US191817A - Improvement in hollow augers - Google Patents
Improvement in hollow augers Download PDFInfo
- Publication number
- US191817A US191817A US191817DA US191817A US 191817 A US191817 A US 191817A US 191817D A US191817D A US 191817DA US 191817 A US191817 A US 191817A
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- US
- United States
- Prior art keywords
- jaws
- stock
- auger
- wheel
- slots
- Prior art date
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- Expired - Lifetime
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- 210000001847 Jaw Anatomy 0.000 description 34
- 239000000203 mixture Substances 0.000 description 6
- 210000000088 Lip Anatomy 0.000 description 4
- 210000001699 lower leg Anatomy 0.000 description 4
- 229910000831 Steel Inorganic materials 0.000 description 2
- 230000000875 corresponding Effects 0.000 description 2
- 230000003467 diminishing Effects 0.000 description 2
- 239000002184 metal Substances 0.000 description 2
- 239000010959 steel Substances 0.000 description 2
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B27/00—Tools for turning or boring machines; Tools of a similar kind in general; Accessories therefor
- B23B27/10—Cutting tools with special provision for cooling
- B23B27/12—Cutting tools with special provision for cooling with a continuously-rotated circular cutting edge; Holders therefor
Definitions
- rllhis tool although of the nature of 'a hollow auger, is an entirely new and novel -device for this purpose, and is so constructed as to be readily adj usted, by an ingenious arrangement and combination of movements, to cut tapering tenons of different sizes-a result, I believe, that has never before been accomplished by tools of this description.
- Tenons such as are used upon the outer ends of wagon-spokes and similar articles, can also be cut with this tool.
- I denominate it an auger for cutting straight and tapering tenons; and I do hereby declare the following to be such a clear and exact description as will enable any person skilled in the art to which it pertains to construct the same, ref- ⁇ erence being had to the accompanying drawings, forming a part of this specification, and to the letters of reference marked therein, like letters indicating corresponding parts in the dierent gures.
- This invention is designed, by its adjustaability, to combine in itself a'separate auger for each sized tenon, either straight or tapering, and of any diameter and length within its scope. It also allows for the perceptible variance in the diameter of boring-bits, which experience has demonstrated to be indispensable to the utility of such a tool. But it is more expressly designed for cutting tapering tenons, such as are usedon shaft, pole, whifdetree-tips, &c., for receiving a ferrule. Inorder to provide an effective device, which would conform the taper of the tenon to various standards of the ferrules iu use, I found that it was necessary to make the auger with three distinct adjustments.
- the first has reference to the smaller sizes and gradual tapers, and is made by operating the adjustingjaws (hereinafter described) with the hand-wheel having cam-slots in its upper face, as shown in the drawings, or by a cone-shaped nut provided with a thread.
- the second adjustment forms a device for cutting larger tenons and more decided tapers, and is accomplished by moving the hand-wheel up on the round part of the stock.
- the lower ends of the jaws pass through the cam-slots in the hand-wheel, which has a hub or sleeve fitting on the rounded stock, so as tomove up or down, and may be secured at any point by a screw.
- the jaws are provided with slanting slots, which may be in the wings of the stock, and through which pass bolts forming pivots.
- This arrangement of the traveling sleeve and the slanting-slots allows this movement, while the set or securing screw makes the adjustment operative on the graduated tapers by securing the hand-wheel and collar at any desired point on the stock, where the rst adjustment can be further utilized for varying the size as desired.
- the third adjustment relates to determining the length of the tenons, and is accomplished by inserting a screw of sufficient length in the top of the stock.
- This screw also regulates the size of the taper-as, for example, if the auger is set for a certain-sized taper, by diminishing the length of screw, the shaft, or on whatever the tenon is being cut, enters farther into the auger, thus changing the size of the taper proportionately as the screw is shortened.
- the knife is also adjustable, in order to conform to the various changes of the dierent adjustments above described.
- the whole device is made of metal-preferably ot' steel and wrought-iron-and is constructed and arranged in all its parts so as to becompact, strong, and durable.
- Figures l and 3 are side views of my newly-invented auger for cutting straight and tapering tenons.
- Fig. 1 shows the working of the second adjustment, the hand-wheel pA being moved up on the stock.
- Fig. 3 shows the hand-wheel and collar as used in the first adjustment.
- Figs. 2 and 4 are end views of l and 3 respectively.
- Fig. 5 is a central longitudinal section.
- Fig. 6 is a transverse section on line :v w in Fig. 3.
- Fig. 7 is a transverse section on line yy; Fig. 8, on z z.
- Fig. 9 is an enlarged view of the knife detached.
- the metal stock is shown at a, and is provided on the upper part with the rudder- -shaped wings c c c, diverging from a common center, forming bearings on which the cuttercarrying jaw e and the guide-jaws d d are pivoted.
- the lower part of the stock is provided with a shank, which, when the tool is used in an ordinary bit-brace, is left square; but may be round, or of any other suitable shape, when used in a lathe or other machine.
- the part of the stock between the shank and wings, as shown in the drawings, is round, 'and tted to receive the traveling or movable sleeve b, provided with a screw, n, for holding it at any point of adjustment.
- This sleeve b is attached to the hand-wheel p, having camslots, through which the lower ends of the adjusting-jaws pass. Ican, however, accomplish the same result by turning a thread on the round part of the stock, and using in place of the travelingsleeve and hand-wheel a cone-shaped nut of adequate taper to open and close the adjusting-jaws.
- the cutter-carrying jaw e and the guide-jaws d d are pivoted on the wings of the stock and secured by the bolt or screw r.
- the jaws are provided with slanting slots iii, through which the pivoting bolts or screws pass.
- the slanting slots may be in the wings of the stock instead of the jaw. In the latter case the pivotingbolt or screw would play in the wing, and se ⁇ cure the jaw, instead of the manner shown in the drawings.
- the cntter-carryingjaw e has upon its side an elongated wedge-shaped mortise-box, with the opening extending up into the top of the jaw.
- the knife or cutter is set in this ⁇ mortise-box, and is conned by screws passing through slots in the knife or cutter.
- the interior faces of the cutter-carryingjaw and guide-jaws are shaped so as to form segments of a circle, as shown by the transverse section, Fig. 6, second sheet.
- the cam-slots in the hand-wheel are concentric, working from right to left in such a manner as to draw down the lower ends of the jaws, allowed by the pivots, causing the parts of the jaws above the pivots to spread or open as the hand-wheel is turned.
- the camslots and screw n hold it in position, thus producing an adjustment comprehending several sizes.
- the cutter or knife k (shown by the enlarged detached view, Fig. 9) is shaped to conform to the opening in the cutter-carrying jaw e, before described. It has, at the upper end, a chisel-shaped lip, setting at right angles to the upright cutting-edge, and projecting in, when the knife is confined in position for use.
- the oiee of this portion of the cutter or knife is to cut a shoulder on the tenon, which is accomplished by setting the auger to a size smaller than the article on which the tenon is to be cut, or, in other words, so as to leave enough timber for a shoulder.
- the projecting lip ot' the knife is also used when the auger is employed for cutting straight. tenons, which requires the use of the adjustments before described.
- the scope of the auger is, therefore, limited on straight work to intermediate-sized tenons, say, from one-half to one inch, white on tapered work all sizes from three-fourths (if) to one and one-fourth (171i) inches can be formed.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Manufacturing And Processing Devices For Dough (AREA)
Description
zsheets-sheetl. G. N. STE'ARNS.
t .HOLLOW AUGER.
No. 191,817. Patented June1z,1877.
2 Sheets-Sheet 2, G. N. STEARNS.
HOLLOW AUGER.
Patented June12,1877.
ff l f7/, @am
UNITED STATES PATENT OFFICE.
GEORGE N. sTEAENs, OE srEAOUsE, NEW YORK.
IMPROVEMENT IN HOLLOW AUGERS.
Specification forming part'of Letters Patent No. 191,8 I7, dated June 12, 1877 application iiled October 26, 1876.
To all whom it may concern:
Be it known that I, GEORGE N. STEARNS, of the city of Syracuse, in the county of Onondaga, State of New York, have invented a certain new and useful Improvement in Hollow Augers, of which the following is a specification:
rllhis tool, although of the nature of 'a hollow auger, is an entirely new and novel -device for this purpose, and is so constructed as to be readily adj usted, by an ingenious arrangement and combination of movements, to cut tapering tenons of different sizes-a result, I believe, that has never before been accomplished by tools of this description.
Tenons, such as are used upon the outer ends of wagon-spokes and similar articles, can also be cut with this tool. Hence, I denominate it an auger for cutting straight and tapering tenons; and I do hereby declare the following to be such a clear and exact description as will enable any person skilled in the art to which it pertains to construct the same, ref- `erence being had to the accompanying drawings, forming a part of this specification, and to the letters of reference marked therein, like letters indicating corresponding parts in the dierent gures.
This invention is designed, by its adjustaability, to combine in itself a'separate auger for each sized tenon, either straight or tapering, and of any diameter and length within its scope. It also allows for the perceptible variance in the diameter of boring-bits, which experience has demonstrated to be indispensable to the utility of such a tool. But it is more expressly designed for cutting tapering tenons, such as are usedon shaft, pole, whifdetree-tips, &c., for receiving a ferrule. Inorder to provide an effective device, which would conform the taper of the tenon to various standards of the ferrules iu use, I found that it was necessary to make the auger with three distinct adjustments.
The first has reference to the smaller sizes and gradual tapers, and is made by operating the adjustingjaws (hereinafter described) with the hand-wheel having cam-slots in its upper face, as shown in the drawings, or by a cone-shaped nut provided with a thread.
The second adjustment forms a device for cutting larger tenons and more decided tapers, and is accomplished by moving the hand-wheel up on the round part of the stock. The lower ends of the jaws pass through the cam-slots in the hand-wheel, which has a hub or sleeve fitting on the rounded stock, so as tomove up or down, and may be secured at any point by a screw. The jaws are provided with slanting slots, which may be in the wings of the stock, and through which pass bolts forming pivots. This arrangement of the traveling sleeve and the slanting-slots allows this movement, while the set or securing screw makes the adjustment operative on the graduated tapers by securing the hand-wheel and collar at any desired point on the stock, where the rst adjustment can be further utilized for varying the size as desired.
The third adjustment relates to determining the length of the tenons, and is accomplished by inserting a screw of sufficient length in the top of the stock. This screw also regulates the size of the taper-as, for example, if the auger is set for a certain-sized taper, by diminishing the length of screw, the shaft, or on whatever the tenon is being cut, enters farther into the auger, thus changing the size of the taper proportionately as the screw is shortened.
The knife is also adjustable, in order to conform to the various changes of the dierent adjustments above described.
The whole device is made of metal-preferably ot' steel and wrought-iron-and is constructed and arranged in all its parts so as to becompact, strong, and durable.
In the drawings, Figures l and 3 are side views of my newly-invented auger for cutting straight and tapering tenons. (Fig. 1 shows the working of the second adjustment, the hand-wheel pA being moved up on the stock. Fig. 3 shows the hand-wheel and collar as used in the first adjustment.) Figs. 2 and 4 are end views of l and 3 respectively. Fig. 5 is a central longitudinal section. Fig. 6 is a transverse section on line :v w in Fig. 3. Fig. 7 is a transverse section on line yy; Fig. 8, on z z. Fig. 9 is an enlarged view of the knife detached.
The metal stock is shown at a, and is provided on the upper part with the rudder- -shaped wings c c c, diverging from a common center, forming bearings on which the cuttercarrying jaw e and the guide-jaws d d are pivoted. The lower part of the stock is provided with a shank, which, when the tool is used in an ordinary bit-brace, is left square; but may be round, or of any other suitable shape, when used in a lathe or other machine. The part of the stock between the shank and wings, as shown in the drawings, is round, 'and tted to receive the traveling or movable sleeve b, provided with a screw, n, for holding it at any point of adjustment. This sleeve b is attached to the hand-wheel p, having camslots, through which the lower ends of the adjusting-jaws pass. Ican, however, accomplish the same result by turning a thread on the round part of the stock, and using in place of the travelingsleeve and hand-wheel a cone-shaped nut of suficient taper to open and close the adjusting-jaws. The cutter-carrying jaw e and the guide-jaws d d are pivoted on the wings of the stock and secured by the bolt or screw r. The jaws are provided with slanting slots iii, through which the pivoting bolts or screws pass. The slanting slots may be in the wings of the stock instead of the jaw. In the latter case the pivotingbolt or screw would play in the wing, and se` cure the jaw, instead of the manner shown in the drawings.
I ordinarily employ three jawsthe cuttercarrying jaw e and the guide-jaws d d-but am not limited to that number to produce the de` sired results. The cntter-carryingjaw e has upon its side an elongated wedge-shaped mortise-box, with the opening extending up into the top of the jaw. The knife or cutter is set in this` mortise-box, and is conned by screws passing through slots in the knife or cutter. The interior faces of the cutter-carryingjaw and guide-jaws are shaped so as to form segments of a circle, as shown by the transverse section, Fig. 6, second sheet. The exterior of the jaws Yis finished oi as taste may dictate, the lower ends tapering so as to pass through the cam-slots, Fig. 8, second sheet, in the hand-wheel p, before described. The cam-slots in the hand-wheel are concentric, working from right to left in such a manner as to draw down the lower ends of the jaws, allowed by the pivots, causing the parts of the jaws above the pivots to spread or open as the hand-wheel is turned. The camslots and screw n hold it in position, thus producing an adjustment comprehending several sizes. Il" it is desired to make alarger tenon, or to alter the taper to a more conical shape in the large sizes, it is simply necessary to use the second adjustment, before described as consisting of the device of the traveling sleeve and the slanting slots in the jaws, as shown in Figs. 1 and 3, which, when moved up, permit a wider spreading of the jaws, and by employing the cam-slots in the hand-wheel the taper can be graduated as required. To regulate the length of tenon, I provide the screw s, which performs its oiice by being lengthened for a short tenon, and shortened if a longer tenon is required. This screws also changes the size ofthe taper by allowing the article on which a tenen is being cut to enter farther into the auger-a desirable feature in cutting small and tapering tenons. The cutter or knife k (shown by the enlarged detached view, Fig. 9) is shaped to conform to the opening in the cutter-carrying jaw e, before described. It has, at the upper end, a chisel-shaped lip, setting at right angles to the upright cutting-edge, and projecting in, when the knife is confined in position for use. The oiee of this portion of the cutter or knife is to cut a shoulder on the tenon, which is accomplished by setting the auger to a size smaller than the article on which the tenon is to be cut, or, in other words, so as to leave enough timber for a shoulder. The projecting lip ot' the knife is also used when the auger is employed for cutting straight. tenons, which requires the use of the adjustments before described. The scope of the auger is, therefore, limited on straight work to intermediate-sized tenons, say, from one-half to one inch, white on tapered work all sizes from three-fourths (if) to one and one-fourth (171i) inches can be formed.
ln brief, the results mentioned in the foregoing speciication are obtained by the diferent movements combined with the adjusting and cutter-carrying jaws, as described, and as shown in the drawings.
Having thus fully described my invention for cutting tenons, I claim, and desire to secure by Letters Patentl. The adjusting-jaws d d, cutter-carrying jaw e provided with the slots Mz', in combination with each other, and the stock ul provided with the wings c c c and the screw s, substantiallyas herein set forth and described.
2. The hand-wheel p with cam-slots having sleeves b, held on a stock by screw n, in combination with the slotted adjusting-jaws herein described, substantially as and for the purposes specified.
GEO. N. STEARNS.
Witnesses:
JOHN Y. TERRY,l f SOHUYLER W. Tunai?.
Publications (1)
Publication Number | Publication Date |
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US191817A true US191817A (en) | 1877-06-12 |
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US191817D Expired - Lifetime US191817A (en) | Improvement in hollow augers |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20130233121A1 (en) * | 2012-03-06 | 2013-09-12 | Thomas P. Monroe | Locomotive hand brake tools |
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0
- US US191817D patent/US191817A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20130233121A1 (en) * | 2012-03-06 | 2013-09-12 | Thomas P. Monroe | Locomotive hand brake tools |
US9552010B2 (en) * | 2012-03-06 | 2017-01-24 | Thomas P. Monroe | Locomotive hand brake tools |
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