US647910A - Micrometer-gage. - Google Patents

Micrometer-gage. Download PDF

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Publication number
US647910A
US647910A US70423799A US1899704237A US647910A US 647910 A US647910 A US 647910A US 70423799 A US70423799 A US 70423799A US 1899704237 A US1899704237 A US 1899704237A US 647910 A US647910 A US 647910A
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Prior art keywords
screw
spindle
stem
gage
micrometer
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US70423799A
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Laroy S Starrett
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    • 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
    • G01B3/18Micrometers

Definitions

  • MICRMETER GAGE. (Application med Fab. 2, 1899.)
  • the object of this invention is to provide a micrometer-gage with a simpliiied and perfected friction ratchet device for speeding the movement of the spindle and insuring sensitiveness and uniformity of pressure upon objects to be calipered by the tool.
  • My invention is in the nature of an improvement in essential details of construction over the gage shown in the patent to Church, dated May 22, 1883, No. 278,094. that device an axial stem integral' with the measuring spindle extended rearwardly therefrom and was surroundedby a tubular knob having on its in'ner end or edge an annular ratchet engaging-with corresponding ratchet-teeth formed integral with the spindle and onthe end of the rotarygage or scale. A spring between said stem and knob, ad-
  • the ratchets are entirely inclosed by the turning sleeve, and thereby protected from the entrance of dirt between their teeth, which would soon destroy
  • One member of the ratchet is formed on the end of the hollow screw-stem and the other upon the end of a central bushing fixed in the turning sleeve.
  • Said sleeve Inr Fig. 2 is an enlarged l vention relates shown assembled for use, and v Fig. 3 represents the parts detached.
  • A represents the bod)7 of the tool
  • B the measuring-spindle
  • C the rotating barrel turning and advancing with the spindle, to which it is firmly affixed.
  • the outer end of this barrel has a milled periphery D, as usual.
  • v E is the hollow screw-stem, forming the first feature of my improvement. It is externally threaded to screw very firmly into an axial perforation correspondingly threaded in the outer end ofthe spindle B and barrel C, and it has an internal thread to receive the tip of the adjustingscrew H.
  • the body of the screw-stem E is enlarged and has an annular ratchet e, vformed on itsextreme outer end.'v
  • F is the turning sleeve, the'second feature of my invention, chambered at each end and ⁇ having intermediately the iixed hollow bushing F', formed at its front end with ratchetteethfto engage the teeth e, while the enlarged body of the hollow screw-stem E forms a bearing for the milled sleeve F and its bushing F to turn on.
  • the third feature of my improvement is the spring Gand ad justing-screw H.
  • the head of the screw forms another bearing for the sleeve F.
  • the body of the screw and the spring coiled around it occupy the outer chamber in said sleeve, and the tip of the screw passing freely through the bushing engages axially in the screw-stem E.
  • the spring G is conlpressed between the screw-head and the vertical outer end of the bushing F', thus holding the ratchets e f in yielding contact.
  • the oblique faces of the teeth engage during the forward movement of the spindle; but the spring will yield and allow them to slip by IOO each other when the proper calipering pressure-is exerted by the spindle, so that it cannot become excessive.
  • the ratchets engage positively.
  • the described friction ratchet device for micrometergages comprising the detachablev hollow screw-stem E, adapted to be screwed firmly into the outer end of the spindle, and formed with the terminal annular ratchet e, in combination with the chambered sleeve F having, intermediately, the ixed internal

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Length-Measuring Instruments Using Mechanical Means (AREA)

Description

No. 647,9m. l
L. s. s TAnnETT.
MICRMETER GAGE. (Application med Fab. 2, 1899.)
(No Model.)
IIIIIIIIIIIII WITNE S51-:5
ma u'nnms Prrzns co'. movmu'mo.. wAsnmcvoN, n. cA
` Patented Apr. |7, |900.`
Nrrn Tnrss VATENT rrrcri.
IVIICROIVIETER-GAG E.
SPECIFICATION forming part of Letters Patent No. 647,910, dated April 17, 1900. Application filed February 2, 1899. Serial No. 704,23 '7. (No model.)
T0 all whom t may concern..-
Be it known that I, LAROY S. STARRETT, of Athol, in the county of Worcester and State of Massachusetts, have invented certain new and useful Improvements in Micrometer- Gages, of which the following is a specification.
The object of this invention is to provide a micrometer-gage with a simpliiied and perfected friction ratchet device for speeding the movement of the spindle and insuring sensitiveness and uniformity of pressure upon objects to be calipered by the tool.
My invention is in the nature of an improvement in essential details of construction over the gage shown in the patent to Church, dated May 22, 1883, No. 278,094. that device an axial stem integral' with the measuring spindle extended rearwardly therefrom and was surroundedby a tubular knob having on its in'ner end or edge an annular ratchet engaging-with corresponding ratchet-teeth formed integral with the spindle and onthe end of the rotarygage or scale. A spring between said stem and knob, ad-
' j usted by a screw entering the stem axially,
their efficiency.
pressed these exposed or'uncovered ratchets y into a yielding engagementwhen the oblique faces of the teeth came together during the forward movement of the spindle in calipering an object, the spring allowing' the teeth to slip when the proper pressure on the 0bject was exceeded. The engagement was positive during the rearward movement when the engaging faces of the teeth were parallel with the axis. My improved tool works upon this general principle; but I have completely reconstructed the device, and thereby rendered it merchantable, simple, cheap, and entirely practical. I make the speeding and ratchet device distinct from the other parts of the tool and attach it thereto by its hollow screwstem, so that the device complete may be screwed to any tool having the properlythreaded axial perforation. The ratchets are entirely inclosed by the turning sleeve, and thereby protected from the entrance of dirt between their teeth, which would soon destroy One member of the ratchet is formed on the end of the hollow screw-stem and the other upon the end of a central bushing fixed in the turning sleeve.
Said sleeve Inr Fig. 2 is an enlarged l vention relates shown assembled for use, and v Fig. 3 represents the parts detached.
A represents the bod)7 of the tool, B the measuring-spindle, and C the rotating barrel turning and advancing with the spindle, to which it is firmly affixed. The outer end of this barrel has a milled periphery D, as usual.
v E is the hollow screw-stem, forming the first feature of my improvement. It is externally threaded to screw very firmly into an axial perforation correspondingly threaded in the outer end ofthe spindle B and barrel C, and it has an internal thread to receive the tip of the adjustingscrew H. The body of the screw-stem E is enlarged and has an annular ratchet e, vformed on itsextreme outer end.'v
(See Fig.l 3.)
F is the turning sleeve, the'second feature of my invention, chambered at each end and `having intermediately the iixed hollow bushing F', formed at its front end with ratchetteethfto engage the teeth e, while the enlarged body of the hollow screw-stem E forms a bearing for the milled sleeve F and its bushing F to turn on.
The third feature of my improvement is the spring Gand ad justing-screw H. The head of the screw forms another bearing for the sleeve F. The body of the screw and the spring coiled around it occupy the outer chamber in said sleeve, and the tip of the screw passing freely through the bushing engages axially in the screw-stem E. The spring G is conlpressed between the screw-head and the vertical outer end of the bushing F', thus holding the ratchets e f in yielding contact. The oblique faces of the teeth engage during the forward movement of the spindle; but the spring will yield and allow them to slip by IOO each other when the proper calipering pressure-is exerted by the spindle, so that it cannot become excessive. During the reverse movement the ratchets engage positively.
I claim as my invention* The described friction ratchet device for micrometergages, comprising the detachablev hollow screw-stem E, adapted to be screwed firmly into the outer end of the spindle, and formed with the terminal annular ratchet e, in combination with the chambered sleeve F having, intermediately, the ixed internal
US70423799A 1899-02-02 1899-02-02 Micrometer-gage. Expired - Lifetime US647910A (en)

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US70423799A US647910A (en) 1899-02-02 1899-02-02 Micrometer-gage.

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US70423799A US647910A (en) 1899-02-02 1899-02-02 Micrometer-gage.

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2521428A (en) * 1945-10-01 1950-09-05 Vizuete Bennie V-block attachment for micrometers
US2604703A (en) * 1943-10-11 1952-07-29 Brown & Sharpe Mfg Internal micrometer caliper

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2604703A (en) * 1943-10-11 1952-07-29 Brown & Sharpe Mfg Internal micrometer caliper
US2521428A (en) * 1945-10-01 1950-09-05 Vizuete Bennie V-block attachment for micrometers

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