cam 46 upon the pin 28, whereby as the worm-wheel returns to initial starting position the worm runs out of engagement with the tooth of the same, and the latter comes to rest in readiness for a succeeding operation.
Although the feed throw-out device, comprising the radially movable worm wheel section 24 and the cam-rod 35, operated manually to shift it into operative position and automatically to permit its return to inoperative position in respect of the body of the worm-wheel, will operate equally well whether the worm 8 rotates continuously in one direction or alternately in opposite directions, the employment of means for reversing the direction of rotation of the worm, and hence of the cam-shaft, is evidently advantageous, as it is thereby made practicable to adjust the length of feed for a given piece of work, the circumferential adjustment of the tripping-stud 39 providing for the operation of so much only of the entire length of the cam-groove 7 as is necessary to communicate the requisite relative movement between the tool and the work.
It will be observed that only a single manual actuation of the starting-lever 29 is necessary in each operation of the machine, the return of such lever to initial position being effected automatically, and the final interruption' of the feed-returning movement being accomplished independently of such automatic shifting of the starting-lever.
By a reference more particularly to Figs. 2 and 4 of the drawings it will be observed that the series of worm-teeth 9 are formed upon a sleeve 49, mounted upon the wormshaft 14 and having merely a spline-andgroove connection therewith to insure its turning with the shaft, its longitudinal position thereon being capable of adjustment by means of the internally-threaded thrustcol lars 50, between which it is interposed, which are applied to the threaded portions 51 of the supporting-shaft. It will be further observed that the worm is slightly tapered from right to left.
As the employment of the shifting section 24 of the worm-wheel 8 obviates the necessity of shifting the worm-shaft to disengage the worm and worm-wheel, as has been common heretofore in many classes of machine-tools, the feed and worm shafts 5 and 14 are mounted in rigid bearings having no means of adjustment to compensate for wear. In the continued use of the machine the wear of the journals of the worm and cam shafts 14 and 5, respectively,causes the worm and Worm-Wheel to recede some- What from each other, thereby producing a Ioo r to
' tion' and to cause such section to move out rotating Worm, means for driving it alterterrupt the operative relation of the wormporting-shaft 14 by the means abovede- 'ing position.
certain' degree of lost motion, which impairs I the effectiveness of the feeding mechanism. By shifting the worm-sleeve 4-9 upon its supscribed compensation is made for such wear of the parts, and the effectiveness of operation of the mechanism is to a large extent, if not wholly, restored.
Having thus set forth the nature of my invention, what I claim herein is 1. In a machine-tool, the combination with a feed-shaft and a cam mounted thereon, of a worm-wheel mounted upon said feed-shaft and provided with a radially movable toothed peripheral section, a worm adapted. to mesh with said worm-wheel and provided with means for rotating it alternately in opposite directions, means operated initially for radially moving said worm-wheel section into engagement with said worm to initiate the rotation of the worm-wheel in one direcof operative relation with said Worm before the return of the worm-wheel to initial start- 2.In a machine-tool, the combination with a feed-shaft and a cam mounted thereon, of a worm-wheel mounted upon said feed-shaft and provided with a radially movable toothed peripheral section, a worm ada ted to mesh with said worm-wheel and provided with means for rotating it, manually-operated means for shifting said worm-wheel sec tion into operative relation with said worm to initiate the actuation of said feed-shaft, and automatically-acting means for causing the retraction of said Worm-wheel section out of such 0 erative'relation to produce the stoppage 0 said feed-shaft in initial starting position.
3. In a machine-tool, the combination with a circularly-moving feed-cam, of means for communicating to said cam a feeding movement in one direction and a return movement in the opposite direction, comprising a nately in op osite directions, a worm-Wheel having a radially-movable toothed peripheral section, and means for shifting said section inwardly and outwardly to establish and inwheel with said worm.
4. In a machine-tool, the combination with a circularly-moving feed-cam, and means for communicating to said cam a feeding movement in one direction and a return movement in the opposite direction, comprising a rotatin worm with means for driving it alternate y in opposite directions, a wormwheel having a radially-movable toothed peripheral section carrying alaterally-proecting pin, and a reciprocating camrod adapted to engage said lateral 'pin for radially shifting said worm-wheel section.
5. In a machine-tool, the combination with means, manually actuated in one direction.
and automatically actuated in the opposite direction, for shifting the said sliding-clutch member.
6. In a machine-tool, the combination with a cam. and a feed-shaft upon which said cam is mounted, of a worm-wheel mounted upon said feed-shaft and provided with a radiallymovable peripheral toothed section, a wormshaft and a worm thereon adapted to mesh with said worm-wheel, means comprising a clutch provided with connections,with said worm whereby the latter is driven alternately in opposite directions, and a common operating device for shifting said clutch and radially moving saidworm-wheel section to start, reverse and cause the machine to come to rest at initial osition.
7. In a machine-too the combination with a cam and a feed-shaft upon which said cam is mounted, of aworm wheel mounted upon said feed-shaft and provided with a radially-movable peripheral toothed section, a worm-shaft and a worm thereon adapted to mesh with said worm-wheel, shifting means for radially moving said worm-wheel section in respect of said worm, a driving-shaft with directand reverse connections with said worm-shaft, a clutch for controlling said dirent and reverse connections of'said worm- 1 shaft with said driving-shaft, and a common operating device for said clutch and worm wheel-section shifting vmeans.
8. In a machine-tool, the combination with a cam and a feed-shaft upon which said cam is mounted, of a worm-wheel mounted upon said cam-shaft and provided wlth a radiallymovable peripheral toothed section, a worm-. shaft and a worm thereon adapted to mesh with said Worm Wheel, means. for radially moving said worm-wheel section in respect of said worm, a driving-shaft with direct and re- IIS a fced-shaft and a cam mounted upon the same, of a worm-wheel mounted upon said feed-shaft and provided with a radially-mov able peripheral toothed section and a circumferentially adjustable tripping-stud, a wormshaft and a worm thereon adapted to mesh with said worm-wheel, means for radially moving said worm-wheel section in respect of said worm, a driving-shaft with direct and reverse connections with said worm-shaft, a clutch for controlling said direct and reverse connections of said worm-shaft with said drivingshaft, a common starting-lever, connections between the same and the clutch and worm-wheel-scction shifting devices, a spring for holding said starting-lever normally in initial position, a latch having at one end a hook adapted to engage said startinglevcr in its operative position and at the other end a tail adapted for engagement with the adustable tripping-stud of said worm-wheel, and a spring for normally maintaining said latch-lever in operative relation with said startinglever.
10. In a machine-tool, the combination with a feed-sh aft and a cam mounted thereon,
of a worm-wheel mounted upon the saidfeed shaft and provided with a radially-movable toothed peripheral section, a worm-shaft, a
worm of slightly-tapered form longitudinally ad justablc upon said worm-shaft and adapted to mesh with said worm-wheel, means for rotating said worm-shaft alternately in opposite directions, and means operatin initially in radially moving said worm-whee section into engagement with said worm to initiate the ro tation of the worm-wheel in one direction and to cause said section to move out of operative relation with said worm before the return of the worm-wheel to initial starting position I I. In a machine-tool, the combination with a feed-shaft and a, cam mounted thereon, of a worm-wheel mounted upon the said feed-shaft and provided with a radially-movable toothed peripheral section, a worm-shaft provided with a pair of longitudinally-adjustable thrust-collars, a loose sleeve interposed between said. thrust-collars on said shaft and provided with slightly tapered series of worm-teeth meshing with said worm-wheel, means for rotating said worm-shaft alternately in opposite directions; and means operating initially in radially moving said wormwheel section into engagement with said worm to initiate the engagement of the worm-wheel in one direction and to cause said section to move out of operative relation with said worm before the return of the worm.- Wheel to initial starting position.
12. In a machine-tool, the combination with a circularly-moving feed-cam, of means for communicating to said cam feeding movements comprising a rotating worm, means for driving it, a worm-wheel having aradiallymovable toothed peripheral section, and means for shifting said section inwardly and 'outwardly to establish and interrupt the operative relation of the worm-wheel with said worm.
13. In a machine-tool, the combination with a circularly-moving worm-wheel, provided with a radially-movable toothed peripheral section, and a worm adapted to mesh with said worm-wheel and provided with means for rotating it, of means operated manually for radially moving the wormwheel section into engagement with said worm to initiate the rotation of said wormwheel, and operated automatically to cause said section to move out of operative relation with said worm before the arrival of the Worm-wheel in initial starting position.
14. In a machine-tool, the combination with the frame and a reciprocating carriage thereon, of a circularly-moving feed-canwan operative connection between said cam and said carriage, means for communicating to said cam a feeding movement in one direction and a return movement in the opposite direction, and means operatively connected with said cam for adjusting the amount of feeding movements of said cam within the limits of a single rotation, and acting positively to prevent the rotation of said cam more than a complete rotation.
15. In a machinetool, the combination with the frame and a reciprocating carriage thereon, of a circularly-moving feed-cam, an operative connection between said cam and said carriage, a worm-whecl connected with said earn, a worm meshing with said wormwheel, means for rotating said worm in opposite directions, and controlling means for the worm-actuating mechanism of which one member is carried by and ad justablc upon the said worm-wheel for determining the point of reversal of the movements of said feed-cam.
In testimony whereof I'have signed my name to this specification in the presence of two subscribing witnesses.
FRIEDERICH MULLER.
Witnesses.
H. J. MILLER, H. A. KORNEMANN.
ICC
US22561704A 1904-09-23 1904-09-23 Feeding mechanism for machine-tools. Expired - Lifetime US831974A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US22561704A US831974A (en) 1904-09-23 1904-09-23 Feeding mechanism for machine-tools.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US22561704A US831974A (en) 1904-09-23 1904-09-23 Feeding mechanism for machine-tools.

Publications (1)

Publication Number Publication Date
US831974A true US831974A (en) 1906-09-25

Family

ID=2900449

Family Applications (1)

Application Number Title Priority Date Filing Date
US22561704A Expired - Lifetime US831974A (en) 1904-09-23 1904-09-23 Feeding mechanism for machine-tools.

Country Status (1)

Country Link
US (1) US831974A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2456140A (en) * 1944-01-17 1948-12-14 Jack & Heintz Prec Ind Inc Adjustable chamfering device
US3184995A (en) * 1963-03-25 1965-05-25 Smith Clifford Eric Variable transmission power plant
US3203505A (en) * 1963-06-06 1965-08-31 Allis Chalmers Transmission mechanism
US4116315A (en) * 1977-01-06 1978-09-26 Westran Corporation Landing gear actuator
US4854183A (en) * 1987-09-15 1989-08-08 Rockwell-Cim Cyclic electromechanical program control for controlling elements, such as for example openable roofs of vehicles

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2456140A (en) * 1944-01-17 1948-12-14 Jack & Heintz Prec Ind Inc Adjustable chamfering device
US3184995A (en) * 1963-03-25 1965-05-25 Smith Clifford Eric Variable transmission power plant
US3203505A (en) * 1963-06-06 1965-08-31 Allis Chalmers Transmission mechanism
US4116315A (en) * 1977-01-06 1978-09-26 Westran Corporation Landing gear actuator
US4854183A (en) * 1987-09-15 1989-08-08 Rockwell-Cim Cyclic electromechanical program control for controlling elements, such as for example openable roofs of vehicles

Similar Documents

Publication Publication Date Title
US1115972A (en) Automatic turret-lathe.
US831974A (en) Feeding mechanism for machine-tools.
US2005822A (en) Hydraulic machine tool
US874035A (en) Multiple-spindle automatic turret-machine.
US927432A (en) Metal-working machine.
US627299A (en) echols
US1363751A (en) Automatic multiple-spindle lathe
US732453A (en) Metal-working machine.
US1322352A (en) Automatic lathe
US1155432A (en) Tap-making machine.
US680724A (en) Duplex centering-machine.
US1505131A (en) Automatic turret lathe
US874754A (en) Indexing mechanism.
US923449A (en) Metal-working machine.
US1985225A (en) Milling machine
US2792676A (en) Spiral grinding machine
US1520713A (en) Milling machine
SU584990A1 (en) Attachment to engine lathe for cutting variable-pitch thread
US992843A (en) Lathe.
US1083987A (en) Automatic lathe.
US1132551A (en) Mechanism for relieving the teeth of cutters.
US1124538A (en) Metal-working machine.
US1139794A (en) Machine-tool.
US1520712A (en) Metal-working machine
US214587A (en) Improvement in wood-screw machines