US129831A - judson - Google Patents

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US129831A
US129831A US129831DA US129831A US 129831 A US129831 A US 129831A US 129831D A US129831D A US 129831DA US 129831 A US129831 A US 129831A
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socket
arm
drill
wheel
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    • 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
    • F16H37/00Combinations of mechanical gearings, not provided for in groups F16H1/00 - F16H35/00

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  • My invention relates to improvements in the construction and operation of thatclass of ma chines known as radial drilling-machines, by means of which the drills can be made to operate in any direction without moving the base of the machine.
  • the first part of my invention relates to improvements -in the construction of the pillar and revolving cylinder or socket which carries the drill-arm; and the invention consists in constructing the pillar withv a shaft of tapering or conical form, and the revolving socket with a correspondinglyshaped interior periphery, and also with a V- shaped flange or foot, which sets in a correspondingly-shaped groove inthe base of the pillar, so that the socket will always have a solid bearing and be inproper working position, notwithstandingthe wear consequent on friction.
  • the second part of my invention relates to the adjustment of the head and drill- ⁇ arm socket; and consists in a new and improved combination of devices for raising and lowering the same to any required height upon the revolving socket by means of power derived from the mainshaft, as hereinafterl fully set forth.
  • the third part of my invention relates to the drill-arm; and the invention consists in a new and improved combination of devices whereby ⁇ the arm is made to revolve on its longitudinal axis, and can be j adjusted and securely held in position during the operation of the drills.
  • the fourth part of my invention relates to the arrangement of ⁇ the driving mechanism with relation to the revolving arm and socket,whereby the drillspindle can be" madetooperate with equal facility in any direction without alteration of gearing in any particular and without moving the base of the machine7 all as hereinafter more fully set forth.
  • the fifth part of my invention relates to the bearings of the revolving arm; and ⁇ consists in so constructing the arm-socket and revolving arm-head as to relieve the arm-shaft and its connecting mechanism of all strain, as hereinafter more ⁇ fully set i forth.
  • the sixth part of my invention relates ⁇ to the constructionl and operation of the drillspindle socket; and consists in constructing the socket with a worm for operating the feedshaft automatically by means of interposing mechanism, consisting of a solid shaft set at right angles to the spindle-socket, and formed as a gear-wheel at one end, engaging with the worm, and having a worm keyed on its other end, ⁇ which engages with a gear-wheel on the feed-shaft.
  • Figure l is a side elevation of myimproved drilling-machine with portions cut away, to show the interior arrangement of parts and operation of mechanisms.
  • Fig. 2 is a top-plan view of same, with a portion of the adjustable cap removed to show the gearing.
  • Fig. 3 is a top-plan view of the drill-arm and socket, with parts cut away A represents the -base of the machine, the
  • portion A being the base of the pillar on which the machine revolves, the other portions constituting the bearing-frame for the driving mechanism.
  • Thisbase or frame may be mounted on a truck, so that the machine ymay be moved from place to place or along a tram-way as desired.
  • B is the pillar which supports the machine, and on which the cylinder or socket C is made to revolve.
  • the pillar B is made tapering, or of conical form, as shown in Fig.
  • the socket C is also made tapering to correspond with the conical form of the pillar;
  • the outer peripheryof the socket C is cylindrical throughout its entire length, except at the bottom, where it is ilanged outwardly with a V-shaped flange, which sets in a correspondingly-shaped groove formed in the base ofthe pillar, as shown at a a, Fig. 1
  • the socket C is always provided with a solid bearing, which is self-adjusting, notwithstanding the wear of parts consequent on friction.
  • An annular slot, b is also formed in the base of the pillar, and headed bolts c c, working in this slot, are passed through the flange of the socket, and, being provided with nuts c c,.serve to secure the socket or cylinder C in any required position on the horizontal plane in which it turns; by loosening the nuts the socket is again free to turn on the pillar.
  • D is the head or sliding frame which carries the drill-arm; it is made to slide up and down upon the socket C so as to work the drills at any height.
  • E is the drill-arm socket, which forms a part of the slidin g frame D.
  • F is the drill-arm, which is made to revolve in a vertical plane around its longitudinal axis by .mechanism to be hereafter described. It is secured to the socket E in the same manner as the socket C is secured to the pillar-wiz., by headed bolts working in an annular slot in the socket, and secured by nuts to the arm.
  • G is the drill-head, pivotcd to the bearingplate H, which is made to slide back and forth on the drill-arm, as hereafter described.
  • the pivoting of the drill-head is also accomplished in the same manner as the socket O and the drill-arm-a device which permits of free rotation for the purpose of adjustment of the drills, and which retains them securely in position when adjusted.
  • I is the drill-spindle socket, J the spindle, and K the feed-shaft, all operated as hereinafter set forth.
  • L is the main driving-shaft, journaled in proper bearings in the base or frame of the machine, and operated by a cone, M, in the. usual way.
  • N is a movable shaft, provided with gear-wheels 'n n', which are made to engage with corresponding gear-wheels m m on the shaft L when increased power is required in drilling heavy work.
  • The'shaft L passes into the base of the pillar and is provided with a bevel-wheel, l, which engages with a bevelwheel, o, secured to the vertical driving-shaft O, which is journaled in proper bearings and passes upward through the center of the pillar B and socket or cylinder G.
  • a rigid cap-piece or frame, P On the top of the cylinder() a rigid cap-piece or frame, P, is secured, provided with three bearing lugs or projections, 3 4 5, and a bearing-plate, 6, on which rests one side of a movable cap-piece, Q, the other side being pivoted to a screw-rod which passes down through the journal-bearing 4, for the purpose to be described.
  • This cap-piece Q is also provided with a projecting side, q, cut with a rectangular elongated slot, q. o is a gear-wheel secured to the main vertical shaft O between the cap-plates P and Q.
  • This wheel o engages with another gearwheel, ⁇ r, secured to the top of the vertical driving-shaft R, which passes down through the journal-bearing 5 and through the drillarm socket E, as shown in Fig. 1.
  • the sliding frame D is provided with bearing lugs or projections 7 and 8, arranged in a vertical plane with 3 and 4 on the cap-piece P.
  • S is a ver tical screw-rod, which is journaled in the bearings 4 and 8 and in the cap-piece Q at s.
  • the drill-arm On this vertical screw-rod the drill-arm is raised or lowered automatically, when neces sary, by means of the following-described mechanism:
  • a small gear-wheel On the upper end of the shaft O is secured a small gear-wheel, g, and suspended from the under side of the cap-piece Q, in hanging bearings, are three small gear-wheels, 10 11 12, which4 gear with each other and with the larger wheel s secured on the screw-rod S.
  • T is a vertical rod journaled in bearings 3 and 7, and which passes downward through an adjusting lug or bracket, t, pierced with three holes.
  • a sleeve-clutch, t' having a tongue, which engages with a vertical groove or slot formed in the rod T, and having a handle, whereby the rod is turned in its bearings; it is also pierced with a hole, through which, and through one or other of the holes in bracket t, a pin is inserted to retain the-rod T in the required position.
  • an eccentric or cam, U is secured.
  • u is the camshaft, which passes up through the slot g of the cap-piece Q in a loose journal-block u', which slides back and forth in the slot.
  • F is the drill-arm pivot, constructed with shoulders or disks f j', which turn in corre- ⁇ sponding grooves or shoulders e e formed on theinner peripheries of the arm-socket E. These bearing disks or shoulders effectually support the arms, relieve the arm-*shaft from all strain, and leave it free to revolve without any pressure on its bearings.
  • the arm is made, ⁇ to turn or rotate by means of the ⁇ screw-gearing 13 formed on the armpivot, engaging with the worm-shaft V jour- ⁇ naled in horizontal bearings secured across the under side ofthe arm-socket E, andprovided with a handle, lv, by turning whichlthe arm is made to revolve through the worm e engagingwith the gearing of the arm-pivot, as before stated.
  • the arm F is made with a fiat bearing-surface, f f, and is provided with a longitudinal slot or opening, f' in which the arm-shaft W is journaled centrally in proper bearings, the shaft extending the whole length V *of the arm.
  • the power is conveyed to the arm-shaft by means of a bevel-wheel, 14, keyed tothe vertical shaft R, so as to permit the shaft to rise and fall.
  • This wheel 14 is placed within the arm-socket E, and gears with anj other bevel-wheel, 15, secured on the inner end of the arm-shaft, also within the arm-socket, as shown in Fig. 1.
  • the drill-head pivot-plate H is made to slide back and forth on the drillarm, so as to operate the drill at a greater or less distance from the center ⁇ or revolving socket C. This adjustment is accomplished ⁇ byllneans of a screw-rod, h, provided witha handle, h', and. journaled to one side of lyre arm.
  • the plate H is also cutwith an annular slot, h, and centrally with a hole, hm', for the passage of a short shaft, X.
  • the power is transmitted from the arm-shaft W to the drill-spindle socket I by means of the bevel-wheel 16 gearing with the bevel-wheel 17 secured to shaft X within the plate H, and by the crownwheel 18 ⁇ secured on the other end ofthe shaft X, gearing with wheel19 of the spindle-socket I.
  • the drill-spindle socket I in addition tothe crown-wheel 19, is provided with a worm, 20, by means of which power is communicated to the feed-shaft K in the following manner:
  • a short shaft', ,Y is journaled to the frame G at right angles to and beneath the spindle-socket and feed-shaft. .On the end next the spindle-socket it is provided wit-h a gear-wheel, 21, which engages with the worm 20. ⁇ 0n the other end it is provided with a worm, 22, which engages with a gear-wheel, 23, on the feed-shaft.
  • This wheel 23 is adjustably secured on the feed-shaft K vby friction by means of conical bosses k k', secured by an adjustable lock-nut, j, working on a screw-thread formed on the feed-shaft J. By this means the friction on the wheel 23 may be increased or lessened, as desired.
  • the feedshaft K is journaled in bearings forming part of the drill pivot-frame G, and is provided Awith two gear-wheels, 24 and 25, of different sizes for different speed. These wheels gear with corresponding 'wheels 26and 27 keyed to the screw-sleeve J 25 gearing with 27 for quick feed; 24 with 26 for slow.
  • the chan ge from slow to quick feed is effected by means of a sleeve, j having aworm or spiral slot, in which a pin, j, secured to bearing-frame G, works.
  • the sleeve j is provided with a handle, j", which throws the feed-shaft X back and forth within its bearings.
  • This feeding apparatus mayr be operated either by hand or by power derived from the drill-spindle socket in the manner describedviz., through the worm 20, operating the shaft X, and the worm 22, operating the frictionwheel 23, which, when secured to the shaft K by bosses la k', operate wheels 24 and 26, or 25 and 27, and thereby the screw-sleeve J', which pushes the drill-spindle Vforward or draws it back when the power is reversed.
  • the wheel 23 When it is desired to operate the feed by hand instead by of power, the wheel 23 is released from the shaft by unscrewing the lock-nut j, which relieves it 'from the pressure of the conical bosses k k1, and allows it to turn freely on the shaft.
  • a hand-wheel, Z is keyed to the end of the feed-shaft, by means of which the feed can be 'operated without connection with the driving mechanism. The adjustment of the gearing for fast or slow feed is the same, whether thefeed-shaft is operated by hand or by power.
  • J is the drill-spindle, which revolves within the spindle-socket I, and within the screw-feed sleeve J it receives its motion from the spindle-socket by means of a key or pin, 75"", which en gages with a longitudinal slot cut iu the spindle., as shown at 7a4, Fig. 1.
  • Fig. 7 represents an attachment for slotting purposes or l'or striking interxnitting blows.
  • the drill pivotframe G When used in the machine the drill pivotframe G is removed, and the pivot-frame G' isNIC its place, and secured in the same way, by the headed bolts g of the plate H; the bevel-wheel 1G then engages with the bevel-wheel 28 oi' the slottin g device, and operates the cam 29, which, through its connecting-rod 30 and pin or holt 3l, imparts an intermitting or striking motion to the slotting-shaft 32.
  • the shaft 32 is made adjustable by means of a slot, 33, and a screw-rod, 34, which passes through the slot longitudinally, and through the pin or bolt 31, as shown in the drawing.
  • such a machine may be used for drilling and boring along the hull of the ship, and be made to conform to the curve or sweep of its lines With the greatest facility.
  • tunneling it can be made to-drill at any point ofthe arch.
  • quarrying it may be moved to the edge and work the face of the rock beneath it 5 and for mining operations, from its universal adjustments and the protection afforded by the central arrangement of the shafts and gearing, it is deemed peculiarly adapted.
  • the rod T, cam U, and pivoted cap Q operating, in combination with the Wheels S', g, C110, 11, and l2, as and for the purpose speciv4 teaser 3.
  • the rotatable arm F and socket E in combination with the socket or cylinder O and pillar B, and shafts It, W, L, and O, with their connecting-gearing, arranged for operation, without change of gearing, substantially as set forth, for the purpose specified.
  • the sleevej' having a handle,j"', and spiral slot, as described, in combination with the pin j", shaft K, and wheels 24 and 25, for the purpose specified.

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Description

2 Sheets--Sheet l.
w. H. JUDso'N.'
Improvement in Metal- Drilling-Machines.
'Patented July 23, 1872.
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WILLIAM HENRY JUDSON, OF TITUSVILLE, PENNSYLVANIA.
IMPROVEMENT iN METAL-DRILLING MACHINES.
Specification forming part 0f Letters Patent No. 129,831, dated July 23, 1872.
Specification describing certain Improvements in Universal Radial Drilling-Machines, invented by WILLYrAM H. JUnsoN, of Titusville, in the county of Crawford and State of Pennsylvania. j i
My invention relates to improvements in the construction and operation of thatclass of ma chines known as radial drilling-machines, by means of which the drills can be made to operate in any direction without moving the base of the machine. The first part of my invention relates to improvements -in the construction of the pillar and revolving cylinder or socket which carries the drill-arm; and the invention consists in constructing the pillar withv a shaft of tapering or conical form, and the revolving socket with a correspondinglyshaped interior periphery, and also with a V- shaped flange or foot, which sets in a correspondingly-shaped groove inthe base of the pillar, so that the socket will always have a solid bearing and be inproper working position, notwithstandingthe wear consequent on friction. The second part of my invention relates to the adjustment of the head and drill-` arm socket; and consists in a new and improved combination of devices for raising and lowering the same to any required height upon the revolving socket by means of power derived from the mainshaft, as hereinafterl fully set forth. The third part of my invention relates to the drill-arm; and the invention consists in a new and improved combination of devices whereby` the arm is made to revolve on its longitudinal axis, and can be j adjusted and securely held in position during the operation of the drills. The fourth part of my invention relates to the arrangement of `the driving mechanism with relation to the revolving arm and socket,whereby the drillspindle can be" madetooperate with equal facility in any direction without alteration of gearing in any particular and without moving the base of the machine7 all as hereinafter more fully set forth. The fifth part of my invention relates to the bearings of the revolving arm; and `consists in so constructing the arm-socket and revolving arm-head as to relieve the arm-shaft and its connecting mechanism of all strain, as hereinafter more` fully set i forth.` The sixth part of my invention relates `to the constructionl and operation of the drillspindle socket; and consists in constructing the socket with a worm for operating the feedshaft automatically by means of interposing mechanism, consisting of a solid shaft set at right angles to the spindle-socket, and formed as a gear-wheel at one end, engaging with the worm, and having a worm keyed on its other end, `which engages with a gear-wheel on the feed-shaft. It also consists in securing the gear-wheel on the feed-shaft byfriction through the agency of conical bosses secured by an adjustable lock-nut; and, also, in connection therewith, it consists in providing mechanism whereby the speed of the feed may be altered without having to stop the machine to effect the change, and so that it may be accomplished by hand or power, all as hereinafter more fully set forth.
In the accompanying drawing, Figure lis a side elevation of myimproved drilling-machine with portions cut away, to show the interior arrangement of parts and operation of mechanisms. Fig. 2 is a top-plan view of same, with a portion of the adjustable cap removed to show the gearing. Fig. 3 is a top-plan view of the drill-arm and socket, with parts cut away A represents the -base of the machine, the
portion A being the base of the pillar on which the machine revolves, the other portions constituting the bearing-frame for the driving mechanism. Thisbase or frame may be mounted on a truck, so that the machine ymay be moved from place to place or along a tram-way as desired. B is the pillar which supports the machine, and on which the cylinder or socket C is made to revolve. The pillar B is made tapering, or of conical form, as shown in Fig. l of the drawing, and the" inner periphery of the socket C is also made tapering to correspond with the conical form of the pillar; the outer peripheryof the socket C is cylindrical throughout its entire length, except at the bottom, where it is ilanged outwardly with a V-shaped flange, which sets in a correspondingly-shaped groove formed in the base ofthe pillar, as shown at a a, Fig. 1
By this means the socket C is always provided with a solid bearing, which is self-adjusting, notwithstanding the wear of parts consequent on friction. An annular slot, b, is also formed in the base of the pillar, and headed bolts c c, working in this slot, are passed through the flange of the socket, and, being provided with nuts c c,.serve to secure the socket or cylinder C in any required position on the horizontal plane in which it turns; by loosening the nuts the socket is again free to turn on the pillar. D is the head or sliding frame which carries the drill-arm; it is made to slide up and down upon the socket C so as to work the drills at any height. When raised or lowered to the required height it may be securely clamped to the socket by tightening up the nuts d. E is the drill-arm socket, which forms a part of the slidin g frame D. F is the drill-arm, which is made to revolve in a vertical plane around its longitudinal axis by .mechanism to be hereafter described. It is secured to the socket E in the same manner as the socket C is secured to the pillar-wiz., by headed bolts working in an annular slot in the socket, and secured by nuts to the arm. G is the drill-head, pivotcd to the bearingplate H, which is made to slide back and forth on the drill-arm, as hereafter described. The pivoting of the drill-head is also accomplished in the same manner as the socket O and the drill-arm-a device which permits of free rotation for the purpose of adjustment of the drills, and which retains them securely in position when adjusted. I is the drill-spindle socket, J the spindle, and K the feed-shaft, all operated as hereinafter set forth. L is the main driving-shaft, journaled in proper bearings in the base or frame of the machine, and operated by a cone, M, in the. usual way. N is a movable shaft, provided with gear-wheels 'n n', which are made to engage with corresponding gear-wheels m m on the shaft L when increased power is required in drilling heavy work. This change is accomplisehd by removing the pin 1, which keys the wheel m to the cone M and shaft L; the cone and wheel m (which is secured to and revolves with the cone) are then left free to revolve independent of the shaft L; the shaft N is then moved along until the wheels u a engage with the wheels m m', in which position they are secured by a catch, 2, engaging with a slot in shaft N. By this arrangement the drivingpower is transmitted by wheels m and n to the shaft N, and by wheels 'n' and m back to shaft L, thereby gaining an increase of power with reduced speed. By shifting back the shaft N and reinserting the pin 1 the cone again becomes keyed to the shaft L and the machine resumes its former speed. In drilling heavy and light work, alternately, this means of adjusting the power to the work is very desirable, and can thus be accomplished without adjusting any other part of the machine. The'shaft L passes into the base of the pillar and is provided with a bevel-wheel, l, which engages with a bevelwheel, o, secured to the vertical driving-shaft O, which is journaled in proper bearings and passes upward through the center of the pillar B and socket or cylinder G. On the top of the cylinder() a rigid cap-piece or frame, P, is secured, provided with three bearing lugs or projections, 3 4 5, and a bearing-plate, 6, on which rests one side of a movable cap-piece, Q, the other side being pivoted to a screw-rod which passes down through the journal-bearing 4, for the purpose to be described. This cap-piece Q is also provided with a projecting side, q, cut with a rectangular elongated slot, q. o is a gear-wheel secured to the main vertical shaft O between the cap-plates P and Q. This wheel o engages with another gearwheel, ^r, secured to the top of the vertical driving-shaft R, which passes down through the journal-bearing 5 and through the drillarm socket E, as shown in Fig. 1. The sliding frame D is provided with bearing lugs or projections 7 and 8, arranged in a vertical plane with 3 and 4 on the cap-piece P. S is a ver tical screw-rod, which is journaled in the bearings 4 and 8 and in the cap-piece Q at s. On this vertical screw-rod the drill-arm is raised or lowered automatically, when neces sary, by means of the following-described mechanism: On the upper end of the shaft O is secured a small gear-wheel, g, and suspended from the under side of the cap-piece Q, in hanging bearings, are three small gear-wheels, 10 11 12, which4 gear with each other and with the larger wheel s secured on the screw-rod S. T is a vertical rod journaled in bearings 3 and 7, and which passes downward through an adjusting lug or bracket, t, pierced with three holes. Between the lugs 7 and tis a sleeve-clutch, t', having a tongue, which engages with a vertical groove or slot formed in the rod T, and having a handle, whereby the rod is turned in its bearings; it is also pierced with a hole, through which, and through one or other of the holes in bracket t, a pin is inserted to retain the-rod T in the required position. 0n the upper end of the rod T an eccentric or cam, U, is secured. u is the camshaft, which passes up through the slot g of the cap-piece Q in a loose journal-block u', which slides back and forth in the slot. When the drills are in operation this automatic adjustin g mechanism remains in active, and is retained out of gear by passing the retainingpin through the sleeve-clutch t and the center hole of bracket t. When it is desired to lower the drill-head arm the rod T is turned to the left and secured in that position by passing the pin through the left-hand hole of bracket t. In turning the rod the cap-piece Q is moved by means of the cam so as to bring wheel 11 into gear with g of the drivin g-shaft, and thereby, through the communicating wheels 9, 11, and l0 and s', operate the screw-rod S so as to lower the drill-arm by the power derived from the shaft O. When it is desired to raise the arm the rod T is turned to the right and `or of throwing the wheels 11 and 12 in and out of gear bymea-ns ofthe cam. Any equivalent device which will l operate the cap-piece Q in the manner described may be substituted.
F is the drill-arm pivot, constructed with shoulders or disks f j', which turn in corre-` sponding grooves or shoulders e e formed on theinner peripheries of the arm-socket E. These bearing disks or shoulders effectually support the arms, relieve the arm-*shaft from all strain, and leave it free to revolve without any pressure on its bearings. The arm is made, `to turn or rotate by means of the `screw-gearing 13 formed on the armpivot, engaging with the worm-shaft V jour-` naled in horizontal bearings secured across the under side ofthe arm-socket E, andprovided with a handle, lv, by turning whichlthe arm is made to revolve through the worm e engagingwith the gearing of the arm-pivot, as before stated. The arm F is made with a fiat bearing-surface, f f, and is provided with a longitudinal slot or opening, f' in which the arm-shaft W is journaled centrally in proper bearings, the shaft extending the whole length V *of the arm. The power is conveyed to the arm-shaft by means of a bevel-wheel, 14, keyed tothe vertical shaft R, so as to permit the shaft to rise and fall. This wheel 14 is placed within the arm-socket E, and gears with anj other bevel-wheel, 15, secured on the inner end of the arm-shaft, also within the arm-socket, as shown in Fig. 1. The drill-head pivot-plate H is made to slide back and forth on the drillarm, so as to operate the drill at a greater or less distance from the center `or revolving socket C. This adjustment is accomplished `byllneans of a screw-rod, h, provided witha handle, h', and. journaled to one side of lyre arm. It passes through a lug, h, or portio of the plate H, which is cut with a screw-thread, which engages with the screw h. B yturnin g th e `handle h the plate, and with it the drill-head Gr and the mechanism for operating the spindle, are adjusted back Vand forth on the arm, the shaftW being cut` with a longitudinal slot, in which the crown-wheel 16 is keyed, so`
as to slide back vand forth with the plate H. The plate H is also cutwith an annular slot, h, and centrally with a hole, hm', for the passage of a short shaft, X. The power is transmitted from the arm-shaft W to the drill-spindle socket I by means of the bevel-wheel 16 gearing with the bevel-wheel 17 secured to shaft X within the plate H, and by the crownwheel 18` secured on the other end ofthe shaft X, gearing with wheel19 of the spindle-socket I. The drill-head or spindle-frame Gis pivoted to the plate H by means of headed bolts g, which work in the annular slot h", as bcfore described, and by this means the drills can be adjusted to operate in any direction on a horizontal plane on the arm, and in connection with the revolving arm in any direction on a vertical plane, and by this means of pivoting the frame G all strain is removed from the shaft and gearing. The drill-spindle socket I, in addition tothe crown-wheel 19, is provided with a worm, 20, by means of which power is communicated to the feed-shaft K in the following manner: A short shaft', ,Y, is journaled to the frame G at right angles to and beneath the spindle-socket and feed-shaft. .On the end next the spindle-socket it is provided wit-h a gear-wheel, 21, which engages with the worm 20.` 0n the other end it is provided with a worm, 22, which engages with a gear-wheel, 23, on the feed-shaft. This wheel 23 is adjustably secured on the feed-shaft K vby friction by means of conical bosses k k', secured by an adjustable lock-nut, j, working on a screw-thread formed on the feed-shaft J. By this means the friction on the wheel 23 may be increased or lessened, as desired. The feedshaft K is journaled in bearings forming part of the drill pivot-frame G, and is provided Awith two gear-wheels, 24 and 25, of different sizes for different speed. These wheels gear with corresponding 'wheels 26and 27 keyed to the screw-sleeve J 25 gearing with 27 for quick feed; 24 with 26 for slow. The chan ge from slow to quick feed is effected by means of a sleeve, j having aworm or spiral slot, in which a pin, j, secured to bearing-frame G, works. The sleeve j is provided with a handle, j", which throws the feed-shaft X back and forth within its bearings.
This feeding apparatus mayr be operated either by hand or by power derived from the drill-spindle socket in the manner describedviz., through the worm 20, operating the shaft X, and the worm 22, operating the frictionwheel 23, which, when secured to the shaft K by bosses la k', operate wheels 24 and 26, or 25 and 27, and thereby the screw-sleeve J', which pushes the drill-spindle Vforward or draws it back when the power is reversed. When it is desired to operate the feed by hand instead by of power, the wheel 23 is released from the shaft by unscrewing the lock-nut j, which relieves it 'from the pressure of the conical bosses k k1, and allows it to turn freely on the shaft.` A hand-wheel, Z, is keyed to the end of the feed-shaft, by means of which the feed can be 'operated without connection with the driving mechanism. The adjustment of the gearing for fast or slow feed is the same, whether thefeed-shaft is operated by hand or by power. J is the drill-spindle, which revolves within the spindle-socket I, and within the screw-feed sleeve J it receives its motion from the spindle-socket by means of a key or pin, 75"", which en gages with a longitudinal slot cut iu the spindle., as shown at 7a4, Fig. 1.
Fig. 7 represents an attachment for slotting purposes or l'or striking interxnitting blows. When used in the machine the drill pivotframe G is removed, and the pivot-frame G' is putin its place, and secured in the same way, by the headed bolts g of the plate H; the bevel-wheel 1G then engages with the bevel-wheel 28 oi' the slottin g device, and operates the cam 29, which, through its connecting-rod 30 and pin or holt 3l, imparts an intermitting or striking motion to the slotting-shaft 32. The shaft 32 is made adjustable by means of a slot, 33, and a screw-rod, 34, which passes through the slot longitudinally, and through the pin or bolt 31, as shown in the drawing.
llhe operation of the machine is deem ed sut'- iciently obvious from the foregoing description, and with a machine so constructed and operated it must also be obvious that the 0peration of drilling' can be performed with like facility in any direction-vertical, horizontal, orto any point radiating from a given centeras from the center of a sphere, and that this universal adjustment of the drill can be aecomplished Without moving the base of the machine or the alterations of its driving meehanism in any particular. In metal-Working, besides being adapted for all ordinary drillwork, it may be used for drilling heavy castings without requiring them to be moved around. In ship-building such a machine may be used for drilling and boring along the hull of the ship, and be made to conform to the curve or sweep of its lines With the greatest facility. In tunneling it can be made to-drill at any point ofthe arch. In quarrying it may be moved to the edge and work the face of the rock beneath it 5 and for mining operations, from its universal adjustments and the protection afforded by the central arrangement of the shafts and gearing, it is deemed peculiarly adapted.
What I claim as my invention isl. J ointly, the tapering or conical form of the pillar B, the corresponding form of cylinder C, and the bevel form of the flanges a, as described.
2. The rod T, cam U, and pivoted cap Q, operating, in combination with the Wheels S', g, C110, 11, and l2, as and for the purpose speciv4 teaser 3. The arrangement and combination of the wheels 10, l1, and l2 and hinged cap Q with the wheel 9 and S', for turning or revolving the screw-rod S to the right or left, in the manner and for the purpose set forth.
et. The combination of cylinder C, arm F,
head F', worm V, and screw-gear 13, substantially as and for the purpose specied.
5. The rotatable arm F and socket E, in combination with the socket or cylinder O and pillar B, and shafts It, W, L, and O, with their connecting-gearing, arranged for operation, without change of gearing, substantially as set forth, for the purpose specified.
(i. The rotatable arm F and socket E, in combination with the head G and plate H, and shafts R,W, and X, with their connecting-gearing, arranged for operation substantially as and for the purpose specified.
7. The rotatable arm F and socket E, in combination with cylinder C and pillarB,head Gr, and plate H, and with shafts R, W, L, O,
' and X,with their connectie ggearing, arranged for operation substantially as and for the purpose specified.
8. The combination of the arm-socket E, constructed with shoulders e e', and the armhead F', with bearing-disks ff' and the bolts e", for the purpose of supporting the arm F Without strain upon the arm-shaft, substantially as set forth.
9. The drill-spindle socket I having Worm 20, the shaft Y having wheel 21 and Woringear 22, and the shaft K having wheel 23, all operating in combination, for the purpose specified.
10. The wheel 23, conical bosses 7c k1, and lock-nutj, operating, in combination with the iced-shaft K, for the purpose specied.
l1. The sleevej', having a handle,j"', and spiral slot, as described, in combination with the pin j", shaft K, and wheels 24 and 25, for the purpose specified.
12. The combination of shaft K, having adjustable Wheel 23 and sleeve 7", and Wheels 24 and 25, with screw-sleeve J' and wheels 26 and 27 for the purpose of feeding the drillspindle by power or by hand, and fast or slow, as desired.
WILLIAM HENRY J UDSON.
Witnesses:
A. MCCALLUM, P. B. STILsoN.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE955344C (en) * 1950-11-29 1957-01-03 Siemens Ag Mast light for fluorescent lamps

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE955344C (en) * 1950-11-29 1957-01-03 Siemens Ag Mast light for fluorescent lamps

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