US1614040A - Forging machine - Google Patents

Forging machine Download PDF

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Publication number
US1614040A
US1614040A US531207A US53120722A US1614040A US 1614040 A US1614040 A US 1614040A US 531207 A US531207 A US 531207A US 53120722 A US53120722 A US 53120722A US 1614040 A US1614040 A US 1614040A
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blank
die
forging machine
movable
forging
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US531207A
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Sven T Nelson
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Sullivan Machinery Co
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Sullivan Machinery Co
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21JFORGING; HAMMERING; PRESSING METAL; RIVETING; FORGE FURNACES
    • B21J9/00Forging presses
    • B21J9/02Special design or construction
    • B21J9/06Swaging presses; Upsetting presses
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21KMAKING FORGED OR PRESSED METAL PRODUCTS, e.g. HORSE-SHOES, RIVETS, BOLTS OR WHEELS
    • B21K5/00Making tools or tool parts, e.g. pliers
    • B21K5/12Making tools or tool parts, e.g. pliers other cutting tools

Definitions

  • lily invention relates to forging machines, and more particularly to forglng machines of the type adapted for use in the sharpening of cutter bits for chain type coal mining machines.
  • An object of my invention is to provide an improved forging machine. Another object of my invention is to provide an improved forging machine having improved adjust-- ing means whereby the blanks may be very speedily handled. A further object of my invention is to' provide an improved forging machine having suit-able adjustment for wear. Other objects and advantages of my invention will hereinafter more fully appear.
  • Fig. l a central vertical section through the illustrative embodiment of my invention.
  • Fig. 2 is a view in section similar to Fig. l of a portion of the illustrative form of my improvedmechanism on anenlarged scale.
  • Fig. 3 is a front elevation with parts broken away showing details of construction.
  • a forging machine come p1.
  • a main frame 1 supported upon suitable leg members 2-and comprising a reciprocable cross head or ram 3 movable in guides 4 and reciprocated by means of a crank shaft 5 whose crank pin 6 is connected by a connecting rod 7 to the cross head 3.
  • a suitable driving pulley 8 of large size, whereby it may serve as a fly wheel and store and give up energy at appropriate times, is fixed to the crankshaft 5.
  • a suitable heavy casting 10 which provides bearings for a shaft 11 upon which a rotatable die 12 is mounted, this die being formed as shown in Fig.
  • the cross head 3 is cutaway at its lower side to form a socket in which a wedge 19 is adjustably mounted, the wedge being pro.- vided as indicated in Fig. 3 with lateral guiding: gib s 20 which cooperate with guides 21 bolted to the bottom of the cross head.
  • gib s 20 which cooperate with guides 21 bolted to the bottom of the cross head.
  • abut ment 22 which cooperates with an adjusting screw 23 threadedl-y engaged withthe wedge.
  • This screw is operative on rotation to adjust the wedge 1.) longitudinally in the crosshead 3 in such manner as to cause a blank 15 engaged by the inclined portion 2 f to be protruded further above the upper surface of the cross head 3.
  • the screw 23 may be connected for purposes of illustration a key-way 25 formed along hollow bore 2.6, in the screw and with this key-way a spline; 271' on a stationary shaft- 28,'wh;ich is.- rotatable by a hand. wheel 29' (seeFig. l) which is held against longitudinal movement, cooperates. It will be obvious that as the hand wheel 29. is rotated the spline 27; cooperating with the key-way 25. will rotate the screw: 23 and so either. positively feed the member 19 for.- ward while permitting. it to; be moved backward with the construction shown, or feedingit in opposite directions positively if the sleeve and collar connected to the abut ment '22 is employed.
  • a die rotating on a stationary axis, a ram reciprocating in a linear path substantially tangential to a circle concentric with said die, a blank supporting means including a die, and blank adjusting means carried by said ram.
  • a die rotating on a stationary axis, aram reciprocating in a linear path substantially tangential to a circle concentric with said die, an adjustable blank supporting means including a die, and an adjustable blank supporting means carried by said ram having a plurality of operative positions.
  • a rotatable die supported on a stationary axis, a ram guided for rectilinear movement, a blank supporting means including a die carried by said ram, said die being adapted to support abit face, and means for moving said ram and blank supporting die in a path to cause them to cooperatewith said first mentioned die.
  • a rotatable die supported upon a stationary axis, a ram, an adjustable die thereon, means for supporting'a blank in contiguity with said last mentioned die, means for adjusting said supporting means in a plurality of operative p0siti0ns,and means for reciprocating said ram in a linear path.
  • adjustable die thereon, means for supporting a blank in contiguity with said last mentioned die, means for adjusting said supporting means carried by saio ram, and coop- ,ratiug means carried by a stationary part of said forging machine for adjusting said adjusting means.
  • forging die and blank carrier members means for causing relative movement between said members, and adjusting means for a blank including a member carried by a member of said first mentioned members which is necessarily movable during forging.
  • a forging die a blank support, means whereby a blank in said support may be operated upon by said the, and positive adjusting means for said blank operable at will and including stationary and movable members, said lattermember always being in motion during the actual forging operation.
  • a normally movable blank support carrying a member movable vith and relative thereto, and means for" moving said member including relatively movable men'ibers, one of saidlast members being adapted to be operative or inoperative during movement of said support;
  • a normally movable blank support and means for at will feeding and adj listing a blank carried by said support and during forging thereof, said means including members adapted to have relative movement, one of'said members having means adapted to abut the end of the shank of a bit blank. 13.
  • a blank support .always movable when operative means for moving said support, blank adjusting means including members slidable relative to each other during normal forgingoperations, and means for actuating the same including members angularly and linearly movable rel- 'ative to each other.
  • a blank support including a plurality of blank engaging members, one being always continuously movable in a direction transverse of the blank during a forging operation and the other movable during forging positively to effect longitudinal movement of the blank.
  • a blank support including a plurality of blank en-- gaging members, one being always continu- Lil comprising a wedge movable to effect longitudinal movement of the blank and engaging the opposite end of the blank.
  • a movable carrier in a forging machine, a movable carrier, blank supporting means carried thereby, and means connected to said blank supporting means for effecting positive adjustment of the latter during movement of said carrier.
  • a movable car rier In a forging machine, a movable car rier, blank supporting means carried thereby, and means connected to said blank supporting means for etlecting positive adjustment of the latter during n'ioven'ient of said carrier including a member adapted to have a normally fixed relation relative to said carrier.
  • a movable carrier In a forging machine, a movable carrier, blank supporting means carried thereby. and means connected to said blank supporting means for effecting positive adjustment of the latter during movement of said carrier including a member adapted to have movement relative to said carrier.
  • a movable carrier In a forging machine, a movable carrier, blank supporting means carried thereby, and means connected to said blank sup able in a substantially straight path, blank supporting means carried thereby, and means connected 'to said blank supporting means for effecting adjustment of the latter during movement of said carrier.
  • a movable carrier In a forging machine, a movable carrier, blank supporting meansincluding a mcz'nber movable with said carrier, and means connected to said blank supporting means for effecting positive adjustment of the latter during movement of said carrier.
  • a carrier movnllc in a substantially straight path a blank supporting means including a member movable With said carrier, and means connected to said blank supporting means for effecting adjustment of the latter during movement of said carrier.
  • 26- ln a forging machine, blank supporting means, and-means connected to saidv blank supporting means for effecting adj ustment of the latter including telescopic members.
  • blank supporting means and means connected to said blank supporting means for effecting adjustment of the latter including telescopic members, one of which comprises a screw.
  • a blank support, and means for adjusting a blank carried thereby including slidably telescopic members, one of which is longitudinally fixed.
  • a blank support, and means for adjusting a blank carried thereby including slidably telescopic members, one of which is longitudinally fixed but rotatable.
  • a blank support, and means for adjusting a blank including telescopic members, one of which is longitudinally and rotatably movable.
  • roller die means for supporting a blank with its longitudinal axis angularly disposed to the path of movement, and relatively stationary roller die means having portions adapted to form opposite sides of the cutting portion of'a cutter bit.
  • a forging machine having a blank carrier movable in a substantially straight path throughout its entire movement, relatively stationary freely rotatable die means having portions adapted to form opposite sides of the cutting portion ofa cutter bit, and a raised die movable with said carrier to form the cutting face of said bit.
  • V 34111 a cutter bit forging machinp, a member reciprocating in a linear path, means thereon for positively carrying a bit I an blank in each direction of movement thereof,.and cooperating die means for forging the bit portion as it reciprocates.
  • a forming die comprising a rollerrotatable on a tired axis and having a groove in the periphery thereof, and a rectilinearly movable raised die formed to cooperate with the portion of the bit.
  • forming die having a groove which substantially conforms to the cutting portion of the bit, a raised die formed to cooperate with the groove in said die to shape the cutting portion of the bit, and means for effecting rectilinear movement of said raised die relative to said grooved forming die.

Description

, FORGING MACHINE I Filed Jan. 23, 22
retain-e SVEN T, NELSON, QE CHICAGO, ILLQNQIS ASfiICtNQB. TO. SULLIVAN. MACIiIIfIERY G I AN Q a sr- RM N OR. Mew-se ame 7 Fonenve Maonrnn.
Application filed January 23-. 1322; Serial No 531 207.
lily invention relates to forging machines, and more particularly to forglng machines of the type adapted for use in the sharpening of cutter bits for chain type coal mining machines.
An object of my invention is to provide an improved forging machine. Another object of my invention is to provide an improved forging machine having improved adjust-- ing means whereby the blanks may be very speedily handled. A further object of my invention is to' provide an improved forging machine having suit-able adjustment for wear. Other objects and advantages of my invention will hereinafter more fully appear.
in the accompanying drawings 1 have shown for purposes of illustration one form which my invention may assume in practice.
in these drawings,
Fig. l a central vertical section through the illustrative embodiment of my invention.
Fig. 2 is a view in section similar to Fig. l of a portion of the illustrative form of my improvedmechanism on anenlarged scale.
Fig. 3 is a front elevation with parts broken away showing details of construction.
In the embodiment of my invention which I. have selected for purposes of illustration there will be noted a forging machine come p1. sing a main frame 1 supported upon suitable leg members 2-and comprising a reciprocable cross head or ram 3 movable in guides 4 and reciprocated by means of a crank shaft 5 whose crank pin 6 is connected by a connecting rod 7 to the cross head 3. A suitable driving pulley 8 of large size, whereby it may serve as a fly wheel and store and give up energy at appropriate times, is fixed to the crankshaft 5. Mounted upon the top of the guides is a suitable heavy casting 10 which provides bearings for a shaft 11 upon which a rotatable die 12 is mounted, this die being formed as shown in Fig. 3, with a peripheral groove 13 of a section corresponding to the desired shape of the end of the bits or blanks which are to be treated thereby. It will be evident that the die 12 is free to rotate but held against longitudinal or lateral movement *by its mounting. Carried by the ram or crosshead- 3 and adjacent a slot 14 which is shaped to receive a blank 15 is an adjustable die member 16 of a shape to substantially fill the groove 13 and to sustain the projecting end of. a blank during forging. An adjusting screw 1? cooperating with a stationary member 18 secured to the ram permits the adjustment of the die 16 as wearoccurs.
The cross head 3 is cutaway at its lower side to form a socket in which a wedge 19 is adjustably mounted, the wedge being pro.- vided as indicated in Fig. 3 with lateral guiding: gib s 20 which cooperate with guides 21 bolted to the bottom of the cross head. Dependingfrom the crosshead 3 is an abut ment 22 which cooperates with an adjusting screw 23 threadedl-y engaged withthe wedge. This screw is operative on rotation to adjust the wedge 1.) longitudinally in the crosshead 3 in such manner as to cause a blank 15 engaged by the inclined portion 2 f to be protruded further above the upper surface of the cross head 3. It will be obvious that instead of simply employing. an abutment as shown at 22 the screw 23 may be connected for purposes of illustration a key-way 25 formed along hollow bore 2.6, in the screw and with this key-way a spline; 271' on a stationary shaft- 28,'wh;ich is.- rotatable by a hand. wheel 29' (seeFig. l) which is held against longitudinal movement, cooperates. It will be obvious that as the hand wheel 29. is rotated the spline 27; cooperating with the key-way 25. will rotate the screw: 23 and so either. positively feed the member 19 for.- ward while permitting. it to; be moved backward with the construction shown, or feedingit in opposite directions positively if the sleeve and collar connected to the abut ment '22 is employed. It will also be obvious that instead of using. the particular operatingmeans for the screw shown, it would be possible to. attach a shaft to the screw and provide a key-way in the shaft which would cooperate with a key on the wheel 29 as the shaft reciprocated through the wheel. I prefer however, to employ the construction illustrated herein as there is no danger to the workman from an alternately retracted and projected member.
From the foregoing description of my in vention, its mode of operation will be readily apparent; 'A blank is inserted in the slot 14 and by turning the hand wheel 29 the screw 23 is caused to move the wedge 19 longitudinally of the ram 3 to project the blank 15 sulliciently above the top of the ram to be lightly struck by the die 12- as the ram reciprocates. The dies 12 and 16 cooperate with the protruded blank 15 to shape it to the desired contour) While I have in this application specifically described one form which my invention may assume in practice, it will be underadapted to support the bit face.
2. In a forging machine, a die rotating on a stationary axis, a ram reciprocating in a linear path substantially tangential to a circle concentric with said die, a blank supporting means including a die, and blank adjusting means carried by said ram.
3. In a forging machine, a die rotating on a stationary axis, aram reciprocating in a linear path substantially tangential to a circle concentric with said die, an adjustable blank supporting means including a die, and an adjustable blank supporting means carried by said ram having a plurality of operative positions.
-l-. In a bit forging machine, a rotatable die supported on a stationary axis, a ram guided for rectilinear movement, a blank supporting means including a die carried by said ram, said die being adapted to support abit face, and means for moving said ram and blank supporting die in a path to cause them to cooperatewith said first mentioned die.
5. In a forging machine, a rotatable die supported upon a stationary axis, a ram, an adjustable die thereon, means for supporting'a blank in contiguity with said last mentioned die, means for adjusting said supporting means in a plurality of operative p0siti0ns,and means for reciprocating said ram in a linear path. 7
(3. In a forging machine, a rotatable die supported upon a stationary axis, a ram, an
adjustable die thereon, means for supporting a blank in contiguity with said last mentioned die, means for adjusting said supporting means carried by saio ram, and coop- ,ratiug means carried by a stationary part of said forging machine for adjusting said adjusting means.
7. In a forging machine, forging die and blank carrier members, means for causing relative movement between said members, and adjusting means for a blank including a member carried by a member of said first mentioned members which is necessarily movable during forging. I r
' 8. In a forging machine, a forging die, a
blank support, means whereby a'blank' in said support may be operated upon by said die, and positive adjusting means for said blank operable at will and including members necessarily always relatively moving during the forging operation.
9. In a forging machine, a forging die, a blank support, means whereby a blank in said support may be operated upon by said the, and positive adjusting means for said blank operable at will and including stationary and movable members, said lattermember always being in motion during the actual forging operation.
10. In combination, a normally movable blank support carrying a member movable vith and relative thereto, and means for" moving said member including relatively movable men'ibers, one of saidlast members being adapted to be operative or inoperative during movement of said support; 7
11. In combination, .a blank support,
means for necessarily always moving said support whenever a blank supported thereby is operated upon, and means for at will feeding and adjustinga blankcarried by said support, said means including members angularly and linearly movable relative to each other and movable in different planes 12. In combination, a normally movable blank support and means for at will feeding and adj listing a blank carried by said support and during forging thereof, said means including members adapted to have relative movement, one of'said members having means adapted to abut the end of the shank of a bit blank. 13. In combination, a blank support .always movable when operative, means for moving said support, blank adjusting means including members slidable relative to each other during normal forgingoperations, and means for actuating the same including members angularly and linearly movable rel- 'ative to each other.
'14. In a forging machine, a blank support including a plurality of blank engaging members, one being always continuously movable in a direction transverse of the blank during a forging operation and the other movable during forging positively to effect longitudinal movement of the blank.
15. In a forging machine, a blank support including a plurality of blank en-- gaging members, one being always continu- Lil comprising a wedge movable to effect longitudinal movement of the blank and engaging the opposite end of the blank.
17. in a forging machine, a movable carrier, blank supporting means carried thereby, and means connected to said blank supporting means for effecting positive adjustment of the latter during movement of said carrier.
18. In a forging machine, a movable car rier, blank supporting means carried thereby, and means connected to said blank supporting means for etlecting positive adjustment of the latter during n'ioven'ient of said carrier including a member adapted to have a normally fixed relation relative to said carrier.
19. In a forging machine, a movable carrier, blank supporting means carried thereby. and means connected to said blank supporting means for effecting positive adjustment of the latter during movement of said carrier including a member adapted to have movement relative to said carrier.
20. In a forging machine, a movable carrier, blank supporting means carried thereby, and means connected to said blank sup able in a substantially straight path, blank supporting means carried thereby, and means connected 'to said blank supporting means for effecting adjustment of the latter during movement of said carrier.
In a forging machine, a movable carrier, blank supporting meansincluding a mcz'nber movable with said carrier, and means connected to said blank supporting means for effecting positive adjustment of the latter during movement of said carrier.
24. In a forging machine, a carrier movnllc in a substantially straight path, a blank supporting means including a member movable With said carrier, and means connected to said blank supporting means for effecting adjustment of the latter during movement of said carrier. I
25. In a forging machine having a blank carrier movable in a substantially straight path to effect all forging operations, means for at will positively adjusting relative thereto a blank carried thereby including a relatively stationary member,
26- ln a forging machine, blank supporting means, and-means connected to saidv blank supporting means for effecting adj ustment of the latter including telescopic members.
27. In a forging machine, blank supporting means, and means connected to said blank supporting means for effecting adjustment of the latter including telescopic members, one of which comprises a screw.
28. In a forging machine,a blank support, and means for adjusting a blank carried thereby including slidably telescopic members, one of which is longitudinally fixed.
29. In a forging machine, a blank support, and means for adjusting a blank carried thereby including slidably telescopic members, one of which is longitudinally fixed but rotatable.
30. In a forging machine, a blank support, and means for adjusting a blank including telescopic members, one of which is longitudinally and rotatably movable.
31. In a forging machine having a blank carrier movable alternately in opposite directions in a substantially straight path,
means for supporting a blank with its longitudinal axis angularly disposed to the path of movement, and relatively stationary roller die means having portions adapted to form opposite sides of the cutting portion of'a cutter bit.
32. A forging machine having a blank carrier movable in a substantially straight path throughout its entire movement, relatively stationary freely rotatable die means having portions adapted to form opposite sides of the cutting portion ofa cutter bit, and a raised die movable with said carrier to form the cutting face of said bit.
33- Ina forging machine having a blank carrier movable in a substantially straight path throughout its entire movement, a raised die carried thereby and whose cross sectional area is substantially the same as that of the cutting portion of a bit formed thereon, and a relatively stationary roller die having a groove into which said raised die projects to cooperate therewith to form the sides of said cutting portion.
V 34111 a cutter bit forging machinp, a member reciprocating in a linear path, means thereon for positively carrying a bit I an blank in each direction of movement thereof,.and cooperating die means for forging the bit portion as it reciprocates.
841111 a cutter bit forging machine, a
member reciprocating in a linear path;
means thereon for positively carrying a bit blank in each direction of movement, and means for. supporting said blank so that the longitudinal axis thereof is angularly disposed to the path of movement.
36. In a cutter bit forging machine, a forming die comprising a rollerrotatable on a tired axis and having a groove in the periphery thereof, and a rectilinearly movable raised die formed to cooperate with the portion of the bit.
37. In a cutter bit forging machine, a
forming die having a groove which substantially conforms to the cutting portion of the bit, a raised die formed to cooperate with the groove in said die to shape the cutting portion of the bit, and means for effecting rectilinear movement of said raised die relative to said grooved forming die.
US531207A 1922-01-23 1922-01-23 Forging machine Expired - Lifetime US1614040A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2680392A (en) * 1948-10-08 1954-06-08 Power Jets Res & Dev Ltd Method and apparatus for making turbine blades
US2929281A (en) * 1954-12-22 1960-03-22 Coulter & Mckenzie Machine Co Machine and method for shaping articles

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2680392A (en) * 1948-10-08 1954-06-08 Power Jets Res & Dev Ltd Method and apparatus for making turbine blades
US2929281A (en) * 1954-12-22 1960-03-22 Coulter & Mckenzie Machine Co Machine and method for shaping articles

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