US133254A - Improvement - Google Patents
Improvement Download PDFInfo
- Publication number
- US133254A US133254A US133254DA US133254A US 133254 A US133254 A US 133254A US 133254D A US133254D A US 133254DA US 133254 A US133254 A US 133254A
- Authority
- US
- United States
- Prior art keywords
- spindle
- dead
- live
- oil
- reservoir
- 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
Links
- 241000209094 Oryza Species 0.000 description 3
- 235000007164 Oryza sativa Nutrition 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 235000009566 rice Nutrition 0.000 description 3
- 229920000742 Cotton Polymers 0.000 description 2
- 239000000835 fiber Substances 0.000 description 2
- 230000001050 lubricating effect Effects 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 241000427213 Plukenetia conophora Species 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 238000005461 lubrication Methods 0.000 description 1
- 229920000136 polysorbate Polymers 0.000 description 1
- 230000001846 repelling effect Effects 0.000 description 1
- 239000000126 substance Substances 0.000 description 1
Images
Classifications
-
- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01H—SPINNING OR TWISTING
- D01H7/00—Spinning or twisting arrangements
- D01H7/02—Spinning or twisting arrangements for imparting permanent twist
- D01H7/04—Spindles
- D01H7/06—Stationary spindles with package-holding sleeves
Definitions
- the first part of my invention relates to'the combination of a projection upon the whirl of a live spindle, with the cover of the lower oilreservoir tapered to fit each other, so that a constant current of air is created by the revolution of the whirl from the reservoir; and floating fibers of cotton and dust are blown away from the reservoir and do not enter it.
- the second part of my invention relates to a removable collar secured in the bottom of the oil-reservoir, and serving for a bearing to the live spindle at its lower end on its exterior circumference.
- the third part of my invention relates to the forming of a passage-way in the upper part of the dead spindle to conduct the oil from its exterior to the extreme point of the pin on which the live spindle revolves, and secure the perfect lubrication of every part of the latter; and relates also to the combination of the live spindle and dead spindle in such a manner that while the interior surface of the former revolves sufficiently near the latter to carry up oil from the lower reservoir for lubricating the upper bearin g of the latter, yet they do not touch each other between the bearings of the live spindle, thereby obviating the friction created by the con tact of the live and dead spindles throughout their length, when made as heretofore.
- Figure l is an elevation of my spindle and lower oil-reservoir.
- Fig. 2 is a section of the same in a vertical plane.
- Fig. 3 is a vertical section of a modification of the same, showing the upper bearing in a reverse position.
- Fig. 4 is a section of the upper bearin g and bushing in the same plane, showing another modification of Fig. 2.
- A is a section of the rail of a spinningframe, into which the lower oil-reservoir B is firmly secured by a. nut or set-screw. From the reservoir projects upward, perpendicularly, a dead spindle, G. On the dead spindle is placed the live spindle D E, as shown.
- F is the whirl, having on its lower edge an annular projection, a, tapering downward and inward from the periphery of the whirl. This projection extends below the upper surface of the cover of the oil-reservoir B, and in the cover is formed a hole, in which the projection a revolves, made somewhat larger than the projection, and tapered on its edge to correspond with the taper of the projection.
- the projection a revolving with the live spindle, creates a constant current of air outward from the oilreservoir, repelling any floating fibers of cotton which would otherwise fly into the oilchamber, and which have hitherto proved a great annoyance.
- Small holes 0 o are made in the cover of the oit-reservoir to admit air to it.
- G is a screw engaging with a thread in a lateral hole through the cover of the oil-reservoir, and the point of which, when the screw is turned up, passes above the collar 0, which is secured to the live spindle. When turned up,
- the screw G thus prevents thelive spindle from being lifted off the dead spindle; but when turned back the point of the screw is withdrawn and the live spindle may be removed.
- I is a removable tube or collar driven into the lower part of the oil-reservoir, and serving as a bearing in which the lower end of the live spindle revolves. the oil to the bearings. When worn, this collar may be removed at a trifiin g expense and a new one substituted.
- the collar d being secured to the oil-reservoir B independent of the dead spindle 0, holds or carries the live spindleD E, free from and independent of the dead spindle, from the upper end of the latter to the lower end of the live spindle.
- the live spindle D E is made to revolve so closely to the surface of the dead spindle O that the oil is carried up by its revolution to the heel or bottom part of the pin or hearing 00, on which the weight of the spindle rests, and which forms its upper hearing; but, owing to the tapering form of the pin 00, when the spindle is revolving no oil will enter at that end of the pin between it and its bushing attached to the other spindle, being repelled by the centrifugal force. It is therefore necessary to provide some other means of conducting the oil to the extreme point of the pin a, when the centrifugal force will carry it along the pin and the latter be fully lubricated.
- S is the bushing, which revolves upon the pin :20, or in which the pin revolves, and I make a hole or passage-way, 1', through the side of the dead spindle 0, leadin g to the point in the bushing where the extreme tip of the pin 00 rests.
- the pin is secured in the live spindle, and projects downward into the bushing, and the passageway r conducts the oil through the dead spindle and bushing to its extreme point.
- the pin is made upon the dead spindle, and the bushing is placed in the live.one, and the passage-way r, entering the dead spindle as before, is carried up through the center of the pin 00 to its extreme point.
- I11 Fig. 4 the passage-way 4" passes through the bushing in the live spindle to the extreme point of the pin av.
- the dead spindle G or bushing S provid- I ed with the passage-way r for conducting oil from its exterior to the extreme point of the upper bearin g of the live spindle, substantially as described.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Textile Engineering (AREA)
- Spinning Or Twisting Of Yarns (AREA)
Description
D. H. RICE.
'Hnprovement in Spindles for Spinning-Machines.
Patented Nov. 19,1872.
cyzfginwses. jrzvem 'or.
J V v z? gnu '1' 1 A AM PHOW-UTHOUIMFH/C CaMKm-YEURNES PROCESS) wrrnn DAVID HALL RICE, or LOWELL, MASSACHUSETTS.
IMPROVEMENT INSPINDLES FOR 8PlNNiNG-MACHINES.
Specification forming part of Letters PatentNo. 133,254, dated November 19, 1872.
To all whom it may concern:
Be it known that I, DAVID HALL RICE, of Lowell, in the county of Middlesex and State of Massachusetts, have invented certain Improvements in Spindles for Spirining-lllachines, of which the following is a specification:
The first part of my invention relates to'the combination of a projection upon the whirl of a live spindle, with the cover of the lower oilreservoir tapered to fit each other, so that a constant current of air is created by the revolution of the whirl from the reservoir; and floating fibers of cotton and dust are blown away from the reservoir and do not enter it. The second part of my invention relates to a removable collar secured in the bottom of the oil-reservoir, and serving for a bearing to the live spindle at its lower end on its exterior circumference. The third part of my invention relates to the forming of a passage-way in the upper part of the dead spindle to conduct the oil from its exterior to the extreme point of the pin on which the live spindle revolves, and secure the perfect lubrication of every part of the latter; and relates also to the combination of the live spindle and dead spindle in such a manner that while the interior surface of the former revolves sufficiently near the latter to carry up oil from the lower reservoir for lubricating the upper bearin g of the latter, yet they do not touch each other between the bearings of the live spindle, thereby obviating the friction created by the con tact of the live and dead spindles throughout their length, when made as heretofore. I
Figure l is an elevation of my spindle and lower oil-reservoir. Fig. 2 is a section of the same in a vertical plane. Fig. 3 is a vertical section of a modification of the same, showing the upper bearing in a reverse position. Fig. 4 is a section of the upper bearin g and bushing in the same plane, showing another modification of Fig. 2.
A is a section of the rail of a spinningframe, into which the lower oil-reservoir B is firmly secured by a. nut or set-screw. From the reservoir projects upward, perpendicularly, a dead spindle, G. On the dead spindle is placed the live spindle D E, as shown. F is the whirl, having on its lower edge an annular projection, a, tapering downward and inward from the periphery of the whirl. This projection extends below the upper surface of the cover of the oil-reservoir B, and in the cover is formed a hole, in which the projection a revolves, made somewhat larger than the projection, and tapered on its edge to correspond with the taper of the projection. The projection a, revolving with the live spindle, creates a constant current of air outward from the oilreservoir, repelling any floating fibers of cotton which would otherwise fly into the oilchamber, and which have hitherto proved a great annoyance. Small holes 0 o are made in the cover of the oit-reservoir to admit air to it. G is a screw engaging with a thread in a lateral hole through the cover of the oil-reservoir, and the point of which, when the screw is turned up, passes above the collar 0, which is secured to the live spindle. When turned up,
. the screw G thus prevents thelive spindle from being lifted off the dead spindle; but when turned back the point of the screw is withdrawn and the live spindle may be removed. (I is a removable tube or collar driven into the lower part of the oil-reservoir, and serving as a bearing in which the lower end of the live spindle revolves. the oil to the bearings. When worn, this collar may be removed at a trifiin g expense and a new one substituted. The collar d, being secured to the oil-reservoir B independent of the dead spindle 0, holds or carries the live spindleD E, free from and independent of the dead spindle, from the upper end of the latter to the lower end of the live spindle. In this respect it differs from former dead and live spindles, the lower end of the live spindle having been supported on or borne against the dead spindle heretofore. There is always a vibration or jar of the other parts of the machinery, transmitted by the band which drives the live spindle, and when the live spindle is supported at its lower end, near the whirl, against the dead spindle, this vibration or jar is communicated to the dead spindle at that point. The lower part of the dead spindle bein g secured firmly in the bolster or rail of the frame, this jar or vibration acts toward'its upper end, where it is more intense in proportion to the length of the dead spindle above the rail, and consequently causes the upper bear ing of the live spindle, at the end of the dead spindle, to vibrate, and affects the steadiness Parnrrr Grrr cn Through this collar holes 11 i admit of rotation of the live spindle. By the described method of supporting the live spindle by its lower bearing or bolster d, whichis very near the whirl F, independently of and free from the dead spindle, the vibration from the band on the whirl F is principally exhausted against the lower bearing d, and none of it is communicated to the dead spindle 0 near the whirl, and very little at the upper spindle-bearin g, and the live spindle runs much moresteadily than with its lower hearing or end supported or bearing against the dead .spindle. The live spindle D E is made to revolve so closely to the surface of the dead spindle O that the oil is carried up by its revolution to the heel or bottom part of the pin or hearing 00, on which the weight of the spindle rests, and which forms its upper hearing; but, owing to the tapering form of the pin 00, when the spindle is revolving no oil will enter at that end of the pin between it and its bushing attached to the other spindle, being repelled by the centrifugal force. It is therefore necessary to provide some other means of conducting the oil to the extreme point of the pin a, when the centrifugal force will carry it along the pin and the latter be fully lubricated. S is the bushing, which revolves upon the pin :20, or in which the pin revolves, and I make a hole or passage-way, 1', through the side of the dead spindle 0, leadin g to the point in the bushing where the extreme tip of the pin 00 rests. In Fig. 3 the pin is secured in the live spindle, and projects downward into the bushing, and the passageway r conducts the oil through the dead spindle and bushing to its extreme point. In Fig. 2 the pin is made upon the dead spindle, and the bushing is placed in the live.one, and the passage-way r, entering the dead spindle as before, is carried up through the center of the pin 00 to its extreme point. I11 Fig. 4 the passage-way 4" passes through the bushing in the live spindle to the extreme point of the pin av.
As the several parts perform the same funcspindle to carry up oil from the lower reservoir to lubricate the upper hearing, as before described, yet the live spindle is prevented, by its bearings, from touching the dead spindle at any point between the bearings. In this the live and dead spindles are combined differently from those of other duplex spindles,
which have been heretofore made to touch or revolve against each other substantially throughout their entire length when intended to carry the oil from the lower oil-cup to the upper bearing or end; and when intendoff one side of thedead spindle, so that theyceased to carry up the oil as eifeotively as at first; while in the latter case, the upper and lower bearings being independent, great difficulty and expense of lubricating the upper bearing from its inaccessible position ensued. By my method of combining the-dead and live spindles, I obviate allthese difficulties, preventing friction and wear of the dead and live spindles, and keeping my upper bearing automatically lubricated at all times from the lower oil-reservoir.
I have found that a uniform distance of from the one to two hundredth part of an inch be tween the internal surface of the live and the dead spindles operates effectively to raise the oil from'the lower reservoir to the upper bearing, and prevent the live and dead spindles coming in contact between the bearings; but the spindles D E and C may be placed at any other distance which will prevent their coming in contact between the bearings, and elevate the oilto the upper bearing, as I have described.
What I claim as new and my invention is-- 1. The combination of the tapering part a of the whirl with the perforated cover of the oilreservoir B in which it rotates, constructed, as described, so as by the revolution of the former to create a current of air and repel floating substances from the oil-reservoir, substantially as described. 7
2. The collar d secured to the oil-reservoir, and combined with and forming a lower bushing or bearing for the live spindle D E, substantially as described.
3. The dead spindle G or bushing S, provid- I ed with the passage-way r for conducting oil from its exterior to the extreme point of the upper bearin g of the live spindle, substantially as described.
4. The combination of the live spindle D E with the dead spindle 0 by means of its lower and upper bearings, so that the spindles shall not come in contact with each other between the bearin gs, and yet be near enough to each other to carry up oil between them from the reservoir Bto the upper bearing, substantially as described.
-Witnesses: DAVID HALL RICE.
J. T. HASKELL, WALTER R. YORK.
Publications (1)
| Publication Number | Publication Date |
|---|---|
| US133254A true US133254A (en) | 1872-11-19 |
Family
ID=2202670
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| US133254D Expired - Lifetime US133254A (en) | Improvement |
Country Status (1)
| Country | Link |
|---|---|
| US (1) | US133254A (en) |
-
0
- US US133254D patent/US133254A/en not_active Expired - Lifetime
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US133254A (en) | Improvement | |
| US1180338A (en) | Spinning-spindle. | |
| US135939A (en) | Improvement in spindles for spinning-machines | |
| US124488A (en) | Improvement in spindles for spinning-machines | |
| US446207A (en) | Support for spinning-spindles | |
| US135190A (en) | Improvement in spindle-bolsters for spinning-machines | |
| US263942A (en) | Spindle and bearing therefor | |
| US718349A (en) | Spindle and bearing. | |
| US2942919A (en) | Bearing arrangement on a vertical shaft | |
| US412996A (en) | Support for spinning-frame spindles | |
| US248816A (en) | Device for supporting and lubricating the spindles of ring-spinning frames | |
| US480984A (en) | Spinning and twisting mach in e spin ole | |
| US779835A (en) | Spindle and bearing. | |
| US242257A (en) | Foueti-i to asa bbieeley | |
| US234897A (en) | Mechanism for supporting | |
| US872019A (en) | Whorl for cap spinning-frames. | |
| US593448A (en) | Island | |
| US186486A (en) | Improvement in bolsters and steps for spinning-machines | |
| US137236A (en) | Improvement in spindles for spinning-machines | |
| US876246A (en) | Spindle-bearing. | |
| US253078A (en) | James marsh and james a | |
| US295899A (en) | h n bib ke | |
| US614896A (en) | Spindle | |
| US131705A (en) | motq-ittmqqrtphic cqmk fqssowe s pxqcessj | |
| US778822A (en) | Bearing. |