US1020508A - Shearing-machine. - Google Patents

Shearing-machine. Download PDF

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Publication number
US1020508A
US1020508A US1911633394A US1020508A US 1020508 A US1020508 A US 1020508A US 1911633394 A US1911633394 A US 1911633394A US 1020508 A US1020508 A US 1020508A
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Prior art keywords
plate
bearings
close proximity
roller cutters
peripheries
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Talbot Lennox
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Individual
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    • CCHEMISTRY; METALLURGY
    • C14SKINS; HIDES; PELTS; LEATHER
    • C14BMECHANICAL TREATMENT OR PROCESSING OF SKINS, HIDES OR LEATHER IN GENERAL; PELT-SHEARING MACHINES; INTESTINE-SPLITTING MACHINES
    • C14B5/00Clicking, perforating, or cutting leather
    • 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
    • Y10T83/00Cutting
    • Y10T83/465Cutting motion of tool has component in direction of moving work
    • Y10T83/4699Combined with other type cutter
    • Y10T83/4702With slitter
    • 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
    • Y10T83/00Cutting
    • Y10T83/727With means to guide moving work
    • Y10T83/74Adapted to permit maneuvering of work at tool zone
    • 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
    • Y10T83/00Cutting
    • Y10T83/929Tool or tool with support
    • Y10T83/9372Rotatable type
    • Y10T83/9384Notching plus nonnotching tool

Definitions

  • My invention relates to shearing machines and has for its object the provision of a novel form of shearing machine in which a number of objections present in prior maninclude co-acting roller cutters.
  • roller cutters rotatable upon said bearings and having their peripheries brought into close proximity to each other at one face of the plate.
  • My invention as preferably practiced, includes a plate having one of its faces of helical formation and its other face adapted to support the material to be operated upon, bearings bein preferably provided upon opposite sides 0 the plate, and co-acting roller cutters rotatable upon said, bearings and having their peripheries in close proximity at the material supporting face of the plate,
  • the plate being provided with a guiding surface for directing material operated upon from this latter face to the face of helical formation.
  • FIG. 1 is a plan view of my improved shearing machine
  • Fig. 2 is a side elevation taken in the direct lineiof axis of rotation of the upper roller cutter
  • Fig. 3 is a sectional view online 3 3 of Fig. 2
  • Fig. 4 iso sectional view of part of the mecha- -nis'm on lines 4 of Fig. 3.
  • a plate 1 that is preferably horizontally disposed and is bolted upon its under side to any suitable form of support 2.
  • the plate is of circular contour in plan and its bottom surface and its top surface are of helical formation, the slope of the under surface being sharper than the slope of the upper surface so as to make the plate thin at its central portion.
  • the ends of the spiral plate are formed into journals 3, one upon the bottom side of the plate and the other upon the top side of the plate. These journals constitute bearings for shafts 4 that carry co-acting roller cutters 5 whose peripheries are in close proximity at the central portion of the plate where the bottom and top surfaces of the plate are closest.
  • the axes of rotation of the shafts 4 desirably diverge from the roller cutters and desirably lie in intersecting planes, by which expression I mean that none of the planes in which the axes of rotation lie are coincident, as I am aware that the axes of rotation of co-acting roller cutters have been angnlarlyrelated to each other but these axes lie in the same plane. I do not herein claim axes of rotation that diverge and converge but I do consider it. to be novel with me to dispose the axes of rotation'in noncoincident and intersecting planes.
  • the planes of rotation of the roller cutters are nearly perpendicular to the top or feeding surface of the plate.
  • roller cutters may be in contact in which case a similar rotation of the lower roller cutter will result.
  • I provide a lining 7 for the upper journal, the bore of this lining being eccentric with res ect to the sleeve containing it, the' associ e shaft 4 turning directly within the bor e of the linloo ing 7
  • This lining 7 ma be turned in its containing sleeve and may be secured in any position to which it is turned by clamping bolts 8 that serve to clamp the sleeve containing the lining 7 upon said lining, this sleeve being longitudinally split for the purpose as indicated, the bolts 8 when loosened permitting the lining 7 to be turned for the" purpose stated.
  • a shearing machine including a plate having one of 1ts faces of helical formation and its other face adapted to. support the material operated upon; bearings upon opposite sides of and connected with the plate; and .co-acting roller cutters rotatable upon said bearings and having their peripheries in close proximity at the material supporting face of the late, the axes of rotation of the cutters lylng in non-coincident and intersecting planes, the plate being provided with a guiding surface for directing material operated upon from the material supporting face to said face of helical formation.
  • a shearing machine includin a plate having one of 1ts faces of helical ormation and its other face adapted to support the 6 material operated upon; bearings upon oppos'ite sides of and connected with the plate; and co-acting roller cutters rotatable upon said bearings and having their peripheries in close proximity atthe material support- 66 ing face of the plate,'the plate being .pro-' vided with a guiding surface for directin material operated upon from .the materia supporting face to said face of helical formatlon.
  • a shearing machine including a plate; bearings upon opposite sides of .and connected with the plate; and oo-acting roller cutters rotatable upon said bearings and having their peripheries'in close proximity at one face of the plate, the axes of rotation of the cutters lying in non-coincident and 1 intersecting planes, the plate being formed to have its opposite faces in close proximity, where the peripheries ofthe roller cutters are in close proximity, the plate being provided with a guiding surface for directing material operated upon from one side of the plate to the other.
  • a shearing machine including av plate having one of 1ts faces adapted to support materlal operated upon; bearings upon opposite sides of and connected with the plate; and co'-acting roller cutters rotatable upon said bearings and having their peripheries in' close proximity at the material supporting face of the plate, the plate being formed to have its opposite faces in close proximity where the peripheries of the roller cutters are in close proximity, the plate being proa vided with a guiding surface for directing material operated upon from one side of the plate to the other.
  • a shearing machine including a plate having one of 1ts faces adapted to support materialoperated upon;bearingsu ono posite sides of and connected with t e p ate; v and co-acting roller cutters rotatable upon said bearings and having their peripheries in close proximity at the material supporting face of the plate, the axes of rotation of the V cutters lying in non-coincident and intersecting planes, 'the plate being provided with a guiding surface for directing material operated upon from one side of the plate to the other.
  • a shearing machine including a plate having one of its faces adapted to support material operated upon; bearings upon opposite sides of and connected with the plate;
  • a shearing machine including a plate having one of 1ts faces adapted to support material operated upon; bearings upon opposite sides of and :connectedwith theplate; and co-acting roller cutters rotatable upon said bearings and havin theirperipheries in close proximity at the material supporting face of the plate, the axes of rotation of the cutters lying in nop-coincident'and inhavin tersecting planes, the plate being formed to hate its opposite faces in close proximity Where the peripheries of the roller cutters are in close proximity.
  • a shearing machine including aplate; bearings upon opposite sides of and connected with the plate; and co-acting roller cutters rotatable upon said bearings and havingtheir peripheries in close proximity at one face of the plate, the plate being formed to have its opposite faces in close proximity where the peripheries of the roller cutters are in close proximity.
  • a shearing machine including a plate; bearings upon opposite sides of and connected with the plate; and co-acting roller cutters rotatable upon said'bearings and having their eripheries in close proximity at one face 0? the plate, the axes of rotation of the cutters lying in non-coincident and intersecting planes.
  • a shearing machine including a plate one of its faces adapted to support material operated-upon; bearings upon opposite sides of and'connected with the plate; and co-acting roller cutters rotatable upon said bearings and having their peripheries in close proximity at the material supporting face of the plate.
  • a shearing machine including a feed plate having one of its faces adapted to support material operated u on; and co-acting roller cutters having p anes of rotation nearly perpendicular to the feeding surface of said plate and having their peripheries in close proximity at said feeding surface, the axes of rotation of the cutters lying in non-coincident and intersecting lanes.
  • a shearing machine including a plate having one of its faces adapted to support material operated upon and co-acting roller cutters upon opposite sides of the plate and having their peripheries in close proximity at the material supporting face of the plate, the plate being provided with a guiding surface for directing material operated upon from one side of the plate to the other.
  • a shearing machine including a feed plate having one of its faces adapted to support the material operated upon; and coacting roller cutters having their peripheries in close proximity at said face, the axes of rotation of the cutters lying in non coincident and intersecting planes.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Crushing And Pulverization Processes (AREA)

Description

T. LENNOX. SHEARING MACHINE. APPLICATION FILED mm: 15, 1911.
Patented Mar. 19, 1912 2 SHEETS-SHEET l. I
'jffiafleflrzax T. LENNOX.
SHEARING MACHINE.
APYLIOATION FILED JUNE 15, 1911..
1,020,508. Patented Mar. 19, 1912 I 2 BHEETB-BHBET 2.
CYvvezrYa z" gyfiaf i erzrrax UNITED STATES I TENT OFFICE.
TALBOT LENNOX, OF CHICAGO, ILLINOIS.
SHEARING-MACHINE.
Specification of Letters Patent.
Patented Mar. 19, 1912.
Application filed June 15, 1911. Serial No. 633,394.
To all whom it may concern:
Be it known that I, TALBOT Lnmvox, a citizen of the United States, residing at Chicago, in the county of (look and State of Illinois, have invented a certain new and useful Im rovement in Shearing-Machines, of which 1: following is a full, clear concise, and exact description, reference be ng bad to the accompanying drawings, forming a. part of this specification.
My invention relates to shearing machines and has for its object the provision of a novel form of shearing machine in which a number of objections present in prior maninclude co-acting roller cutters.
roller cutters rotatable upon said bearings and having their peripheries brought into close proximity to each other at one face of the plate.
' My invention, as preferably practiced, includes a plate having one of its faces of helical formation and its other face adapted to support the material to be operated upon, bearings bein preferably provided upon opposite sides 0 the plate, and co-acting roller cutters rotatable upon said, bearings and having their peripheries in close proximity at the material supporting face of the plate,
the axes of rotation of the cutters lying in intersecting planes, the plate being provided with a guiding surface for directing material operated upon from this latter face to the face of helical formation.
I will explain my invention more fully by reference to the accompanying drawings showlikn the preferred embodiment thereof In W I, -1
i Figure 1 is a plan view of my improved shearing machine; Fig. 2 is a side elevation taken in the direct lineiof axis of rotation of the upper roller cutter; Fig. 3 is a sectional view online 3 3 of Fig. 2; and Fig. 4 iso sectional view of part of the mecha- -nis'm on lines 4 of Fig. 3.
Like parts are indicated by similar characters of reference throughout the different figures.
In the embodiment of the invent-ion illustrated I have employed a plate 1 that is preferably horizontally disposed and is bolted upon its under side to any suitable form of support 2. The plateis of circular contour in plan and its bottom surface and its top surface are of helical formation, the slope of the under surface being sharper than the slope of the upper surface so as to make the plate thin at its central portion. The ends of the spiral plate are formed into journals 3, one upon the bottom side of the plate and the other upon the top side of the plate. These journals constitute bearings for shafts 4 that carry co-acting roller cutters 5 whose peripheries are in close proximity at the central portion of the plate where the bottom and top surfaces of the plate are closest. The axes of rotation of the shafts 4 desirably diverge from the roller cutters and desirably lie in intersecting planes, by which expression I mean that none of the planes in which the axes of rotation lie are coincident, as I am aware that the axes of rotation of co-acting roller cutters have been angnlarlyrelated to each other but these axes lie in the same plane. I do not herein claim axes of rotation that diverge and converge but I do consider it. to be novel with me to dispose the axes of rotation'in noncoincident and intersecting planes. The planes of rotation of the roller cutters are nearly perpendicular to the top or feeding surface of the plate. By the relative arrangement of the plate and the roller cutters that has been described, I am enabled to cutsheet material along sharper curves and angles than it was possible hitherto so to do with roller cutters of given diameters. One of the shafts 4, say the upper shaft is positively driven as by means of ratchet mechanism 6.
Where light sheet metal is to be cut the roller cutters may be in contact in which case a similar rotation of the lower roller cutter will result. To provide for adjustment between the roller cutters to suit the diiierent thicknesses of the sheet metal or other material to be cut, I provide a lining 7 for the upper journal, the bore of this lining being eccentric with res ect to the sleeve containing it, the' associ e shaft 4 turning directly within the bor e of the linloo ing 7 This lining 7 ma be turned in its containing sleeve and may be secured in any position to which it is turned by clamping bolts 8 that serve to clamp the sleeve containing the lining 7 upon said lining, this sleeve being longitudinally split for the purpose as indicated, the bolts 8 when loosened permitting the lining 7 to be turned for the" purpose stated. A ap 9 intervenes between 10 the overlapping en s of the spiral plate 1, As the shearing proceeds material that has been cut passes through the gap, The top wall of this gap affords a idin surface fqr directing such material om t e top or feedingtside of the plate to the under side of the plate, the'he ical formation of the bottom face of the plate acting to dispose of the material without permitting it to return to the roller cutters. 4 By providing the plate 1 with the bearings 3 upon its opposite sides and by employing the guiding surface for directing material operated upon from the top surze to the bottom surface of the plate, all I itations as to the size of the sheet operted upon are removed and the machine is adapted to cutsheet'material along lines of shar curves an angles than was hitherto ossib e and I therefore eonsider the most important feature of my invention to reside V in amounting platejfearrying bearings upon opposite sides thereof in whiehrroller cutters are disposed in relation to cut sheet material assed between the roller cutters. With the machine of my invention it is ossible tocut to the center of any size sheet 1n a large variety of curves including complete clrcles and reversed curves.
Having thus described my invention, I
40 claim as new and desire to secure by Letters Patent thev following 1. A shearing machine including a plate having one of 1ts faces of helical formation and its other face adapted to. support the material operated upon; bearings upon opposite sides of and connected with the plate; and .co-acting roller cutters rotatable upon said bearings and having their peripheries in close proximity at the material supporting face of the late, the axes of rotation of the cutters lylng in non-coincident and intersecting planes, the plate being provided with a guiding surface for directing material operated upon from the material supporting face to said face of helical formation.
2. A shearing machine includin a plate having one of 1ts faces of helical ormation and its other face adapted to support the 6 material operated upon; bearings upon oppos'ite sides of and connected with the plate; and co-acting roller cutters rotatable upon said bearings and having their peripheries in close proximity atthe material support- 66 ing face of the plate,'the plate being .pro-' vided with a guiding surface for directin material operated upon from .the materia supporting face to said face of helical formatlon. Y
3. A shearing machine including a plate; bearings upon opposite sides of .and connected with the plate; and oo-acting roller cutters rotatable upon said bearings and having their peripheries'in close proximity at one face of the plate, the axes of rotation of the cutters lying in non-coincident and 1 intersecting planes, the plate being formed to have its opposite faces in close proximity, where the peripheries ofthe roller cutters are in close proximity, the plate being provided with a guiding surface for directing material operated upon from one side of the plate to the other.
4. A shearing machine including av plate having one of 1ts faces adapted to support materlal operated upon; bearings upon opposite sides of and connected with the plate; and co'-acting roller cutters rotatable upon said bearings and having their peripheries in' close proximity at the material supporting face of the plate, the plate being formed to have its opposite faces in close proximity where the peripheries of the roller cutters are in close proximity, the plate being proa vided with a guiding surface for directing material operated upon from one side of the plate to the other.
5. A shearing machine including a plate having one of 1ts faces adapted to support materialoperated upon;bearingsu ono posite sides of and connected with t e p ate; v and co-acting roller cutters rotatable upon said bearings and having their peripheries in close proximity at the material supporting face of the plate, the axes of rotation of the V cutters lying in non-coincident and intersecting planes, 'the plate being provided with a guiding surface for directing material operated upon from one side of the plate to the other.
6L A shearing machine including a plate having one of its faces adapted to support material operated upon; bearings upon opposite sides of and connected with the plate;
andco-acting roller cutters rotatable upon said bearings and havin their peripheries in close proximity at the material supporting face of the plate, the plate being provi ed with a guiding surface for directingmaterial operated upon from one side of the 12o plate to the other. v I
7. A shearing machine including a plate having one of 1ts faces adapted to support material operated upon; bearings upon opposite sides of and :connectedwith theplate; and co-acting roller cutters rotatable upon said bearings and havin theirperipheries in close proximity at the material supporting face of the plate, the axes of rotation of the cutters lying in nop-coincident'and inhavin tersecting planes, the plate being formed to hate its opposite faces in close proximity Where the peripheries of the roller cutters are in close proximity.
8. A shearing machine including aplate; bearings upon opposite sides of and connected with the plate; and co-acting roller cutters rotatable upon said bearings and havingtheir peripheries in close proximity at one face of the plate, the plate being formed to have its opposite faces in close proximity where the peripheries of the roller cutters are in close proximity.
9. A shearing machine including a plate; bearings upon opposite sides of and connected with the plate; and co-acting roller cutters rotatable upon said'bearings and having their eripheries in close proximity at one face 0? the plate, the axes of rotation of the cutters lying in non-coincident and intersecting planes.
10. A shearing machine including a plate one of its faces adapted to support material operated-upon; bearings upon opposite sides of and'connected with the plate; and co-acting roller cutters rotatable upon said bearings and having their peripheries in close proximity at the material supporting face of the plate.
11. A shearing machine including a feed plate having one of its faces adapted to support material operated u on; and co-acting roller cutters having p anes of rotation nearly perpendicular to the feeding surface of said plate and having their peripheries in close proximity at said feeding surface, the axes of rotation of the cutters lying in non-coincident and intersecting lanes.
12. A shearing machine including a plate having one of its faces adapted to support material operated upon and co-acting roller cutters upon opposite sides of the plate and having their peripheries in close proximity at the material supporting face of the plate, the plate being provided with a guiding surface for directing material operated upon from one side of the plate to the other.
13. A shearing machine including a feed plate having one of its faces adapted to support the material operated upon; and coacting roller cutters having their peripheries in close proximity at said face, the axes of rotation of the cutters lying in non coincident and intersecting planes.
In witness whereof, I hereunto subscribe my name this 5th day of June A. D., 1911. TALBOT LENNOX. Witnesses: A
G. L. CRAGG, E. L. WHITE.
US1911633394 1911-06-15 1911-06-15 Shearing-machine. Expired - Lifetime US1020508A (en)

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