US64800A - ryo-catteau - Google Patents
ryo-catteau Download PDFInfo
- Publication number
- US64800A US64800A US64800DA US64800A US 64800 A US64800 A US 64800A US 64800D A US64800D A US 64800DA US 64800 A US64800 A US 64800A
- Authority
- US
- United States
- Prior art keywords
- spindle
- tube
- shaft
- pulley
- bobbin
- 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
- 238000009987 spinning Methods 0.000 description 12
- 230000000694 effects Effects 0.000 description 10
- 238000004804 winding Methods 0.000 description 10
- 239000000203 mixture Substances 0.000 description 4
- 210000003414 Extremities Anatomy 0.000 description 2
- 229910000831 Steel Inorganic materials 0.000 description 2
- 238000010276 construction Methods 0.000 description 2
- 230000002452 interceptive Effects 0.000 description 2
- 230000000979 retarding Effects 0.000 description 2
- 239000010959 steel Substances 0.000 description 2
- ATJFFYVFTNAWJD-UHFFFAOYSA-N tin hydride Chemical compound [Sn] ATJFFYVFTNAWJD-UHFFFAOYSA-N 0.000 description 2
Images
Classifications
-
- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01H—SPINNING OR TWISTING
- D01H1/00—Spinning or twisting machines in which the product is wound-up continuously
Definitions
- Figure 2 is an elevation on the side ofthe spindles. I I
- Figure 3- is a section made in front of one of the spindles.
- the spindle which I have invented may be applied to all spinning machines and twiners.
- I have only shown two of my spindles, but it will of course be understood that any desired number may be employed; the only object I have in so representing these being to illustrate the'manner in which they may be employed.
- Fig. 4 represents a vertical section of the spindle completely prepared and ready for work.
- Fig. 4 62's represents the shaft of the spindle. It consists of a cylindrical rod, A, in which a longitudinal groove, B, is formed. On the red A is placed a tube, 0, which traverses with a slight friction the stationary bar E, and to the top of the tube the sooketof the flyer G is secured by screws. Below the tube C there is a second tube, F, shown indetail in fig. 5, provided with a pin, K, oncend of which is inserted in the groove B, and the other is placed in the space left between the two helicoidal inclined planes H I. The plane H, figs.
- a shoulder, W betweenwhich and .a second shoulder, W, lower down, is held a steel sleeve or ferrule, cZ,-lcosely adjusted on the tube.
- the sleeve is connected with the forked lever f, whose pivot or point of oscilla on is at e, fig. 1, by means of screws diametrically opposite each other.
- the lever has mounted on its .end
- a friction-roller which presses constantly upon a heart-shaped eccentric or cam, g, mounted loosely on the shaft i, but capable of being solidly or rigidly connected therewith, if desired, by moving the lever t so as to cause a pin to penetrate a hole made in the plate j, rigidly secured to the shaft t.
- a fast pulley, P is mounted near the lower end of the rod A, by means of which, when it is connected by a cord with the balance-weight S, fig. 4, a slight friction can be obtained, which will continually tend to retard" the motion of the spindle calrying thcbobbins R, which are rigidly secured to the shaft A.
- the lower end of the spindle is received in a sockct,l, fig. 4, attached to the cross-beam Q, which is movable, so as to permit, by its vertical reciprocating movement, the thread to be distributed and wound regularly over the whole length of the bobbin.
- This reciprocating movement of the cross beam is suiiici'ently indicated in the drawings. It may be varied to suit the different kinds of bobbins employed. As, for instance,-if it be desired to spin or to double andtwist on bobbins such as those represented in the drawings, it will be suflicicnt to give the cross-beam Q a vertical reciprocating movement which may be more or less rapid, but should equal in length the distance between the parts at a of the bobbin.
- the reciprocating movement of the cross beam therefore, depends entirely, in this respect, upon the length of the bobbin,
- the tube F When, however, the tube F is elevated or lowered by the action of the lever f, which is actuated by the lie'arbshuped cam y, it and the shaft A slacken their movement; and the diminution in the number of revolutions made by the spindle which carries the bobbins and the tube to which the pin'K is attached is just equal to the number of times the tube F has been raised or lowered. For instance, suppose that the pulley L makes six thousand revolutions in two minutes, then the sleeve or, box which surrounds the helicoidal planes and the flyer, will also make six thousand revolutions. If during the same time the tube F,-whicl1 carries the pin K, has.
- the machine receives the action of the motor power upon a pulley, A, mounted on the shaft a of the lower cone 13.
- a pulley, A mounted on the shaft a of the lower cone 13.
- the long tin drum 0, around which pass the cords or bands which actuate the spindles, auditis provided at one of its ends with an endless screw, b, engaging-witlrthe pinion c1 of the inclined shaft Z, upon whose other end a pinion, c, is mounted, which, by friction of contact, actuates the wheel f" on the shaft of the feed cylinder 1.
- a pinion, h At one of the extremities of the shaft 9 of the upper cone D is placed a pinion, h, and by the combination of the wheels and pinions indicated in r'edlines, the desired degree of velocity is'imparted to the pulley E, which transmits it by means of belting to the pulley F, mounted on the shaft K and the pulley G, which is secured on the latter, transmits the movement to the pulley H, which causes the rotation of the shaft 2', and, consequently, all the heartshaped eccentrics g, which cause the oscillation of the levers f, impart-to the mechanism of the spindle thevertical reciprocating movement which effects the winding up of the thread as above described.
- the up-and-down motion of the cross-beam Q which carries the spindle is communicated'from theshaft g, and, through the intermediary of the gearing and endless screws indicated in the drawing, the shafts o and 1t are revolved.
- the heart-shaped eccentric r', figs. 2 and 3, in actuating the lever q', causes it to produce a reciprocating movement, which is transmitted by means of chains, which pass over the rollers or and the drum 2 to the cross-beam Q.
- the belting is made to slide upon the two cones B D; to this effect the movement is taken from the shaft 9, and through the intermediary of thebalance-weights s s, and of the chain which is wound and unwound on the drum or pulley L, the bar M, which carries the forked arm 19, is caused to slide between the rollers t to.
Description
2 Sheets vSheet 1.
.f RYO-CATTEAU. Spindie for Spinning Machines.
Patented May 14 THE Noam PETERS co. PHOYO-LITHO, wAsnma'mn, o. c.
2 Sheets+-Sheet Z 1. M. RYO-CATTEAU. Spindle for Spihning Machines.-
Patented May 14, 1867.
Vl E'tm; sses:
Ail my Quint fates against @ffirr.
JOSE-PH MARIE uY o-oA'r'rN U, or PARIS, FRAN-UE'.
Lam-s Patent No. 64,800, dated May 14, 1867.
IMPROVEMENT IN srINDLNs FOR SPINNING MNcuIN s.
TO wnon- IT MAY CONCERN:
Be it known that I, JOSEPH MARIE RYo-GATTnAU, of Paris, in the Empire of France, have invented certain new and useful improvements in Spindles for Spinning and other Machines; and I hereby declare the following, to-be a full, clear, and exact description of the same, reference being had to the accompanying drawings, in whicl1- Figure 1 is an elevation 'of a spinning machine to which my improved spindles are applied.
Figure 2 is an elevation on the side ofthe spindles. I I
Figure 3-is a section made in front of one of the spindles; and
Figures 4 to 9 represent in detail the parts of which my improved spindle is composed."
The spindle which I have invented may be applied to all spinning machines and twiners. In the spinning frame represented in the drawings I have only shown two of my spindles, but it will of course be understood that any desired number may be employed; the only object I have in so representing these being to illustrate the'manner in which they may be employed.
In order not to complicate the drawings, I have represented in red lines, in fig. 3, the system of gearing I and belting by which niotionis transmitted to the different parts of the machine. The threads which are wound upon the bobbins are also represented in red lines.
It is not necessary to enter at present into the .details of the construction of the different parts of the machine, which I'have shown in illustration of my invention; its general arrangement will be readily understood by reference to the drawings, and I will there-force ter at once upon the description of the principal part of my invention, that is to say, the spindle, and the manner in which it operates.
Fig. 4: represents a vertical section of the spindle completely prepared and ready for work. Fig. 4 62's represents the shaft of the spindle. It consists of a cylindrical rod, A, in which a longitudinal groove, B, is formed. On the red A is placed a tube, 0, which traverses with a slight friction the stationary bar E, and to the top of the tube the sooketof the flyer G is secured by screws. Below the tube C there is a second tube, F, shown indetail in fig. 5, provided with a pin, K, oncend of which is inserted in the groove B, and the other is placed in the space left between the two helicoidal inclined planes H I. The plane H, figs. 4 and 6, fits upon the pulley L, the other, I, figs. 4 and 7, is placed on thc socket M, and both are held firmly in place by means of the long ferrule or sleeve N, figs. 4 and 8, fastened likewise to the pulley' L and socketM by screws, as shown in fig. 4. By means of the helicoidal curve of these inclined planes it results that their development will be rectilinear, and they will therefore appear as is represented in fig. 9, in which is shown thepath traversed by the pin K, in order to pass from the lowcr to the upper helicoidal plane. The pin K should have a certain play or freedom of motion in the space between the two planes, as is indicated at K K K, fig. 9. Near the base of the tube F is a shoulder, W, betweenwhich and .a second shoulder, W, lower down, is held a steel sleeve or ferrule, cZ,-lcosely adjusted on the tube. The sleeve is connected with the forked lever f, whose pivot or point of oscilla on is at e, fig. 1, by means of screws diametrically opposite each other. The lever has mounted on its .end
a friction-roller, it, which presses constantly upon a heart-shaped eccentric or cam, g, mounted loosely on the shaft i, but capable of being solidly or rigidly connected therewith, if desired, by moving the lever t so as to cause a pin to penetrate a hole made in the plate j, rigidly secured to the shaft t. A fast pulley, P, is mounted near the lower end of the rod A, by means of which, when it is connected by a cord with the balance-weight S, fig. 4, a slight friction can be obtained, which will continually tend to retard" the motion of the spindle calrying thcbobbins R, which are rigidly secured to the shaft A. The lower end of the spindle is received in a sockct,l, fig. 4, attached to the cross-beam Q, which is movable, so as to permit, by its vertical reciprocating movement, the thread to be distributed and wound regularly over the whole length of the bobbin. This reciprocating movement of the cross beam is suiiici'ently indicated in the drawings. It may be varied to suit the different kinds of bobbins employed. As, for instance,-if it be desired to spin or to double andtwist on bobbins such as those represented in the drawings, it will be suflicicnt to give the cross-beam Q a vertical reciprocating movement which may be more or less rapid, but should equal in length the distance between the parts at a of the bobbin. The reciprocating movement of the cross beam, therefore, depends entirely, in this respect, upon the length of the bobbin,
Having described the component parts of my improved spindle, I will now proceed to indicate the manner in which it operates, to effect at the same time both the winding and the twisting of the threads, These efi'ccts are produced by an arrangement of the spindle by which at a given moment the bobbins and flyer are rigidly connected with each other, and constitute, in fact, but one piece, thus effecting the twisting, while'at the next moment the connectionbctwccn the two is broken, and the flyer again resumes its independent movement. This result is obtained by the up-and-down movement of the pin K along the helicoidal planes H I.
Let it be supposed that the machine is arranged for only twisting the threads already spun and twisted in two strands, in which case one series of feed cylinders, a s, will suifice. (See figs. 1, 2, 3.) In the first place, the velocity of the reciprocating movement of the tube F, which carries the pin K, should be in direct proportion to that of the feed cylinders r s. The pulley L, flyer Gr, and the sleeve N, which surrounds the two helicoidalplanes H I, being fast to the tube 0, all these pieces will make the same number of revolutions as the tube.- The spindle A, and, consequently, the bobbins R and thc' tube F, which carries the pin K, will also make the same number of revolutions. When the tube F is at rest, (2'. cl, so far as its upward and downward movement is concerned,) all the parts of the spindle, without exception, will revolve together. When, however, the tube F is elevated or lowered by the action of the lever f, which is actuated by the lie'arbshuped cam y, it and the shaft A slacken their movement; and the diminution in the number of revolutions made by the spindle which carries the bobbins and the tube to which the pin'K is attached is just equal to the number of times the tube F has been raised or lowered. For instance, suppose that the pulley L makes six thousand revolutions in two minutes, then the sleeve or, box which surrounds the helicoidal planes and the flyer, will also make six thousand revolutions. If during the same time the tube F,-whicl1 carries the pin K, has. completed three entire up-anddown or reciprocating movements, the spindle A and the bobbin R, as well as the tube 15', will have made six. thousand revolutions less three; that is to say, five thousand nine hundred and ninety-seven revolutions. And these three revolutions will have been used for winding upon the bobbin thread furnished from the feed cylinders r s. It is therefore necessary to regulate the velocity of these cylinders in such manner that the length of thread furnished by them should equal the length of thethread taken up by the bobbin. In this waythe thread will be subjected to no strain in winding around its bobbin.
The experiments which have been made leave no doubt as to'the good results of my invention, since I have been able, without breaking them, to double-twist and wind woollen threads of little tenacity; and'I may here add that if by any mischance a thread should break, it'can be reattached with perfectfacility by unlocking the spindle by means of the lever 15. The up-and-down movement will thencease, and by seizing with the hand the sleeve N, the rotationf'of the flyer will be arrested. Nothing then prevents the re-attaching of the broken thread, which is done without interfering with the continued operation of the machine.
The machine receives the action of the motor power upon a pulley, A, mounted on the shaft a of the lower cone 13. Upon this shaft is secured the long tin drum 0, around which pass the cords or bands which actuate the spindles, auditis provided at one of its ends with an endless screw, b, engaging-witlrthe pinion c1 of the inclined shaft Z, upon whose other end a pinion, c, is mounted, which, by friction of contact, actuates the wheel f" on the shaft of the feed cylinder 1. At one of the extremities of the shaft 9 of the upper cone D is placed a pinion, h, and by the combination of the wheels and pinions indicated in r'edlines, the desired degree of velocity is'imparted to the pulley E, which transmits it by means of belting to the pulley F, mounted on the shaft K and the pulley G, which is secured on the latter, transmits the movement to the pulley H, which causes the rotation of the shaft 2', and, consequently, all the heartshaped eccentrics g, which cause the oscillation of the levers f, impart-to the mechanism of the spindle thevertical reciprocating movement which effects the winding up of the thread as above described. The up-and-down motion of the cross-beam Q which carries the spindle is communicated'from theshaft g, and, through the intermediary of the gearing and endless screws indicated in the drawing, the shafts o and 1t are revolved. The heart-shaped eccentric r', figs. 2 and 3, in actuating the lever q', causes it to produce a reciprocating movement, which is transmitted by means of chains, which pass over the rollers or and the drum 2 to the cross-beam Q. In order to preserve at all times the same velocity at the circumference of the bobbins, or, in other words, a uniform winding, the belting is made to slide upon the two cones B D; to this effect the movement is taken from the shaft 9, and through the intermediary of thebalance-weights s s, and of the chain which is wound and unwound on the drum or pulley L, the bar M, which carries the forked arm 19, is caused to slide between the rollers t to.
Having described my invention, and the manner in which .the same is or maybe carried into effect, what I claim, anddesire to secure by Letters Patent, is as follows 1. The method of effecting the automatic rctardment of the rotation of the spindle which carries the bobbin, substantially as shown and set forth.
21 The combination, with the. spindle which carries the bobbin, of the reciprocating tube and helicoidal inclined planes, under suchanja" ng'ement that the reciprocating movement of the said tube shall effect the automatic retarding of the'rotatieri' 'of the bobbins, substantially as herein shown and described.
In testimony whereof I have signed my name to this specificationbefore two subscribing witnesses.
RYO-CATTEAU.
Witnesses:
F. E. JB Anounnux. F.'F. RANDOLPH.
Publications (1)
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US64800A true US64800A (en) | 1867-05-14 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20050130731A1 (en) * | 2003-12-10 | 2005-06-16 | Englman Allon G. | Gaming machine having an enhanced game play scheme |
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- US US64800D patent/US64800A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20050130731A1 (en) * | 2003-12-10 | 2005-06-16 | Englman Allon G. | Gaming machine having an enhanced game play scheme |
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