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US24870A - Improvement in sewing-machines - Google Patents

Improvement in sewing-machines Download PDF

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Publication number
US24870A
US24870A US24870DA US24870A US 24870 A US24870 A US 24870A US 24870D A US24870D A US 24870DA US 24870 A US24870 A US 24870A
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Prior art keywords
needle
motion
rod
center
thread
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Expired - Lifetime
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    • DTEXTILES; PAPER
    • D05SEWING; EMBROIDERING; TUFTING
    • D05BSEWING
    • D05B57/00Loop takers, e.g. loopers
    • D05B57/26Bobbin holders or casings; Bobbin holder or case guards; Bobbin discharge devices

Definitions

  • FIG. 1 is aback end elevation.
  • Fig. 2 is a side elevation.
  • Fi g. 3 is a reversed plan, showing the work attached to the under side of the bed-plate.
  • Fig. 4 is a vertical crosssection, showing the feed motion more clearly.
  • Fig. 5 is a plan of radial segmental arm with double spiral teeth on its upper surface.
  • My invention consists, first, of the combination of the needle 'carrier B, pivoted bar M, connecting-rod J, slide I, pitman H, and crank G in such a manner that while the crank Gis making one revolution and forcing slide I once forth and back the needle-carrier shall receive, by means of the connectingrod J, a double reciprocating vertical motion.
  • the two ends of rod J move in lines at right angles to each other, the upper end performing two vertical motions while the lower end is performing one horizontal one.
  • the rod J is jointed to bar M about one-half inch one side of a perpendicular drawn through the center of pin hen slide I is in a central position, which causes two of the vertical motions to be longer than the other two, one long downward motion to carry the needle through the fabric, a short upward motion to form the loop, a short downward to give extra slack thread to enable the shuttle to pass through easily, and then a long and use my invention, I will proceed to describe its construction and operation.
  • A is the bed-plate of the machine.
  • D is a stationary arm, secured to bed-plate A for the purpose of supporting pressure-pad ⁇ V.
  • spool Z which supplies thread to the needle
  • friction apparatus which is of the ordinary kind for producing the necessary'tension on the needle-thread.
  • the needle-carrier B is pivoted on the points of the two screws 1? I, which are screwed into lugs V V, cast on the bed-plate A.
  • the center of the screws P P is in a horizontal line through the center of the shuttle-box, so that the needle when it is in the shuttle-box may be as nearly vertical as possible,
  • b b are two arms, which form a part of the needle-carrier B and extend to the rear of the center P, on which it vibrates.
  • the stands N N which support the bar M on the journals a a.
  • J is a connecting-rod attached (at its upper end) to the bar M by the stud or joint pin (2, which pin is adjustable horizontally in a slot, or, in bar M, so that it can be moved nearerto or farther from the center of the bar, according to the necessities of the work to be done.
  • rod J is attached to the sliding piece I by the joint-pin t, andin the center of it horizontally.
  • This rod as here shown, is made in two parts, but could as well be in one piece.
  • the sliding piece I receives motion from the crank G by means of the connectingrod H, which is pivoted to the slide I by the pin a, the center of which is in a horizontal line throughthe center of the'mainshaft G, on which is the crank .G.
  • the shaft 0, which gives. motion to all the working parts of the machine, is, for convenience, placed out side of the'bed-plate A and supported by the stands 1) r.
  • R is a rod opera-ted by said cam and connected by pin 12 to lever d, to which is attached spring Z to keep rod R in contact with the face of cam E.
  • S is a quadrantal rocking arm vibrating on stud T in bed plate A. This arrangement is shown more clearly in Figs. 3, 4, and 5. To this rocking arm is attached the radial segmental arm Q by the pin e.
  • Y is a thumb-screw which regulates the length of the stitch I L is a slide which moves the the shuttle, and put in motion by the connecting-rod K, which is connected to crank F on shaft C.
  • crank G is represented on a dead-center, the slide I being drawn to its extreme position toward shaft 0, the top of connecting-rod J being in its lowest position, and therefore the needle at its highest point.
  • the crank G is revolved in the direction of the arrow, when the center ofcrankpin Z) has'arrived at the position indicated by the point of the arrow the connecting-rod J will have assumed a perpendicular position, and consequently the top of it will be at its greatest elevation, and therefore the needle in its lowest position.
  • crankpin 12 completes .its semi-revolution
  • the center of pin i moves from 1 to 2
  • the needle receivesa short upward motion
  • the rod J is brought to a vertical position again, and the needle carried downto its lowest position, and, as the crankcontinues its revolution and comes back to the position shown in the drawings, the needle is brought up to its highest point again.
  • the object of this peculiar motion is as follows As the center 73 moves from its position in the drawings to 1, giving the needle a long downward motion, the needle and thread are carried through the cloth, then from 1 to 2, (giving the needle a short upward motion,) forms the loop.
  • the shuttle may be operated by a crank in the common manner. I have represented it as operated by a shuttle-carrier, L, of a well-known form, receiving motion through the rod K from a crank, F, on the main driving-shaft O.
  • the tension arrangement for the thread is of the usual construction.
  • m is a prong on the needlecarrier, in which is a mortise to receive the spring-wire g, which is made fast to the arm D, at one end.
  • s is the tension-wire
  • t is the clamp
  • the stitch is represented as being drawn up, and the end of spring q is at the bottom of the mortise. If the needle should be started down,
  • the spring q would remain stationary and keep With this needle-motion I the thread so till the eye of the needle got into the cloth. Then the hook 1- would strike spring (1 and feed down the thread as far as the me dle required it. XVhen the needle starts back to form the loop, the spring rises with it. As soon as the point of the shuttle has entered the loop the needle starts down. Then the hook r forces down the spring g, which gives extra slack-thread to enlarge the loop.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Sewing Machines And Sewing (AREA)

Description

2 Sheets-Sheet I. W. HALL.
Sewing Machine. I
- No. 24,870, r Patented July 26, 1859.
gliz'irwsses% fiw67'lw7" l %M a. vnznsfmmlw m, Wuhington, ac.
2 Sheets-Sheet 2. w. HALL.
Sewing Machine. No. 24,870. Patented July 26, 1859.
u. mus mumnamfw-nmm a c UNITE STATES PATENT OFFICE.
XVILLIAM HALL, OF NORTH ADA'MS, MASSACHUSETTS.
IMPROVEMENT IN SEWING-MACHINES.
Specification forming part of Letters Patent No. 24,870, dated July 26,1859.
To all whomit may concern..-
Be it known that 1, WILLIAM HALL, of
description of the same, reference being had to the accompanying drawings, making a part of this specification, in which- Figure 1 is aback end elevation. Fig. 2 is a side elevation. Fi g. 3 is a reversed plan, showing the work attached to the under side of the bed-plate. Fig. 4 is a vertical crosssection, showing the feed motion more clearly. Fig. 5 is a plan of radial segmental arm with double spiral teeth on its upper surface.
My invention consists, first, of the combination of the needle 'carrier B, pivoted bar M, connecting-rod J, slide I, pitman H, and crank G in such a manner that while the crank Gis making one revolution and forcing slide I once forth and back the needle-carrier shall receive, by means of the connectingrod J, a double reciprocating vertical motion. The two ends of rod J move in lines at right angles to each other, the upper end performing two vertical motions while the lower end is performing one horizontal one. In this arrangement the rod J is jointed to bar M about one-half inch one side of a perpendicular drawn through the center of pin hen slide I is in a central position, which causes two of the vertical motions to be longer than the other two, one long downward motion to carry the needle through the fabric, a short upward motion to form the loop, a short downward to give extra slack thread to enable the shuttle to pass through easily, and then a long and use my invention, I will proceed to describe its construction and operation.
Like letters of reference indicate corresponding parts in each of the several figures.
A is the bed-plate of the machine.
D is a stationary arm, secured to bed-plate A for the purpose of supporting pressure-pad \V. To stand D are also attached the spool Z, which supplies thread to the needle, and the friction apparatus, which is of the ordinary kind for producing the necessary'tension on the needle-thread. The needle-carrier B is pivoted on the points of the two screws 1? I, which are screwed into lugs V V, cast on the bed-plate A. The center of the screws P P is in a horizontal line through the center of the shuttle-box, so that the needle when it is in the shuttle-box may be as nearly vertical as possible,
b b are two arms, which form a part of the needle-carrier B and extend to the rear of the center P, on which it vibrates. To these arms are attached the stands N N, which support the bar M on the journals a a.
J is a connecting-rod attached (at its upper end) to the bar M by the stud or joint pin (2, which pin is adjustable horizontally in a slot, or, in bar M, so that it can be moved nearerto or farther from the center of the bar, according to the necessities of the work to be done.
The lower end of rod J is attached to the sliding piece I by the joint-pin t, andin the center of it horizontally. This rod, as here shown, is made in two parts, but could as well be in one piece. The sliding piece I receives motion from the crank G by means of the connectingrod H, which is pivoted to the slide I by the pin a, the center of which is in a horizontal line throughthe center of the'mainshaft G, on which is the crank .G. The shaft 0, which gives. motion to all the working parts of the machine, is, for convenience, placed out side of the'bed-plate A and supported by the stands 1) r.
E is a cam on shaft 0. R is a rod opera-ted by said cam and connected by pin 12 to lever d, to which is attached spring Z to keep rod R in contact with the face of cam E.
S is a quadrantal rocking arm vibrating on stud T in bed plate A. This arrangement is shown more clearly in Figs. 3, 4, and 5. To this rocking arm is attached the radial segmental arm Q by the pin e.
On a portion of the upper surface of Q is formed the double spiral feed-surface, which projects through the bed-plate, as vseen at f. This feed-surface is shown in plan in Fig.
On the radial end of Q is formed an inclined plane, h, terminating with a shoulder, against which the lever d operates. I
Y is a thumb-screw which regulates the length of the stitch I L is a slide which moves the the shuttle, and put in motion by the connecting-rod K, which is connected to crank F on shaft C.
Having 110w described the construction and position of all the principal parts, I will proceed to describe the operation of the machine.
In the drawings, the crank G is represented on a dead-center, the slide I being drawn to its extreme position toward shaft 0, the top of connecting-rod J being in its lowest position, and therefore the needle at its highest point. Now, if the crank G is revolved in the direction of the arrow, when the center ofcrankpin Z) has'arrived at the position indicated by the point of the arrow the connecting-rod J will have assumed a perpendicular position, and consequently the top of it will be at its greatest elevation, and therefore the needle in its lowest position. Now, as crankpin 12 completes .its semi-revolution, the center of pin i moves from 1 to 2, and the needle receivesa short upward motion; then, as- .crank-pin b passes the center, the rod J is brought to a vertical position again, and the needle carried downto its lowest position, and, as the crankcontinues its revolution and comes back to the position shown in the drawings, the needle is brought up to its highest point again. The object of this peculiar motion is as follows As the center 73 moves from its position in the drawings to 1, giving the needle a long downward motion, the needle and thread are carried through the cloth, then from 1 to 2, (giving the needle a short upward motion,) forms the loop. N ow, when '1 arrives at 2 the center of .pin 1) passes the center, and i commences to move back toward 1, thereby producing a short downward motion in the needle, which motion delivers extra slack thread, to enable the shuttle (which has already entered the loop) to pass through easily. \Vhen t arrives at 0 the needle is in the same position as it was when the loop was formed, and the shuttle is almost through it. Moving from 0 to the point of starting, the combined mechanism draws up the stitch. Thus we see that while slide I moves once forth and back it produces four vertical motions on the top of rod J and needle-carrier one long motion to carry down the needle, a
short upward 1notionto form the loop, a
short downward motion to feed extra slack thread to enlarge the loop after the shuttle has entered it, then a long upward motion to draw up the stitch.
There are several things to be noticed in relation to the working of the above combination of parts which produce the loop and the stitch. First, the bar M, being supported by i the journals a a, there is no cramping on the pin 6 by the rod J secondly, the motion which rod J has 011 its joint-pins is only about onetenth part of a circle, therefore thereis but little friction, noise, or wear; thirdly, if from any cause it should be necessary to enlarge the loop, it canbe done by moving the stud c nearer to the center of bar M, and, on the other hand, if it should be necessary to make it smaller, the stud must be moved in the opposite direction; fourthly, when the needle is being forced down through the fabric, it is with gradually-increasing power, and when drawn up for the stitch, with gradually-increasing speed fifthly, it is very simple and easy of application, and the working-parts help to balance the needlecarrier.
I may also state that a sewing-machine built on this plan can be got up very reasonably so much so as'to put them within the reach of almost everyfamilyand it does it work with less extent of motion, less wear, less friction, and less concussion. the shuttle may be operated by a crank in the common manner. I have represented it as operated by a shuttle-carrier, L, of a well-known form, receiving motion through the rod K from a crank, F, on the main driving-shaft O.
The operation of thefeed-motion is as follows: When the shaft 0 is put in motion, the cam E operates the rod R, and through that the lever (1, moving the end of (1 along the inclined plane h on the end of Q, thereby raising it up until its teeth project through the bed-plate,,as seen at f, 4:. After raising the arm Q the lever (l domes in contact with the shoulder, which terminates the inclined plane 71, and moves Q horizontally in the direction of the arrow and feeds the cloth. When Q moves horizontally, S is raised by pin 0 from i of the stitch. This feed-motion is very simple,
having but a few parts, and is operated by a lever in this instance; but a cam with a little different arrangement would do equally as well.
The tension arrangement for the thread is of the usual construction.
m is a prong on the needlecarrier, in which is a mortise to receive the spring-wire g, which is made fast to the arm D, at one end.
1- is a hook attached to the needle-carrier,
and through which the spring q passes.
s is the tension-wire, and t is the clamp,
which winds the thread round it to give theproper tension to 'the needle thread; The thread passes from the spool 2 through the two eyes in the tension-wires, then through a small guide in end of arm vD, then up through the twirl-spring q, down through the eye 20 to the eye of the needle.
The stitch is represented as being drawn up, and the end of spring q is at the bottom of the mortise. If the needle should be started down,
the spring q would remain stationary and keep With this needle-motion I the thread so till the eye of the needle got into the cloth. Then the hook 1- would strike spring (1 and feed down the thread as far as the me dle required it. XVhen the needle starts back to form the loop, the spring rises with it. As soon as the point of the shuttle has entered the loop the needle starts down. Then the hook r forces down the spring g, which gives extra slack-thread to enlarge the loop.
Now, What I claim as my invention, and de sire to secure by Letters Patent, is
1. The combination of the needle-carrier B, pivoted bar M, connecting-rod J slide I, pit-
US24870D Improvement in sewing-machines Expired - Lifetime US24870A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1268502B (en) * 1959-08-17 1968-05-16 Renault Disc brake for vehicle wheels
US6093127A (en) * 1998-12-17 2000-07-25 Daimlerchrysler Corporation High lateral offset front differential
US20030209484A1 (en) * 2002-05-10 2003-11-13 Hydraulik-Ring Gmbh Filter Cartridge for Liquid Media at Risk for Freezing, Partciularly for Use in Fuel Cell Operated Vehicles and in Internal Combustion Engines
US20050227501A1 (en) * 1997-03-05 2005-10-13 Yoshikazu Tanabe Method for fabricating semiconductor integrated circuit device
US20090229933A1 (en) * 2005-03-16 2009-09-17 Pbr Australia Pty Ltd. Disc Brake Pad
US9510625B2 (en) 2015-01-22 2016-12-06 Cecelia Henderson Two-tab cuff closure

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1268502B (en) * 1959-08-17 1968-05-16 Renault Disc brake for vehicle wheels
US20050227501A1 (en) * 1997-03-05 2005-10-13 Yoshikazu Tanabe Method for fabricating semiconductor integrated circuit device
US6093127A (en) * 1998-12-17 2000-07-25 Daimlerchrysler Corporation High lateral offset front differential
US20030209484A1 (en) * 2002-05-10 2003-11-13 Hydraulik-Ring Gmbh Filter Cartridge for Liquid Media at Risk for Freezing, Partciularly for Use in Fuel Cell Operated Vehicles and in Internal Combustion Engines
US20090229933A1 (en) * 2005-03-16 2009-09-17 Pbr Australia Pty Ltd. Disc Brake Pad
US9510625B2 (en) 2015-01-22 2016-12-06 Cecelia Henderson Two-tab cuff closure

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