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US1671575A - Power rail-drilling machine - Google Patents

Power rail-drilling machine Download PDF

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Publication number
US1671575A
US1671575A US731327A US73132724A US1671575A US 1671575 A US1671575 A US 1671575A US 731327 A US731327 A US 731327A US 73132724 A US73132724 A US 73132724A US 1671575 A US1671575 A US 1671575A
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rail
drill
machine
frame
drilling
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US731327A
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Edward A Everett
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NANDE Corp
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NANDE CORP
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    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01BPERMANENT WAY; PERMANENT-WAY TOOLS; MACHINES FOR MAKING RAILWAYS OF ALL KINDS
    • E01B31/00Working rails, sleepers, baseplates, or the like, in or on the line; Machines, tools, or auxiliary devices specially designed therefor
    • E01B31/02Working rail or other metal track components on the spot
    • E01B31/06Making holes, e.g. by drilling, punching, flame-cutting
    • 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
    • Y10T408/00Cutting by use of rotating axially moving tool
    • Y10T408/55Cutting by use of rotating axially moving tool with work-engaging structure other than Tool or tool-support
    • Y10T408/556Tool supporting wheel
    • Y10T408/5565Wheel-axis parallel to tool-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
    • Y10T408/00Cutting by use of rotating axially moving tool
    • Y10T408/55Cutting by use of rotating axially moving tool with work-engaging structure other than Tool or tool-support
    • Y10T408/561Having tool-opposing, work-engaging surface
    • Y10T408/5626Having tool-opposing, work-engaging surface with means to move Tool relative to other work-engaging structure along tool-axis

Definitions

  • This invention relates to a rail drilling machine operated by powerfor drilling the rails of a railway track and has for an object to provide a machine of this class which f will drill large holes in the web of the rail, which will drill the hole accurately in a marked centre, which will drill holes close to the ends of a single rail, which canbe readily rolled along the rail, which is easily positiondfor drilling and which can be quickly removed from the track.
  • Figs. 9 and v10 are details of the eccentric bearings for the rollers
  • Fig. 11 is a side elevation of the complete machine
  • Fig. 12 is a part eleva tion from the motor end
  • Figs. 13 and 1 1 are details.
  • a number of fea Y titres are embodied inthis'machine which are not found in the former.- These arebrought 8O aboutby the increased Weight and power of themachine, bythe necessity for drilling through a, marked point and by the necessity for quickly positioning the drill tovarfous sizes of rail and to 'varying conditions of track and ties so that the time required to operated and ren oved iromthe .track bytwo position the drill will not be out of propore tion to the time consumed in drilling the hole.
  • Fig.1 is the main frame of the machine which is mounted to roll upon the, rollers 13 and 14 on one rail of the track. The entire machine is balanced upon theserollers so that it can be moved along the trackwith comparatively.little effort.
  • dr awings,;l1, Fig. Strep ⁇ has right angle eXtensfions15 and 16..
  • the extension v15 supports the, gearing 1 and the drill and the extension 16 supports the engine or motor.
  • the feeding mechanism for the drill is housed in 17 and-18 is an. adjustable shoe whereby the elevation of the'drill is adjusted.
  • the ha dle 1-9 at one end of the frame andthe handles'20 and 21 at .theoppositeen'd enable'the machine to be lifted from the track by two men.
  • frame 16 is formed in a. T to supportlthe handl as indicated-at and 25 is the b d moi the engine or motor 23 having the fly wheel 24 and connected. to the driving shaft 26.
  • Thedrill'feeding mechanism is housed in the casing 51 and comprises a sliding'member 52in which the endlof the spindle 53 rotates. 'This spindle is-securedby the nut 54 at the end to the sliding member and a thrust ball bearing 55 is introduced between the sliding member 52 and the spindle'37.
  • the rack bar56 is. secured to the sliding member 52 and is the medium "by which the sliding moi e d towards or. away from the drillingposition.
  • the periphery of this wheel is corrugated so that it may be graspedfirmly by the hand.
  • Gear 62 is protected by a cover 67 by which it is entirely enclosed.
  • tappet 71 engages' 'fll and is raised thereby releasing the pawl 66 and ⁇ enabling the drill to be 'moved by the handwheel-(il.
  • the drilling mechanism is 'supportedby the shoe 18 Fig.- 11 which rests upon the ties.
  • the thrust from the drill is taken-up by 8 mounted on shaft 86 and sup-Z I the quadrant'91, Fig. 3; -Thezend o-f 'this I quadrant engages the rail, on line a opposite the drill and is forkedat 92 as indicated by the shaded'lines'so thatr'the drill can pass between the legs of the fork.
  • "Thefqu'adrant 91 is mounted on ,shaft-93, ;Fig. 1 and; is
  • the quadrant is'lowered itis auto mat-ically latched in the lowered position by the plunger'lOt-i working in the boss 102'and engagmgm hole 103' Fig. 14: in thefquadrant.
  • This plunger is held in the engaging position by the spring 104 and is released by the arm 105. which is pivoted'at 106 and] operated the arm107; 111m 105 isforked on the end to engage the bent over end of plunger 103. Pressure applied to 107' to withdraw plunger 1 03. permits the quadrant t return'to the raised position instantly.
  • a latch 113 is provided having a plunger working 115, and
  • the clamping member is slot-ted-onits" longitudinal centre and is tightly clamped onl26 by the locking wheel 129.
  • the wheel 130 performs the samefunction for clam ingmember 124.
  • a toothed quadrant 131 is-secured to the frame. 'Thisquadrant has its centre on shaft122and' holds the clamping lever 123 iii-position by means of the latch 133 pivoted'at 134 and engaging the quadranhait 135.;- Thisflatchiis released by the latch rod 132.
  • the height of the frame above the rail head is determined by the rollers 13 and 14. For this purpose these rollers are provided I with eccentric bearings having a quick method of adjustment. The detail construc tion of this hearing is shown in Figs. 9 and 10.
  • the roller'shaft 141 is carried by the eccentric disc 142 which is provided with a flange 143 engaging .the frame 144.
  • a toothed quadrant 145 is also secured to this frame.
  • a projected bracket 146 formed in tegral with the eccentric disc has a jaw 147 in which the toothed latch'148 is pivoted to engage the toothed quadrant 145.
  • a lever handle 149 is secured to 1.46 and a plunger 150 in this handle releases the latch 148 so that'the eccentric may be rotated 1n the tral'l'y between them.
  • a COlleSPOlTCllIlg" eccentric 13 mounted, on. the opposite" end of shaft 141 and “rotates therewith.
  • Thequa'drant 91 islowered and latched and the/clamping lever is operated to clamp the rail head.
  • the drill isknow brought up to thewdrilling position the handwheel 61 and afterthemotor is started it is fedby lever 65. One movement of this lever, will feed. the-drill through the web of the rail.
  • Fig. .3 operates the threadeds'tem 157 which i mu head.
  • a locking disc 159'i's provided to v lock screw 157 against turning from the vibration of the'machine;
  • The'p0int15'8 there H i loo The pressure on the drill is regulated by this lever as desired.
  • the feedlever is movedto the starting position which unlatches' it fromthe feed mechanism a'ndthe drillis moved' away from the rail by hand wheel61; .
  • the quadrant 91 is'then unlatched and the'clamping lever 123 released when the machine is free to be moved as desired.
  • a quadrant pivotally connected to said frame and arranged to engage said IZl-ll opposite sa1d drill, ⁇ said quadrant having a normal tend ency to raise-its rail engaging end above the in the engaging I AgInfa machine for drilling rails of a -way: track, mounted on a frame 4 drill for drilling the web of the rail, a quadrant pivotally connected tosaid frame and arranged to engage said rail opposite said drill and a latch operating automatically for holding said quadrant 1n the engaging position and means for releasing said latch.
  • a frame means supporting the frame and allowing it to roll along supported by one rail only of the track; two studs passing; through the frame; means to adjust the studs vertically so that they may be made to bear on the top of*the rail andffree the first mentioned means from the rail; means partly positioned on one side of the rail and partly positioned on the'other side of the rail and bearing on the trackwa-y for stea'dying and isupportin'g the ends of the frame; a drill having its line of action substantially midway between the studs and means for operating thedrill carried bythe frame.
  • a frame substantially in the formof across; means con-I nect'edtof the ends of one of the members of thecross for supporting and rolling'the frame along one rail of the railway track;
  • a drilling mechanism attached to the other member on one side ofthe first mentioned member and a motor attached tothesecond member on the other side of the first men tioned member, means connecting the drilling mechanism with the motor; pivoted means attached to the framefon the same side asthemotor for bearing on the Web of the railon each side of and closely adjacent to'substantially the line of action of the drilling mechanism and means for clamping the frame to therail attached to the frame on the same side as the drillingflmechanism.
  • a frame having a portion positioned at a right angleto the rail and extending on bothsides of the rail; means attached to the, frame on one side of the rail for clamping the frame to the rail-and meansattached to the frame on the otherside of the' rail manually 015%, erable to bear against theyweb of" the rail, and manually'operable'means for releasing said first named means and means for auto matically moving'it free of the rail.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Machines For Laying And Maintaining Railways (AREA)

Description

May 29, 1928. 1 1,671,575
' E. A. EVERETT POWER RAIL DRILLING MACHINE Filed Aug. 11, 1924 6 Sheets-Sheet 1 55 a; /3 55 I i 74 m WI 4 5 22 f EIIIIILIH: mumm Z? I Fu 2/ May 29, 1928. 1,671,575
E. A. EVERETT POWER RAIL DRILLING MACHINE Filed Aug. 11, 1324 SSheets-Shet 5 1,671,575 E. A EVERETT PQWER RAIL DRILLING MACHINE Filed Aug. 11, 1924 6 Sheets-Sheet 5 May 29, 1928.
mm V Mt w my Rb Q Q i w O m o o d, E I N WW Q 2 Q \N \N \W\ Qk H. Q.-
4 \Q\. E W .m mm MN V m ,QN w m ww I. ,m m r May 29, 1928. 1,671,575
E E. A. EVERETT POWER RAIL DRILLING MACHINE F i1ed Aug. 11, 1924 6 Sheets-Sheet 6 INVENTOR.
A TTORNE Y.
Patented May 29, 19.28.
'unirn stares was,
I EDWAFRD A. EvI'inETf'r, 03mm .IsLAni) CITY, New Yo'itK, AssIGnoR To-NAtTDE coitronAErIoN', .d. lconronn'rion or new YORK. 1
rowan" Bait-DRILLING MAGHINE.
Application fiieai ugustin 1924. Serial No. v7a1,3e7.
' This invention relates to a rail drilling machine operated by powerfor drilling the rails of a railway track and has for an object to provide a machine of this class which f will drill large holes in the web of the rail, which will drill the hole accurately in a marked centre, which will drill holes close to the ends of a single rail, which canbe readily rolled along the rail, which is easily positiondfor drilling and which can be quickly removed from the track. These and other objects of the invention. will be more fully understood from the following chine and Fig. 2 is an elevation. Fig. 3
adjusting the supp'ortingshoe, Figs. 9 and v10 are details of the eccentric bearings for the rollers, Fig. 11 is a side elevation of the complete machine, Fig. 12 is a part eleva tion from the motor end and Figs. 13 and 1 1 are details. l I
Modern railroads designed for heavy trai fie are laid withv rails weighing from 100 to 135 lbs. to the yard and have a 'web of approximately in thickness. It .is found that these rails wear more rapidly at the ends where the wheels pass :Erom one rail to the other'than elsewhere andthis has led to a process of cropping rail in order to extend *its life. Cropping consists in cutting off a portion of the end of the rail where it is V worn and providinga new set .of holes for can the splice bars so thatithe rail'can be relaid after the worn portion is removed. I
- Heretotorera'ils have been taken up from v the track and removed to a machine shop where the ends are sawn ofliand the rail is redrilled preparatory to its relaying. The
ends are now burned off with an oxy-acetylene torch without taking up the rails butit is not-economical to drill the ends with hand drills} The power operated. drill, of the P t .we i qn, enables the ra l t be specification and the accompanying drawings; in which, Flg'. 1 is a plan View ,of'the 1na-.
drilled in the track or on the end of the ties thereby eiiecting great economies in this process of rail cropping. This machin'ejis' "rsnr creme.
equippedwith a P. n1otor.and .will drill v a one and one half inchlhole in-a 135 lb. rail in one and t'hjree quarter minutes. It weighs approximately, 350 lbs. and caneasilybe men. It will drill rails thatare' laid forms ing part'o'f the running track or it will drill: i
rails that are setup on the ends of the ties preparatory to laying or it will drill a single is readily disengaged from the rail and removed in an emergency such as might arise in clearing the track for an approaching train. I I v w This invention is designed along the lines shownin U. S. Patent,1,42 1,194-,, issued in my name on June 27,1922. A number of fea Y titres are embodied inthis'machine which are not found in the former.- These arebrought 8O aboutby the increased Weight and power of themachine, bythe necessity for drilling through a, marked point and by the necessity for quickly positioning the drill tovarfous sizes of rail and to 'varying conditions of track and ties so that the time required to operated and ren oved iromthe .track bytwo position the drill will not be out of propore tion to the time consumed in drilling the hole.
Referring to the resents the end section of a} railway rail,- 12, Fig.1 is the main frame of the machine which is mounted to roll upon the, rollers 13 and 14 on one rail of the track. The entire machine is balanced upon theserollers so that it can be moved along the trackwith comparatively.little effort. The 'IEI21I116.,12
dr awings,;l1, Fig. Strep} has right angle eXtensfions15 and 16..
The extension v15 supports the, gearing 1 and the drill and the extension 16 supports the engine or motor. The feeding mechanism for the drill is housed in 17 and-18 is an. adjustable shoe whereby the elevation of the'drill is adjusted. The ha dle 1-9 at one end of the frame andthe handles'20 and 21 at .theoppositeen'd enable'the machine to be lifted from the track by two men. The
frame 16 is formed in a. T to supportlthe handl as indicated-at and 25 is the b d moi the engine or motor 23 having the fly wheel 24 and connected. to the driving shaft 26.
vThe gear transmission fromthe motor to the drill spindle is shown in Fig. 4;. The
engine or motor shaft is indicated by 26 upon which the gear 27 is mounted; this thebevel gear '32 at the opposite end. gear engages the bevel gear 33 mounted upon gear engages 28 which is mounted integrally with the gear 29 which engages 80 mounted upon the horizontal shaft 31 wh ch carrles This the vertical shaft 34: which, at the lower end,
carries the bevel gear 35 which engages the bevel: gear 36 rotating on the axial line of the Ydrill.
' drive and as shown has areduction of about 18' to 1 between the engine shaft and This gear transmission provides a postive the ,drill'spindle. The gears are supported the covers? by the gear case lil which is provided with The bevel gears are, enclosed by'the cover i l and the'bevelgearson the drill spindle are enclosed by the casting 15. The drill spindle 37 has a spline 88 -which engages the bevel gear '36 causing the drill-39 to rotate therewith. The drill 39 is secured in the chuck 40 and the spindle rotatesin the-bearing 4:1. 16, 417 and 48 Fig". aroma an upstanding pipe rail by means of which the machine may be guided upon the track and-also forms a convenient support for the engine or motor controls which are not-shown-in the drawings.
Thedrill'feeding mechanism is housed in the casing 51 and comprises a sliding'member 52in which the endlof the spindle 53 rotates. 'This spindle is-securedby the nut 54 at the end to the sliding member and a thrust ball bearing 55 is introduced between the sliding member 52 and the spindle'37. It will be noted from that the rack bar56 is. secured to the sliding member 52 and is the medium "by which the sliding moi e d towards or. away from the drillingposition. The periphery of this wheel is corrugated so that it may be graspedfirmly by the hand.
On; the V shaft 59 the gear wheel '62 is mounted. This wheel is much larger in' diameterthan 58and through its operation a considerable leverage is obtained'against the. working of the drill.
Gear 62 is protected by a cover 67 by which it is entirely enclosed.
I Rotatably mounted uponthesh'aft'59 is the bracket 63 supporting the socket 6 1 of the feeding'handle 65. This handle is provided w th a pawl 66 by means of which it maybe latched to the gear 62 so'that the handle and gearmove together, or it maybe unlatched so that the feeding handlecan be moved independently of 62. ;The pawl 66 is operated by the latch rod 69'and is nor* mally held inengagement with coilspring 68- The latchr0d can be released manually bythe latch rod handle 70 audit is also released automatically when the feed handle is in a predetermined posi- "10' l 62 by the tion by the tappet 71, pivotedat 72 to the, w
Socket 6 1 and pivotally connected {withathe latch rod at 73. When the feed ;lever.;i s
moved to the left as-=indicated-inFigs and 11, tappet 71 engages' 'fll and is raised thereby releasing the pawl 66 and {enabling the drill to be 'moved by the handwheel-(il.
The tappet releasing member. 7 l1is. secured at 75 to the gear case as shownlinFigs-1, &
and 11 and-releases the feedhandle when.
the latter, is-thrown forward. y
. In using this machine the-holes are centre punched and are drilled accuratelyyto positionJ-The' drill must be operatedat right angles to the rail asindicated byilin'e. a Fig.
3. The drilling mechanism is 'supportedby the shoe 18 Fig.- 11 which rests upon the ties.
of the track. Considerable variation exists bet-ween'the ties and the rail and in order to obtain"v the propervposition of the drill with relation tothe rail, it is necessary to so I make frequent adjustments of the position 0f the shoe 18. This shoe is pivotedjona shaft 81 toIthe projection-82 of the casting 51,]as shown in Fig.- 6.. A' lug' 83 formed integral with 18 is developedninto a worm quadrant-84c. This is engaged by the worm 88, Fig. ported bybralcket'85. .Turninghan'dle 87 adjusts the position of 18 with amicro'meter adjustment. q
The thrust from the drill is taken-up by 8 mounted on shaft 86 and sup-Z I the quadrant'91, Fig. 3; -Thezend o-f 'this I quadrant engages the rail, on line a opposite the drill and is forkedat 92 as indicated by the shaded'lines'so thatr'the drill can pass between the legs of the fork. "Thefqu'adrant 91 is mounted on ,shaft-93, ;Fig. 1 and; is
normally raised as indicated at'108 Fig.1?)
by the coil spring 94. This holds the :quadrant clearof the rail and the splice bars andbolts as the machine is moved 'on'its-rollers. The. quadrant is lowered to the position shown in Fig. 3 by means of the pedal 100 and bar99 bolted to the bracket 98 whichis free to turn on shaft93. A lug 97 'onthis bracket engages a lug 97 on collar which.
turns shaft. 93 and lowers "the quadrant.
When thepedal is released it is returned 'to its normal. position by." the spring 101.
lVhen' the quadrant is'lowered itis auto mat-ically latched in the lowered position by the plunger'lOt-i working in the boss 102'and engagmgm hole 103' Fig. 14: in thefquadrant. This plunger is held in the engaging position by the spring 104 and is released by the arm 105. which is pivoted'at 106 and] operated the arm107; 111m 105 isforked on the end to engage the bent over end of plunger 103. Pressure applied to 107' to withdraw plunger 1 03. permits the quadrant t return'to the raised position instantly.
. lllis pivot-ally .connectedto theframe 16 as Adetailed plan view'of this-mechanism is shown in F g. 13.
In orderthat the machine may be properly supported when on the ground, afoot shown. in Figs, .1 5111(13. This foot is level with the rail and in combination with the shoe 18 forms a rigid support. It is neces- I sary to turn the foot out of the way when the machine is placed on or operated on the rail, For this purpose a latch 113, is provided havinga plunger working 115, and
'engagingholes inthe frame 16 such as 114.
hen the latch 113 engages 114 the foot is positioned on line b F i 3 and as shown in Fig.11.' Y
a The machine is clamped to the rail by the mechanism shown in Fig- 3. Lugs .121 projecting from the frame 12, Fig. 1, form. the bearings for shaft 122 upon which the clamp ing arm 123 is mounted, also the clamping members 124 and 125,. screw 126 adjusted by the knob 127 is screwed into each of the clamping members. These screws terminate in spheres 128 which engage the head of the rail as shown and can'be adjusted to engage below the rail head and thus assist in hol ding the machine down on thetrackor can be adjusted to engage the side of the rail or to take up a position between. these points.
The clamping member is slot-ted-onits" longitudinal centre and is tightly clamped onl26 by the locking wheel 129. The wheel 130 performs the samefunction for clam ingmember 124. A toothed quadrant 131 is-secured to the frame. 'Thisquadrant has its centre on shaft122and' holds the clamping lever 123 iii-position by means of the latch 133 pivoted'at 134 and engaging the quadranhait 135.;- Thisflatchiis released by the latch rod 132.
1 The height of the frame above the rail head is determined by the rollers 13 and 14. For this purpose these rollers are provided I with eccentric bearings having a quick method of adjustment. The detail construc tion of this hearing is shown in Figs. 9 and 10. The roller'shaft 141 is carried by the eccentric disc 142 which is provided with a flange 143 engaging .the frame 144. A toothed quadrant 145 is also secured to this frame. A projected bracket 146 formed in tegral with the eccentric disc has a jaw 147 in which the toothed latch'148 is pivoted to engage the toothed quadrant 145. A lever handle 149 is secured to 1.46 and a plunger 150 in this handle releases the latch 148 so that'the eccentric may be rotated 1n the tral'l'y between them.
frame 144 until the frame is at the desired height when} itis locked in position by the latch 148. A COlleSPOlTCllIlg" eccentric 13 mounted, on. the opposite" end of shaft 141 and "rotates therewith.
It .Will be noted from Fig. 1 that the roll drilledcl oseto the end "of the rail it is appaircnt that one of the rollers will overhang the rail and if there isno adjacent railthis roller will have no support. Inorder to j I operate the machine under these conditions the leveling screws operated by the hand wheels and 156, Fig. 1 are provided. Thesescrews, it will be noted, are located close to the centre of the machine and therefore close to the drill. The hand wheel 156',
terminatesin the' point 158 engaging the fore, holds the'machinefin its'properr'elw tion to the ,rail' whenone ofjtherollersare projecting. beyond the rail.'
the rail and itsheight above therail 'is adjusted by the eccentrics'of the rollers until the point of the drill aligns withthe marking for the hole, The drill is then levelled by. turning theshoe 18 with the handle 87.
Thequa'drant 91 islowered and latched and the/clamping lever is operated to clamp the rail head. The drill isknow brought up to thewdrilling position the handwheel 61 and afterthemotor is started it is fedby lever 65. One movement of this lever, will feed. the-drill through the web of the rail.
in operation the machine is placedfupon Fig. .3 operates the threadeds'tem 157 which i mu head. A locking disc 159'i'sprovided to v lock screw 157 against turning from the vibration of the'machine; The'p0int15'8 there H i loo The pressure on the drill is regulated by this lever as desired. When the drilling is completed or when the machine is to be moved, the feedlever is movedto the starting position which unlatches' it fromthe feed mechanism a'ndthe drillis moved' away from the rail by hand wheel61; .The quadrant 91 is'then unlatched and the'clamping lever 123 released when the machine is free to be moved as desired.
The preferred embodiment of my inven tion is shown in the drawings but itis apparent that the details of the construction intent and spirit of the invention.
Having thus described my invention, 1
claim:
- can be modified without departing from the 1. In a machine for drilling rails of a railway track, the combination of a mechanism mounted upon a frame arranged to roll up-I v on a rail of the track, sald frame havlng pro ections at right angles to -said rail, one
projection supporting the-drilling m'echanism and resting upon a shoe and the other projectionsupporting a motor and having.
afoot pivot-ally*connected thereto, means v whereby said foot may be moved above the plane of said, rail and a latch for holding said foot in position.
' 2 In a machine for drilling rails of a railwvay track, the combination of amechanism mounted on agframe and operating a drill for drilling the web of said rail a quadrant pivotally connected to said frame and arranged to engage said IZl-ll opposite sa1d drill, {said quadrant having a normal tend ency to raise-its rail engaging end above the in the engaging I AgInfa machine for drilling rails of a -way: track, mounted on a frame 4 drill for drilling the web of the rail, a quadrant pivotally connected tosaid frame and arranged to engage said rail opposite said drill and a latch operating automatically for holding said quadrant 1n the engaging position and means for releasing said latch.
5. In a machine for, drilling a rail of a railway track, in combination; a frame; means supporting the frame and allowing it to roll along supported by one rail only of the track; two studs passing; through the frame; means to adjust the studs vertically so that they may be made to bear on the top of*the rail andffree the first mentioned means from the rail; means partly positioned on one side of the rail and partly positioned on the'other side of the rail and bearing on the trackwa-y for stea'dying and isupportin'g the ends of the frame; a drill having its line of action substantially midway between the studs and means for operating thedrill carried bythe frame. 7
6. In a machine for drilling a rail of a railway track, in combination; a framesubstantially in the formof across; means con-I nect'edtof the ends of one of the members of thecross for supporting and rolling'the frame along one rail of the railway track;
a drilling mechanismattached to the other member on one side ofthe first mentioned member and a motor attached tothesecond member on the other side of the first men tioned member, means connecting the drilling mechanism with the motor; pivoted means attached to the framefon the same side asthemotor for bearing on the Web of the railon each side of and closely adjacent to'substantially the line of action of the drilling mechanism and means for clamping the frame to therail attached to the frame on the same side as the drillingflmechanism.
7 In a machine for drilling a rail of a railway track, in combination; a frame hav ing a portion positioned at a right angleto the rail and extending on bothsides of the rail; means attached to the, frame on one side of the rail for clamping the frame to the rail-and meansattached to the frame on the otherside of the' rail manually 015%, erable to bear against theyweb of" the rail, and manually'operable'means for releasing said first named means and means for auto matically moving'it free of the rail. I I '8. In a machine for drilling the rails of a railway track the c'ombination'of a mechanism mounted upon a frame arrangedto rollupon a rail of the track,"saidframehaving projections at right angles to said rail one projection supporting the drilling Inechvs5 anism "and having a shoe thereunder for supporting it with 'me'ansfor adjusting the height of said shoe and the other projection supporting a motor having'a'foot pivotally connected theretm'means whereby said foot I may be moved above the plane of said rail and a latch for holding said foot in position. Signedat New York in the county of New York and State of New York this 25th dayof JulyAJD. 19241. EDWARD A. EVERETT;
US731327A 1924-08-11 1924-08-11 Power rail-drilling machine Expired - Lifetime US1671575A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0644295A2 (en) * 1993-09-21 1995-03-22 CEMBRE S.p.A. Drill for drilling rails and track rigs for railroad applications
US5632577A (en) * 1993-09-21 1997-05-27 Cembre S.P.A. Drill for drilling rails and track rigs for railroad applications

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0644295A2 (en) * 1993-09-21 1995-03-22 CEMBRE S.p.A. Drill for drilling rails and track rigs for railroad applications
EP0644295A3 (en) * 1993-09-21 1995-08-30 Cembre Spa Drill for drilling rails and track rigs for railroad applications.
AU672523B2 (en) * 1993-09-21 1996-10-03 Cembre Spa Drill for drilling rails and track rigs for railroad applications
US5632577A (en) * 1993-09-21 1997-05-27 Cembre S.P.A. Drill for drilling rails and track rigs for railroad applications

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