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Publication numberUS2125864 A
Publication typeGrant
Publication dateAug 9, 1938
Filing dateMar 24, 1936
Priority dateMar 24, 1936
Publication numberUS 2125864 A, US 2125864A, US-A-2125864, US2125864 A, US2125864A
InventorsWilliam Auckland
Original AssigneeWilliam Auckland
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Glass-tube cutter
US 2125864 A
Abstract  available in
Images(1)
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Claims  available in
Description  (OCR text may contain errors)

Aug. 9, 1938.

W. AUCKLAND GLASS TUBE GUTTER Filed March 24, 1936 IN V EN TOR.

N .at VS v ATTO/wmf.

Patented Aug. 9, 1938 UNITED STATI-s PATENT oFFlcE GLASS-TUBE CUTTER WilliamV Auckland, Seattle, Wash. h Application March 24, 1936, Serial No. '70,666`

7 Claims.

This invention relates to glass-tube cutters and has for its objects the provision of an improved device of this character which acts to press the cutting tool into cutting relation to the inner periphery of the tube through internal rather than external pressure as heretofore employed, which acts, through the manner in which such pressure is applied internally, to eliminate tube loss by breakage, heretoforeV common, which through its improved manner of applying pres- I sure affords amore effective purchase and acts to Amaintain a relatively constant tension irrespective of the length of tubebeing cut, which through its elimination of pressure-applying L means externally of the tube allows the tube to be more effectively grasped by the operator for revolubly actuating the tube relative to the cutting tool, `and whichv otherwise is so constituted and devised as to simplify the structural design 2`0`- and provide a tube cutter generally more efficient than heretofore. The invention consists in the novel construction, adaptation, and combination of parts hereinafter described and claimed.

In the drawing- Figure 1 is -a view, partially in side elevation and partially in longitudinal vertical section, il-

` lustrating the now preferred embodiment of the invention as the same is applied in cutting a i glasstube. i

' Fig. 2 is a fragmentary side elevation of the invention with the parts shown in their normal inoperative positions.

Fig, 3 is a fragmentary top view thereof.

Fig. 4 is a transverse vertical section taken through 4--4 of Fig. 1; and

Fig. 5 is a plan view to more particularly disclose the forked ends with which the spring employed in the device is provided.

The implement comprises a hollow cylindrical barrel, designated in the drawingby the numeral 6, and provided in the outer end thereof is an integral tip I which constitutes a prolongation of p the barrel. The end of the barrel is longitudinally slotted and the assembly` which I indicate employs a tip having a reduced extension sweated inthe outer portion of the slotted end. Extending longitudinally as respects one side of the tip is a flattened seat 8 of a bowed contour and this seat terminates at its outer end in a notch 9 which, in transverse section, is desirably arcuate to receive one end of a terminally forked leaf spring I0, the opposite end of said spring fitting over a hook-forming projection I I provided by an operating rod I2 slidably received in the bore of the barrel. Said projection I I extends laterally through the end slot of the barrel and serves the dual purpose of preventing rotary movement of the rod and limiting the retractive movement thereof through a contact with the shoulder I3 defining the rear terminus of the slot.

, Supported by said tipto position the same diametrically opposite from the spring and relatively medially ofthe spring ends is a rotary cutter wheel I5 journaled on a removable pin I6 to protrude the cutting perimeter slightly beyond the peripheral surface of the tip. Any character of cutting tool such, for example, as a diamond point or the metal alloy, Hastelite, may be employed, in which event a suitable socket is provided in the tip to replace the transverse chcrdal slot which receives the wheel. y

Reverting to the rod I2 which extends through the bore' of the barrel, the exposed outer end of the same is threaded to receive a hand-operated button I'I, the barrelhaving a finger-gripping member I8 fixedly secured thereon to accommodate compression by the operators palm of the button I'I for actuating the spring I0 into tube-engaging bowed position.

I9 indicates a sliding collar sleeved over the barrel, the collar providing a stop flange against which the tube to be cutis engaged. designates a locking screw for the collar and I illustrate in the drawing a graduated scale emanating in the cutting plane of the wheel for positioning the collar, the scale being impressed or otherwise suitably formed on the surface of the barrel.

The operation of the device should be readily understood from an inspection of Figs. 1 and 4 of the drawing, the glass tube T being introduced over the device to engage the end against the stop ange of the positioned collar I9, following which the rod I2 is forced inwardly under pressure of the operators palm to apply spring pressure to the inner wall of the tube at a point diametrically opposite from and in the approximate cutting plane of the wheel I5. 'I'he tube is turned by the operator through a complete revolution to effect a cutting penetration by the cutter wheel of what is commonly termed the inner skin of the glass, the cutter device is removed from the tube, and the tube is then snapped to easily separate the tube sections on the transverse line of the cut.

So far as I am aware, glass-tube cutters as previously developed have employed external pressure which generally is applied tothe tube at a point radially aligned with the cutting tool, the resulting compression of the tube under the opposing influence of the tension mechanism and the cutting tool, especially where any appreciable pressure is applied, resulting in a cracking of the tube. Tube-cutters of this character are, for such reason, impractical Afor use in cutting Pyrex tubes and similarly are incapable of practical use with glass tubes of relatively thick wall construction.

While I have herein described the illustrated preferred embodiment of my improvements, it is my intention that no limitations be implied other than as may appear in the following claims and I intend that such claims be given a breadth in their construction commensurate with the scope of the invention Within the art.

What I claim, is:

1. A glass-tube cutter comprising the combination of a hollow cylindrical barrel insertable Within the tube and provided with a segmental slot, a cutter wheel journaled for rotary movement in said slot to dispose the wheel in eccentric relation to the barrel with the cutting edge thereof exposed, a longitudinally extending leaf spring detachably carried by the barrel to locate the spring diametrically opposite from the cutter wheel, the ends of said spring extending approximately equal distances in opposite directions from the cutting plane of the wheel, and means comprising a rod slidably carried in the bore of the barrel, operatively engaging said spring, for bowing the spring outwardly into pressure-applying engagement to the inner Wall of the tube for influencing the cutter into cutting engagement with the tube.

2. The glass-tube cutter as defined in claim l in which a seat having a slightly bowed contour in side elevation is provided by the barrel to re.- ceive the spring in the normal expanded position of the spring for preventing a cramping action as the rod is actuated in its spring-contracting movement.

3. In a glass-tube cutter, the combination of a hollow cylindrical barrel insertable within the tube to becut, a rotary cutter wheel supported by and in eccentric relation to the barrel to expose the cutting edge of the wheel, a longitudinally disposed leaf spring carried by the barrel at the Y side diametrically opposite the cutter wheel, and

longitudinally movable means received through the bore of the barrel and having operative engagement with the spring for bowing the spring outwardly to apply pressure upon the inner wall of the tube. being cut.

4. A glass-tube cutter comprising the combination of a hollow cylindrical barrel insertable within the tube to be cut, a laterally projecting cutter device carried by the barrel, a longitudinally disposed leaf spring also carried by the barrel to locate the same diametrically opposite from the cutter device, the ends of said spring extending approximately equal distances in opposite directions from the cutting plane of the cutter device, and means extending through the bore of the barrel into operative engagement with the spring for bowing the spring outwardly into pressureapplying engagement to the inner wall of the tube for influencing the cutter into cutting engagement with the tube. f

5. A glass-tube cutter comprising the combination of a support insertable within the tube to be cut, laterally projecting cutting means carried by the support, a longitudinally disposed leaf spring carried by the support to locate the spring opposite to the cutting means, and means operatively engaging said spring for bowing the spring outwardly into pressure-applying engagement to the inner wall of the tube for iniiuencing the cutting means into cutting engagement with the tube.

6. A glass-tube cutter comprising the combination of a support insertable within the tube to be cut, laterally projecting cutting means carried thereby, a spring carried by the support to engage the inner wall of the tube at the side opposite that engaged by the cutter, and pressure-applying means operatively engaging said spring for actuating the spring into its tube-engaging position.

'7. A glass-tube cutter comprised of the combination of a support adapted to be inserted within the tube to be cut, cutting means carried thereby to extend laterally from the support, and means for manually transmitting yieldable pressure on the tube to inuence the tube into cutting relation with said cutting means, said last-named means comprising a manually-operated pressure-applying rod movable longitudinally relative to the support and a pressure-transmitting member of spring characteristics directly connected with said rod for converting the longitudinal pressure of said rod to a lateral pressure upon the tube.

WILLIAM AUCKLAND.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2674066 *Jun 20, 1951Apr 6, 1954Int Harvester CoApparatus for cutting glass tubing
US3977076 *Oct 23, 1975Aug 31, 1976One Michigan Avenue CorporationInternal pipe cutting tool
US4040182 *Jun 7, 1976Aug 9, 1977Dell Dennis R OHolder for glass cutter
US5768741 *Sep 27, 1996Jun 23, 1998Leiman; Basil C.Flexible pipe cleaning device and system
US5987683 *Jun 22, 1998Nov 23, 1999Leiman; Basil C.Flexible pipe cleaning device and system
US6276018Dec 28, 1999Aug 21, 2001Basil C. LeimanFlexible pipe cleaning device and system
US8157919Aug 4, 2010Apr 17, 2012Endoclear, LlcMethods for removing debris from medical tubes
US8381345Mar 26, 2010Feb 26, 2013Endoclear, LlcDevices for cleaning endotracheal tubes
US8382908Feb 5, 2010Feb 26, 2013Endoclear, LlcMethods for cleaning endotracheal tubes
US8458844Aug 4, 2010Jun 11, 2013Endoclear, LlcMedical tube cleaning apparatus
US8468637Aug 3, 2010Jun 25, 2013Endoclear LlcMechanically-actuated endotracheal tube cleaning device
US8534287Aug 4, 2010Sep 17, 2013Endoclear, LlcMethods for tracheostomy visualization
US8601633Feb 22, 2013Dec 10, 2013Endoclear LlcCleaning of body-inserted medical tubes
US9095286Dec 9, 2013Aug 4, 2015Endoclear LlcBody-inserted tube cleaning
US9332891Sep 16, 2013May 10, 2016Endoclear LlcTracheostomy visualization
US9386907Jun 24, 2013Jul 12, 2016Endoclear LlcVisualization systems and methods
US9398837Mar 28, 2011Jul 26, 2016Endoclear LlcMethods for confirming placement of endotracheal tubes
US9445714Oct 26, 2012Sep 20, 2016Endoclear LlcEndotracheal tube coupling adapters
US9579012Oct 5, 2012Feb 28, 2017Endoclear LlcVisualized endotracheal tube placement systems
DE744233C *Apr 1, 1941Jan 20, 1944Gotthold Koechert & SoehneMaschine zum Abtrennen gleich langer Stuecke von Glasrohren
Classifications
U.S. Classification30/103, 15/104.9, 30/164.95
International ClassificationC03B33/00, C03B33/14
Cooperative ClassificationC03B33/14
European ClassificationC03B33/14