US558417A - Sheet-metal gage - Google Patents

Sheet-metal gage Download PDF

Info

Publication number
US558417A
US558417A US558417DA US558417A US 558417 A US558417 A US 558417A US 558417D A US558417D A US 558417DA US 558417 A US558417 A US 558417A
Authority
US
United States
Prior art keywords
jaw
gage
sheet
handle
lever
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
Publication date
Application granted granted Critical
Publication of US558417A publication Critical patent/US558417A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01BMEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
    • G01B3/00Measuring instruments characterised by the use of mechanical techniques
    • G01B3/16Compasses, i.e. with a pair of pivoted arms
    • G01B3/166Compasses, i.e. with a pair of pivoted arms provided with a measuring scale

Definitions

  • ELBRIDGE GERRY PAULL OF FAlRl-IAVEN, MASSACHUSETTS, ASSIGNOR TO THE ATLAS TACK CORPORATION, OF BOSTON, MASSACHUSETTS.
  • the object of my invention is to provide a simple, accurate, and convenient gage for indicating the thickness of sheet metal.
  • Tacks and nails are now largely used by machinery, and the use of them by machinery requires exactness and uniformity in their size and shape.
  • the sheets of metal from which they are made must be of exact gage. It becomes necessary, therefore, to select the sheets of metal from which they are to be made by carefully gaging them according to their thickness. This has required a gage that would not only indicate the exact thickness of the sheets of metal to be used, but would enable the work to be done easily and quickly as well as accurately.
  • My invention consists in the construction and arrangement of a gage fulfilling these objects, and also generally applicable to gaging the thickness of all sorts of sheets, which will be hereinafter more fully described with reference to the drawings, in which Figure 1 is a side view; Fig. 2, a top plan view; Fig. 3, a transverse section through line 3 3 of Fig. 1; Fig. 4, a vertical longitudinal section through the jaws and central axis; Fig. 5, a perspective view of the main frame as formed with a jaw, lever-handle, and upright; and Fig. 6, a similar view of the compound lever and its attached parts.
  • Fig. 5 represents the main frame of the gage. This is constructed with a central housing a, from the upper front end of which projects a jaw a, and from the rear and lower side of which projects a lever-handle a and from the upper side of which there rises a standard or upright a All these parts are preferably formed of one piece of metal,-as shown in Fig. 5.
  • a compound lever (see Fig. 6,) composed of a jaw 19 and a lever-handle 11*.
  • the jaw b corresponds to the jaw a above it,
  • This jaw b and tappet-arm b are rigidly connected together, and are together articulated upon an axial pin 19, passing through the hub of jaw b and also through the side walls of the central housing a of the main frame.
  • the lever-handle b is also articulated upon the same axial pin 1) within the housing and beside the rear end of the jaw 19.
  • This lever-handle b is intended to operate the jaw b, but instead of being rigidly connected to it has a yielding or flexible connection with it through a curved spring 0, which is screwed to the handle 6 at c and, extending down beneath and past the axial pin 1), rests in a recess in jaw b and bears upwardly against the same, so that when the lever-handle b is depressed it has the effect of raising jaw b about the axial pin 1), just the same as if it were one with it, except that instead of transmitting an equal, rigid, and positive movement it can transmit to the jaw 11 no greater pressure than the elasticity of the spring 0 will permit.
  • a hooked end a within which, upon a pin a is pivoted a pendent index-hand h, Whose upper end is bent over at h, Where it is jointed upon the pin a to give a long bearing at the axis of the hand and give it stiffness as against lateral play, and for the purpose also of securing a short cross-pin k against which the tappet-arm b bears to deflect it.
  • This tappet-arm b of the compound lever bears on one side of this pin k and a spring I), borne by the arm, bears on the other side of this pin.
  • C is a graduated bar curved to a circumference described by the index-hand h as a radius and having stop-pins s s at its opposite ends to limit the throw of said indexhand.
  • This bar 0 is graduated and marked in thousandths of an inch, and also in numbers indicating the standard gage, and it is detachably fastened about its middle to the housing of the main frame by screws it, passing through its plate t.
  • the compound lever and spring 0 is provided, so that variations in the hand-pressure on the levers makes no appreciable difference in the bite or pinchof the jaws, since the latter is rendered practically uniform by the interposition of the spring, so that the jawsonly bite with a pressure transmitted through this spring, which is substantially uniform even if the pressure on the handles varies.
  • a gage for indicating the thickness of material in sheets consisting of two pivoted jaws, and two lever-handles, one handle being rigid with its jaw, and the other handle having an elastic and yielding connection with its jaw, a graduated scale-plate, an index hand moving over the same, and a leverageamplifying connection between the jaws and the index-hand substantially as shown and described.
  • a gage for indicating the thickness of material in sheets consisting of a rigid or main-frame part comprising a jaw, an upright and alever-handle, a compound lever consisting of a j aw with tappet-arm, and a handle flexibly connected together by a spring, and pivoted within the rigid or main-frame part, an index-hand pivoted at its upper end to the upright of the main frame and acted upon by the tappet-arm, a circular graduated scale, and a spring for throwing the leverhandles apart substantially as and for the purpose described.

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • A Measuring Device Byusing Mechanical Method (AREA)
  • Press Drives And Press Lines (AREA)

Description

w L La wk M M GT (No Model.)
No. 558,417. Patenter lApr. 14, 1896.
".PNUTOUTNQWASHINGYONJC UNITED STATES PATENT OFFICE.
ELBRIDGE GERRY PAULL, OF FAlRl-IAVEN, MASSACHUSETTS, ASSIGNOR TO THE ATLAS TACK CORPORATION, OF BOSTON, MASSACHUSETTS.
SHEET-METAL GAG E.
SPECIFICATION forming part of Letters Patent No. 558,417, dated April 14, 1896. Application filed January 10, 1896. Serial No. 575,007. (No del.)
To all whom it may concern:
Be it known that I,- ELBRIDGE GERRY PAULL, of Fairhaven, in the county of Bristol and State of Massachusetts, have invented a new and useful Improvement in Sheet-Metal Gages, of which the following is a specification.
The object of my invention is to provide a simple, accurate, and convenient gage for indicating the thickness of sheet metal.
Tacks and nails are now largely used by machinery, and the use of them by machinery requires exactness and uniformity in their size and shape. To secure this exactness and uniformity, the sheets of metal from which they are made must be of exact gage. It becomes necessary, therefore, to select the sheets of metal from which they are to be made by carefully gaging them according to their thickness. This has required a gage that would not only indicate the exact thickness of the sheets of metal to be used, but would enable the work to be done easily and quickly as well as accurately.
My invention consists in the construction and arrangement of a gage fulfilling these objects, and also generally applicable to gaging the thickness of all sorts of sheets, which will be hereinafter more fully described with reference to the drawings, in which Figure 1 is a side view; Fig. 2, a top plan view; Fig. 3, a transverse section through line 3 3 of Fig. 1; Fig. 4, a vertical longitudinal section through the jaws and central axis; Fig. 5, a perspective view of the main frame as formed with a jaw, lever-handle, and upright; and Fig. 6, a similar view of the compound lever and its attached parts.
In the drawings, Fig. 5 represents the main frame of the gage. This is constructed with a central housing a, from the upper front end of which projects a jaw a, and from the rear and lower side of which projects a lever-handle a and from the upper side of which there rises a standard or upright a All these parts are preferably formed of one piece of metal,-as shown in Fig. 5.
Between the side walls of the housing a there is arranged a compound lever, (see Fig. 6,) composed of a jaw 19 and a lever-handle 11*. The jaw b corresponds to the jaw a above it,
and is formed with a tappet-arm 5 extending upwardly beside the upright a of the main frame. This jaw b and tappet-arm b are rigidly connected together, and are together articulated upon an axial pin 19, passing through the hub of jaw b and also through the side walls of the central housing a of the main frame. The lever-handle b is also articulated upon the same axial pin 1) within the housing and beside the rear end of the jaw 19. This lever-handle b is intended to operate the jaw b, but instead of being rigidly connected to it has a yielding or flexible connection with it through a curved spring 0, which is screwed to the handle 6 at c and, extending down beneath and past the axial pin 1), rests in a recess in jaw b and bears upwardly against the same, so that when the lever-handle b is depressed it has the effect of raising jaw b about the axial pin 1), just the same as if it were one with it, except that instead of transmitting an equal, rigid, and positive movement it can transmit to the jaw 11 no greater pressure than the elasticity of the spring 0 will permit.
To throw the two levers a and b apart, another spring 0 is employed, which is conveniently connected to the lever-handle 19 In the two jaws a and b there are arranged contact projections '17 p, which press upon the opposite sides of the sheet metal in gaging its thickness. One of these projections, 19, is made in the form of ascrew-pin, whose threads mesh with corresponding threads in the jaw and permit this bearing to be raised to compensate for wear and adjust it in proper relation to the bearing above.
At the upper end of the standard a there is formed a hooked end a, within which, upon a pin a is pivoted a pendent index-hand h, Whose upper end is bent over at h, Where it is jointed upon the pin a to give a long bearing at the axis of the hand and give it stiffness as against lateral play, and for the purpose also of securing a short cross-pin k against which the tappet-arm b bears to deflect it. This tappet-arm b of the compound lever bears on one side of this pin k and a spring I), borne by the arm, bears on the other side of this pin.
C is a graduated bar curved to a circumference described by the index-hand h as a radius and having stop-pins s s at its opposite ends to limit the throw of said indexhand. This bar 0 is graduated and marked in thousandths of an inch, and also in numbers indicating the standard gage, and it is detachably fastened about its middle to the housing of the main frame by screws it, passing through its plate t.
In the operation of this device the handles a p are compressed, so as to bring the jaws a I) together upon the opposite sides of the sheet of metal being tested, and the movement of jaw b and its rigidly-attached tappet-arm 6 causes the upper end of said arm to bear against the cross-pin 7L2 of the indexhand h and deflect it across the graduated bar to a point on the markings which indicates the exact gage of the sheet. By the relative leverage of tappet-arm b on the index-hand it will be seen that a very slight movement or adjustment between the jaws is greatly amplified and spread out in graduations upon the scale, so as to render slight variations of thickness inthe sheets being tested clearly apparent.
Another feature of importance is tobe found in the flexible compound lever. It will be easily seen that if both jaws were rigid with their handles a different degree of pressure on the handles might for the same thickness of metal show a difierent gage, for an excessive pressure would bury the contact-points of the jaw slightly in the metal and indicate a thin sheet, while a very light pressure would indicate a somewhat thicker gage for the same sheet. To obviate this, the compound lever and spring 0 is provided, so that variations in the hand-pressure on the levers makes no appreciable difference in the bite or pinchof the jaws, since the latter is rendered practically uniform by the interposition of the spring, so that the jawsonly bite with a pressure transmitted through this spring, which is substantially uniform even if the pressure on the handles varies.
To limit the approach of the outer ends of the lever-handles, a stop-lug Zis formed on or attached to the inner face of one of these handles, which lug in closing strikes the other handle and prevents an excessive pressure from being transmitted even through the spring.
Having thus described my invention, what I claim as new, and desire to secure by Letters Patent, is-
1. A gage for indicating the thickness of material in sheets, consisting of two pivoted jaws, and two lever-handles, one handle being rigid with its jaw, and the other handle having an elastic and yielding connection with its jaw, a graduated scale-plate, an index hand moving over the same, and a leverageamplifying connection between the jaws and the index-hand substantially as shown and described.
2. A gage for indicating the thickness of material in sheets, consisting of a rigid or main-frame part comprising a jaw, an upright and alever-handle, a compound lever consisting of a j aw with tappet-arm, and a handle flexibly connected together by a spring, and pivoted within the rigid or main-frame part, an index-hand pivoted at its upper end to the upright of the main frame and acted upon by the tappet-arm, a circular graduated scale, and a spring for throwing the leverhandles apart substantially as and for the purpose described.
ELBRIDGE GERRY PAULL.
WVitnesses:
C. D. HUNT, NORMAN M. PAULL.
US558417D Sheet-metal gage Expired - Lifetime US558417A (en)

Publications (1)

Publication Number Publication Date
US558417A true US558417A (en) 1896-04-14

Family

ID=2627146

Family Applications (1)

Application Number Title Priority Date Filing Date
US558417D Expired - Lifetime US558417A (en) Sheet-metal gage

Country Status (1)

Country Link
US (1) US558417A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2541318A (en) * 1949-06-10 1951-02-13 Edward E Woodward Piston aligning mechanism

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2541318A (en) * 1949-06-10 1951-02-13 Edward E Woodward Piston aligning mechanism

Similar Documents

Publication Publication Date Title
US558417A (en) Sheet-metal gage
US454516A (en) brown
US764937A (en) Machinist's combination-tool.
US1300790A (en) Extensometer.
US1639321A (en) Gauge
US2051357A (en) Gauge
US1010451A (en) Foot-measurer.
US375049A (en) Bevel-protractor
US679779A (en) Micrometer.
US448586A (en) Gage for sorting leather
US592740A (en) Sight for firearms
US2771682A (en) Printing plate gauge
US6112A (en) Nipper saw-set
US526105A (en) Depth-gage
US564235A (en) Instrument for measuring thickness of leather
US211975A (en) Improvement in micrometer-screw gages
US1391731A (en) Test-indicator
US744796A (en) Calipers or gage.
US1167592A (en) Test-indicator.
US62083A (en) William stamp
US738580A (en) Machine for measuring the area of surfaces.
US69774A (en) photo-uthogiuphe
US473892A (en) Augustus g
US839397A (en) Gage for lacing-hook machines.
US1019400A (en) Universal test-indicator.