US1665720A - Doffing mechanism for cap spinning, doubling, and like machines - Google Patents

Doffing mechanism for cap spinning, doubling, and like machines Download PDF

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US1665720A
US1665720A US199604A US19960427A US1665720A US 1665720 A US1665720 A US 1665720A US 199604 A US199604 A US 199604A US 19960427 A US19960427 A US 19960427A US 1665720 A US1665720 A US 1665720A
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bobbins
spindles
caps
shaft
cap
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US199604A
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Stell Alfred
Stell John
Welch Henry
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    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H9/00Arrangements for replacing or removing bobbins, cores, receptacles, or completed packages at paying-out or take-up stations ; Combination of spinning-winding machine
    • D01H9/02Arrangements for replacing or removing bobbins, cores, receptacles, or completed packages at paying-out or take-up stations ; Combination of spinning-winding machine for removing completed take-up packages and replacing by bobbins, cores, or receptacles at take-up stations; Transferring material between adjacent full and empty take-up elements
    • D01H9/04Doffing arrangements integral with spinning or twisting machines
    • D01H9/043Doffing arrangements integral with spinning or twisting machines for cap type machines

Definitions

  • This invention relates to spinning, doubling. twisting and like machines of the type well known as "cap spinning and like frames which have dotting mechanism for removing the bobbins upon which the threads of yarn have been wound and which are usually styled the full bobbins and placing empty bobbins upon the spindles ready for the spinning and like operations to be recommenced.
  • ⁇ Ve are also enabled by our said improved apparatus to so carry out the necessary movements by devices which will occupy little space in: front of the ordinary mechanism of the machine, while the removal of the full bobbins and the supplying of the empty bobbins, the restarting of the machine and cutting of the series of threads on the commencement of the winding and spinning operations are effected with greater precision than heretofore.
  • FIG. 1 is a front elevation of a spinning frame having our improved parts applied thereto and shows the several parts in the positions that they respectively occupy during the operations of the machine.
  • Fig. 2 is an end elevation showing certain parts in section and with all the several devices in their respective positions shown by Fig. 1.
  • Fig. 3 is a sectional elevation similar to Fi 2 but. shows parts to the rear of other pal s shown by said Fig. 2..
  • Fig. l is also an end elevation similar to Fig. 2 but illustrates the parts when the first movement has been taken to carry out the process of do'liing.
  • Fig. 5 is also an end elevation similar to Fig. 4 but shows the several parts in their respective positions after the next step in the dotting process has been taken.
  • Fig. 6 is also a similar view to Fig. 5 but shows the several devices in position when the empty bobbins are ready to be carried into alignment with the spindles.
  • Fig. 7 is a plan oi? a slotted plate formed to lay-hold-o't the caps as hereinafter explain-ed, and shows said plate in the position to which it is taken by the first lateral step of its movements.
  • Fig. 8 is a similar plan to Fig. 7 but shows the position ot the plate after its next step is taken.
  • Fig. 9 is a sectional end elevation of the plate and shows it in engagement with the cap.
  • Fig. 10 is a plan showing in detail a bi lurcated member which engages the bobbins during certain parts of the dotting opera- Lions.
  • Fig. 11 is a sectional side elevation of the member shown by Fig. 10, when in position where it is engaging with the lower or base end of the bobbin.
  • Fig. 12 is a.- similar view to Fig. 11 but shows the relative positions of the bobbin and its engaging member hereinafter explained.
  • Fig. 13 is a plan illustrative of a device which engages the threads as same extend from their upper thread guides to the full bobbin after removal from their spindles.
  • Fig. 14 is a sectional elevation of the partsshown by Fig. 13.
  • Figs. 6 to 14 inclusive are drawn to an en larged scale as compared with that to which the other figures are drawn.
  • A indicates the end frame of the machine, B the upper longitudinal rail and C the lower longitudinal rail which are fixed to the endwframes A.
  • a chain wheel 7 which is fixed upon the end of the shaft 6 in order that a chain 8 extending therefrom may take over another sprocket wheel 9 mounted to run loosely upon a stud 10 so that by said sprocket wheel 9 being fixed to the hand wheel 11 (which also revolves loosely upon the stud 10) rotary motion may, in known manner, be transmitted to the shaft 6 from the hand wheel ll as and for the purpose hereinafter described.
  • lifter plate '12 Mounted to slide over the spindles 3 is a lifter plate '12 which is of known construction and extends lengthwise the machine so that by the usual operating mechanism said lifter plate 12 may be caused to rise and pass over the spindle $15 to clfect what is known as the building of the coils of yarn on the bobbins in well known mann
  • the devices or mechanism employed for the purpose of operating the said lifter plate are also of the usual well. known type.
  • each of the spindles 3 is mounted the usual driving pulley or wharle 13 which receives its rotary motion by the driving ta e or band in well known manner.
  • this wharle 13 is the usual metal tul e over which the bobbin 14 is placed and through which the spindle 3 takes in order to support the well known cap 15 at its upper end.
  • a radial flange 15 which is for the engagement of a holding plate 16 shown by detailed drawing Figs. 8 and 9.
  • the formation of the plate 16 is such that for each cap a lateral opening made at Z) in said plate to enable said plate to be moved laterally over the cap 15 and beneath the flange 1:? thereon as is shown by Fig. 7.
  • a slot 0 is next formed from each lateral opening Z) in the plate 16 in order that when the plate 16 has been moved horizontally (as is hereinafter explained) to span the cap 1.5, as is shown by Fig.
  • each slot 0 therein will span the body of a cap while the edges of the slot will move beneath the flange l5" on said cap 15 and the projecting pins (Z at the edge of the slot will extend above said flange 15 and therefore retain the cap within the slot 0 as desired and as shown by Fig. 9'.
  • the plate 16 is mounted so that it may slide longitudinally over its supporting bearings 17 and these hearings are lined to horizontally disposed racks 18 which slide through bearings 19, 19 fixed upon the framework of the machine. These racks 18 are actuated by toothed quadrants 20 which are fixed upon ashaft 21. extending lengthwise the machine.
  • the brackets 17, racks 18, bearings 19 and quadrants 20 are all of well known arrangement with the slight alterations in their form to enable the plate 16 to slide over the brackets 17 longitudinally, otherwise the parts including the hand lever 22 which is fixed upon the shaft 21 and which is held in position by a curved bar 23 are well known and perform well known functions.
  • hinged-board 2% usuallystyled the top board and through which openings 24: are made for enabling same to guide the threads which pass between the delivery rollers and 25 we now hinge this board at upon an extending portion 17" of the bracket 17 to enable said board 2% to be operated or be raised when the cap 15 detail by 10, 11 and 12 is formed with a flange 7 and 7 upon each prong so that by a slot being formed in said flanges f a.
  • Cl'i'lrlt pin 71- may be arranged to slide therein the heads of the cross pin lt being arranged to keep said. pin within the slots or to prevent it from leaving same longitudinally.
  • a longitudinal shaft 28 Pivoted upon bearings 12" fixed to the lifter plate 12 is a longitudinal shaft 28 which extends lengthwise the machine and has projections 28 extending from it as shown by Figs. and let of the drmvings,
  • each one of said projection: 28 being for engagement with the thread in connection with each bobbin 14: as is hereinafter explained.
  • the shaft 28 is capable of rotating in its l'iearings as well as being movable lengthwise through said bearings as same is operated by the handle 28.
  • each of these vertical racks 30 has at its upper end later-ah ltll) ly and vertically projecting arms and 30 Upon the arm 30" ispivoted at 30 another arm 31 which extends somewhat horizontally to support the longitudinal rail 32 upon which are fixed pegs 33 to receive the empty bobbins ll thus the rail 32 will support the series of pegs 33 the number of said pegs 33- corresponding with the number of the spindles 3 while each peg has adjoining ll; a supporting piece 33 which extends to support the bobbin 14 as shown by the drawings.
  • the supporting of the bobbin let in the position shown by F 3 and l is to enable the multifaced member is on the bifurcated member 27 to come
  • a projection 341 that has pivoted to it at 31 a connecting rod- This connectingrod 35 extends vertically so that a quadrant slot 35" formed therein may take over a pin 35 fixed upon a lever 36 which is fixed upon a shaft 37.
  • the shaft 37 is preferably rectangular in cross section and has fixed to it a series of pegs 38 saidseries of pegs 38 corresponding in number with the number of pegs carried by the rail 32.
  • the shaft- 36 is pivoted upon extensions from the racks 30 and the lever 36 at the end of said shaft 37 locates the position of said shaft 37 by projections 35 35*- coming in contact with theend frame A as same may be adjusted as is hereinafter explained.
  • a catch piece 40 Pivoted to the lever 31 at 10 is a catch piece 40 having a handle 40 and this catch piece 40 engages with a projecting pin 30 which is fixed to the extension 30 of the rack 30.
  • the racks 30 are actuated by pinions 42 engaging therewith and said pinions 4-2 a re fixed.
  • a shaft 13 which extends lengthwise the machine while upon the same shaft 13 is fixed a handle 44 as shown by Fig. 6.
  • the handle 22 is then actuated in order to bring the bearings 17 plates 16 and all the caps 15 and bobbins 14 Which:- are supported by the devices described into the forward: position shown by Fl 5 thus the pegs 38 are in position to receive said bobbins.
  • the handle 4-4 is then actuated and the racks 30 raised vertically so that the ends of the pegs 38 enter the lower ends of the bobbins.
  • the bobbins are thus retained by the bifurcated members within the capsso that said caps and said bobbins along with their supports may be caused to recede to their starting position shown by Fig. 4- at which time the full bobbins will rei'nain close to the lifter rail of the machine and the empty pegs will occupy the position shown by Fig. 4.
  • the hand wheel 11 is then a tuated tocanse the spindle rail and its spindles to ascend to. their highest position to enter the bobbins and receive the caps at their upper ends after which said spindle rail is lowered into its operating position after the bifurcated members have been withdrawn to let the bobbins fall by their weight on to said spindles.
  • a vertically movable spindle rail means for actuating said spindle rail,-spin dles fixed upon said spindle rail, a lifter plate taking over said spindles. wharles mounted upon said spindles, bobbins supported and operated by said wharles, caps mounted upon the upper ends of said spindles, each of said.
  • caps having a lateral flange formed upon it, a slotted plate for spanning the caps and engaging the flanges thereon, devices for actuating said slotted plate, members for engaging the lowerends of the bobbins within the caps and means for operating said members, two seri s of upon the peg shaft, bearings upon Which said levers and the shaft are pivoted, and
  • a vertically movable spindle rail means for actuating said spindle rail, spindles fixed upon said spindle rail, a lifter plate taking over said spindles, Wharles mounted upon said spindles, bobbins supported and operated by said .wharles, caps mounted upon the upper ends of said spindles, each of said caps having a late :11 flange formed upon it, means for engaging said flange to support the cap, devices for actuating said means, bifurcated members for engaging the lower ends of the bobbins within the caps, means for operating said members, slidable and rotatable crosspins carried by said bifurcated members, hexagonal devices mounted upon said cross pins, two series of pegs for receiving full and empty bobbins, a rail mounted upon lever arms supporting one series of pegs, an oscillating shaft supporting the second series of pegs, a leveri'ixed upon said shaft, a slotted connecting
  • a vertically movable spindle rail means for actuating said spindle rail, spindles fixed upon said spindle rail, a lifter plate taking over said spindles, wharles mounted upon said spindles, bobbins supported and operated by said wharles, caps mounted upon the upper ends of said spindles, each of said caps having a lateral flange formed upon it, means for engaging said flange to support the cap, devices for actuating said means members for engaging the lower ends of the bobbins within the caps, means for operating said members, two series of pegs for receiving full and empty bobbins, a rail mounted upon lever arms supporting one series of pegs, a shaft arranged to oscillate upon bearings.
  • a vertically movable spindle rail In dofiing mechanism for cap spinning machines, a vertically movable spindle rail, means for actuating said spindle rail, spindles fixed upon said spindle rail, a litter plate taking over said spindles, Wharles mounted upon said spindles, bobbins supported and operated by said wharles, caps mounted upon the upper ends of said spindles, each of said caps having a lateral flange formed upon it, means for engaging said flange to support the cap, devices -for actuating said means, members for engaging the lower ends of the bobbins Within the caps and means for operating said members, two series of pegs for receiving full and empty bobbins, a rail mounted upon lever arms and supporting one series of pegs, an oscillating shaft supporting the second series of pegs, a lerer fixed upon said shaft, a slotted connecting link coupling a lever supporting the first peg rail to the lever fixed upon the peg shaft, bearings upon which said levers and the

Description

Apfil 10, 1928. 1,665,720
- A. STELL E1: AL
DOFFING MECHANISM FOR CAP SPINNING, DOUBLING, AND LIKE MACHINES Filed June 17, 1927 '7 SheetsSheet l April 10, 1928. 1,665,720 A. STELL ET AL DOFFING MECHANISM FOR CAP SPINNING, DOUBLING, AND LIKE MACHINES Filed June 17. 1927 '7 Sheets-Sheet 2 April 10, 1928, 1,665,720
A. STELL ET AL DOFFING MECHANISM FOR CAP SPINNING, DOUBLING, AND LIKE MACHINES Filed Jun e 17, 1927 v Sheet s-Sheet 3 20 M 26 w gin I5 4%6 35a 0 30c i I 4. 2H 3 4 36" I l ,h 5ii fflmg '"6 jzuevgirs azz wa 5 \T07a9a 626,22
April '10, 1928. 1.665.720
A. STELL ET AL DOFFING MECHANISM FOR CAP SPINNING, DOUBLING, AND LIKE MACHINES Filed June 17. 1927 7 Sheets-Sheet 4 WWW April 10, 1928. 1,665,720
A. STELL ET AL DOFFING MECHANISM FOR CAP SPINNING, DOUBLING, AND LIXE MACHINES Filed June 17, 1927 7 Sheets-Sheet 5 April 10, 1928.
A. STELL ET AL DOFFING MECHANISM FOR CAP SPINNING, DOUBLING, AND LIKE MACHINES Filed June 17, 1927 7 Sheets-Sheet E5 April 10, 1928.
A. STELL ET AL DOFFING MECHANISM FOR CAP SPINNING, DOUBL IYNG, AND LIKE MACHINES Filed June 17. 1927 '7 Sheets-Sheet 7 Iii) Patented Apr. 10, 1928.
U N 1 TH D STA TE S PATENT OFFICE.
: {.ERED STELL, OF INGROW, KEIG'HLEY, JOHN- STELL, OF BROWFIELD, KEIGHIJEY, AND HENRY WELGH, OF KEIGHLEY, ENGLAND.
DOFFING. MECHANISM FOR CAP SPINNING, DOU'BLING, AND- LIKE MACHINES.
Application filed June 17, 1927, Serial No. 199,604, and in Great Britain May 17, 1926.
This invention relates to spinning, doubling. twisting and like machines of the type well known as "cap spinning and like frames which have dotting mechanism for removing the bobbins upon which the threads of yarn have been wound and which are usually styled the full bobbins and placing empty bobbins upon the spindles ready for the spinning and like operations to be recommenced.
In connection with dotling mechanism of this type of spinning and like machines especially where the bobbins are of considcrable length ditficulty is experienced in removin the caps which are also oi an elongated character from off the spindles to prepare same tor the removal therefrom oi the tall bobbins and the replacing thereon of the empty bobbins and our present in venlion consists in so constructing and ar ranging the caps and the mechanism for operating said caps that we are enabled within the ordinary vertical space, in which the usual spindles and their caps are mounted, to carry out the removal of the elongated caps and the replacing of the com-- parativel-y long bobbins upon the spindles after the removal of the full bobbins by our said improved formation and construction of devices. \Ve are also enabled by our said improved apparatus to so carry out the necessary movements by devices which will occupy little space in: front of the ordinary mechanism of the machine, while the removal of the full bobbins and the supplying of the empty bobbins, the restarting of the machine and cutting of the series of threads on the commencement of the winding and spinning operations are effected with greater precision than heretofore.
In the accompanying sheets of drawings which are illustrative of our invention Fig. 1 is a front elevation of a spinning frame having our improved parts applied thereto and shows the several parts in the positions that they respectively occupy during the operations of the machine.
Fig. 2 is an end elevation showing certain parts in section and with all the several devices in their respective positions shown by Fig. 1.
. Fig. 3 is a sectional elevation similar to Fi 2 but. shows parts to the rear of other pal s shown by said Fig. 2..
Fig. lis also an end elevation similar to Fig. 2 but illustrates the parts when the first movement has been taken to carry out the process of do'liing.
Fig. 5 is also an end elevation similar to Fig. 4 but shows the several parts in their respective positions after the next step in the dotting process has been taken.
Fig. 6 is also a similar view to Fig. 5 but shows the several devices in position when the empty bobbins are ready to be carried into alignment with the spindles.
Fig. 7 is a plan oi? a slotted plate formed to lay-hold-o't the caps as hereinafter explain-ed, and shows said plate in the position to which it is taken by the first lateral step of its movements.
Fig. 8 is a similar plan to Fig. 7 but shows the position ot the plate after its next step is taken.
Fig. 9 is a sectional end elevation of the plate and shows it in engagement with the cap.
Fig. 10 is a plan showing in detail a bi lurcated member which engages the bobbins during certain parts of the dotting opera- Lions.
Fig. 11 is a sectional side elevation of the member shown by Fig. 10, when in position where it is engaging with the lower or base end of the bobbin.
Fig. 12 is a.- similar view to Fig. 11 but shows the relative positions of the bobbin and its engaging member hereinafter explained.
Fig. 13 is a plan illustrative of a device which engages the threads as same extend from their upper thread guides to the full bobbin after removal from their spindles.
Fig. 14 is a sectional elevation of the partsshown by Fig. 13.
Figs. 6 to 14 inclusive are drawn to an en larged scale as compared with that to which the other figures are drawn.
A indicates the end frame of the machine, B the upper longitudinal rail and C the lower longitudinal rail which are fixed to the endwframes A.
In carrying our invention into effect we make use of the usual spindle rail 2 upon which the series of spindles 3 are fixed and said rail 2 is arranged in. well known manner to be raised and lowered by racks 4 being operated by pinions 5 which are fixed upon a shaft 6 all of which devices are old and well known to those having a knowledge of cap spinning machinery having dotting mechanism.
As is shown we make use of a chain wheel 7 which is fixed upon the end of the shaft 6 in order that a chain 8 extending therefrom may take over another sprocket wheel 9 mounted to run loosely upon a stud 10 so that by said sprocket wheel 9 being fixed to the hand wheel 11 (which also revolves loosely upon the stud 10) rotary motion may, in known manner, be transmitted to the shaft 6 from the hand wheel ll as and for the purpose hereinafter described.
Mounted to slide over the spindles 3 isa lifter plate '12 which is of known construction and extends lengthwise the machine so that by the usual operating mechanism said lifter plate 12 may be caused to rise and pass over the spindle $15 to clfect what is known as the building of the coils of yarn on the bobbins in well known mann The devices or mechanism employed for the purpose of operating the said lifter plate are also of the usual well. known type.
Upon each of the spindles 3 is mounted the usual driving pulley or wharle 13 which receives its rotary motion by the driving ta e or band in well known manner.
ecured to the upper surface of this wharle 13 is the usual metal tul e over which the bobbin 14 is placed and through which the spindle 3 takes in order to support the well known cap 15 at its upper end.
According to our present invei'itioi'i we now form, in an appropriate position upon each cap 15, a radial flange 15 which is for the engagement of a holding plate 16 shown by detailed drawing Figs. 8 and 9. The formation of the plate 16 is such that for each cap a lateral opening made at Z) in said plate to enable said plate to be moved laterally over the cap 15 and beneath the flange 1:? thereon as is shown by Fig. 7. Continued from each lateral opening Z) in the plate 16 is a slot 0 in order that when the plate 16 has been moved horizontally (as is hereinafter explained) to span the cap 1.5, as is shown by Fig. 7, by moving the plate 16 longitudinally each slot 0 therein will span the body of a cap while the edges of the slot will move beneath the flange l5" on said cap 15 and the projecting pins (Z at the edge of the slot will extend above said flange 15 and therefore retain the cap within the slot 0 as desired and as shown by Fig. 9'.
The plate 16 is mounted so that it may slide longitudinally over its supporting bearings 17 and these hearings are lined to horizontally disposed racks 18 which slide through bearings 19, 19 fixed upon the framework of the machine. These racks 18 are actuated by toothed quadrants 20 which are fixed upon ashaft 21. extending lengthwise the machine. The brackets 17, racks 18, bearings 19 and quadrants 20 are all of well known arrangement with the slight alterations in their form to enable the plate 16 to slide over the brackets 17 longitudinally, otherwise the parts including the hand lever 22 which is fixed upon the shaft 21 and which is held in position by a curved bar 23 are well known and perform well known functions.
Instead of the hinged-board 2% usuallystyled the top board and through which openings 24: are made for enabling same to guide the threads which pass between the delivery rollers and 25 we now hinge this board at upon an extending portion 17" of the bracket 17 to enable said board 2% to be operated or be raised when the cap 15 detail by 10, 11 and 12 is formed with a flange 7 and 7 upon each prong so that by a slot being formed in said flanges f a. Cl'i'lrlt pin 71- may be arranged to slide therein the heads of the cross pin lt being arranged to keep said. pin within the slots or to prevent it from leaving same longitudinally.
About centrally of the pin 72 is fixed a series of members preferal'ily of hexagonal shape, the sides of these members beingfor engagement with the lower end of their respcctivo bobbin l t as is l'ltilelilill t el described, one side or other of said hexagonal members being always in position so that by the pin i). rotating freely in the slots f when the hexagonal i'i'iembers Zi come in contact with the base end 114. of the bobbin i l one face or another is adjusted against said base.
Pivoted upon bearings 12" fixed to the lifter plate 12 is a longitudinal shaft 28 which extends lengthwise the machine and has projections 28 extending from it as shown by Figs. and let of the drmvings,
.L each one of said projection: 28 being for engagement with the thread in connection with each bobbin 14: as is hereinafter explained. The shaft 28 is capable of rotating in its l'iearings as well as being movable lengthwise through said bearings as same is operated by the handle 28.
Mounted on the front of the machine are the bearings 29 several of these being ar ranged along the front of the machine to meet the requirements of the number of de vices that are to be used in connection there?- with and in manner ,well known. Arranged to slide through or upon each of said bearings 29 is a vertical rack 30,and each of these vertical racks 30 has at its upper end later-ah ltll) ly and vertically projecting arms and 30 Upon the arm 30" ispivoted at 30 another arm 31 which extends somewhat horizontally to support the longitudinal rail 32 upon which are fixed pegs 33 to receive the empty bobbins ll thus the rail 32 will support the series of pegs 33 the number of said pegs 33- corresponding with the number of the spindles 3 while each peg has adjoining ll; a supporting piece 33 which extends to support the bobbin 14 as shown by the drawings. The supporting of the bobbin let in the position shown by F 3 and l is to enable the multifaced member is on the bifurcated member 27 to come in contact with the base ll" of the bobbin 14.
Extending from the lever 31 is a projection 341 that has pivoted to it at 31 a connecting rod- This connectingrod 35 extends vertically so that a quadrant slot 35" formed therein may take over a pin 35 fixed upon a lever 36 which is fixed upon a shaft 37. The shaft 37 is preferably rectangular in cross section and has fixed to it a series of pegs 38 saidseries of pegs 38 corresponding in number with the number of pegs carried by the rail 32.
The shaft- 36 is pivoted upon extensions from the racks 30 and the lever 36 at the end of said shaft 37 locates the position of said shaft 37 by projections 35 35*- coming in contact with theend frame A as same may be adjusted as is hereinafter explained.
Pivoted to the lever 31 at 10 is a catch piece 40 having a handle 40 and this catch piece 40 engages with a projecting pin 30 which is fixed to the extension 30 of the rack 30.
lVhen the lever 31 and the rail 32 which it supports, are situated in the positions shown by Fig. 3 the outermost of the notches in the catch piece 40 in engagement with the retaining pin 30 whereas when the said devices are adjusted in the position shown by Fi 4 then the other notch is in contact with die said pin 30.
The racks 30 are actuated by pinions 42 engaging therewith and said pinions 4-2 a re fixed. upon a shaft 13 which extends lengthwise the machine while upon the same shaft 13 is fixed a handle 44 as shown by Fig. 6.
The operations of the foregoing parts are followsz- After the winding operations have been completed so that the full bobbins are ready for displacement. the attendant operates the hand wheel 11 in order to actuate through the chain 8 and other devices above referred to, the rail 2 which carries the spindles. The operation of said ltll' 2 is to cause it to more vertically to carry the spindles 3, bobbins 1e and: caps 15 into the highest position shown by Fig. 1.
Prior to reaching this highest position he will have moved the bifurcated member 27 so that the two bifurcations will rest upon the upper flange on the wharle 13 he will then complete the movement vertically after which the plate 16 will he slid longitudinally so that the slots 0 therein are caused. to receive the caps 15 as is shown by Fig. 6
of the drawings at which time the pegs (I will engage with the flanges 15 on the caps 15 to prevent same from moving out of position.
The vertical movement of the spindles, caps and lifter plate into the highest position where the caps are shown by Fig. 4 has the effect of enabling the upper flange of the wharle 13 bringing the bifurcated member 27 into its horizontal position when it will retain its respective bobbin as desired. (The engaging of the bifurcations with the upper flange of the wharle 13. when in the position first engaged with by said bifurcations enables the hexagonal members is to. fall into contact with and therefore to: retain the bases 1 1 of the bobbins 14.) The bifur ated members 27 will be retained in the horizontal position by the handle which operates the shaft engaging with the usual device. The spindle rail. 2 is then lowered to its lowest position so that all the spindles are clear of thetmder-side of the bobbins heads. This is effected by reversal. of the direction of motion of the hand wheel 11.. The handle 22 is then actuated in order to bring the bearings 17 plates 16 and all the caps 15 and bobbins 14 Which:- are supported by the devices described into the forward: position shown by Fl 5 thus the pegs 38 are in position to receive said bobbins. The handle 4-4 is then actuated and the racks 30 raised vertically so that the ends of the pegs 38 enter the lower ends of the bobbins. The attendant then actuates the handle 26 and removes the bifurcations 27 from supporting the bobbins thus said bobbins will descend on to the pegs 38 said pegs 38 are then lowered in order that the said pegs 38 may be brought clear and away from beneath the caps 15 while simultaneously the pegs 33. thus have brought the empty bobbins into alignment with said caps and by raising same into position will carry the bobbins into the caps on which the bifurcated arms 27 again engage the empty bobbins and rctain them within the caps so that the pegs 33 may then be withdrawn. The bobbins are thus retained by the bifurcated members within the capsso that said caps and said bobbins along with their supports may be caused to recede to their starting position shown by Fig. 4- at which time the full bobbins will rei'nain close to the lifter rail of the machine and the empty pegs will occupy the position shown by Fig. 4. The hand wheel 11 is then a tuated tocanse the spindle rail and its spindles to ascend to. their highest position to enter the bobbins and receive the caps at their upper ends after which said spindle rail is lowered into its operating position after the bifurcated members have been withdrawn to let the bobbins fall by their weight on to said spindles. The attendant then will actuate the handle 44: so that the racks are brought into position for the full bobbins to approach the lifter-rail but will then slide the shaft 28 longitudi' nally in order that the fingers thereon may engage the threads of yarn so that on revolving said shaft 28 saidfingers will carry the threads of yarn against the upper flanges of the wharles 13 so that the notches 13" therein may lay hold of said threads. He then readjusts the several parts and restarts the machine into operation at which time the rotary motion of the wharle l t will lay hold of the loose threads, sever same and wind them on to the bobbins so that the full 0 erations may then continue.
Suc ,1 being the nature and. object of our said invention what we claim isz 1. In dofiing mechanism for cap spinning machines, a vertically movable spindle rail, means for actuating said spindle rail, spindles fixed upon said spindle rail, a lifter plate taking over said. spindles, wharles mounted upon said spindles, bobbins supported and operated by said wharles, caps mounted upon the upper ends of said spindles, each of said caps having a lateral flange formed upon it, means for engaging said flange to support the cap, devices for actuating said means, members for engaging the lower ends of the bobbins within the caps and means for operating said members, two series of pegs for receiving the full and empty bobbins, a rail mounted upon lever arms supporting one series of pegs, an oscillating shaft supporting the secondseries of pegs, a lever fixed to said shaft, a slotted connecting link coupling the lever supporting the first rail to the lever fixed upon said shaft, means for actruiting said levers, bearings upon which said levers and the shaft are pivoted, and means for raising and lowering said bearings for the purpose described.
2. In dofiing mechanism for cap spinning machines, a vertically movable spindle rail, means for actuating said spindle rail,-spin dles fixed upon said spindle rail, a lifter plate taking over said spindles. wharles mounted upon said spindles, bobbins supported and operated by said wharles, caps mounted upon the upper ends of said spindles, each of said. caps having a lateral flange formed upon it, a slotted plate for spanning the caps and engaging the flanges thereon, devices for actuating said slotted plate, members for engaging the lowerends of the bobbins within the caps and means for operating said members, two seri s of upon the peg shaft, bearings upon Which said levers and the shaft are pivoted, and
means for raising and lowering said bearings for the purpose described.
3. In dofiing mechanism for cap-spinning machines, a vertically movable spindle rail, means for actuating said spindle rail, spindles fixed upon said spindle rail, a lifter plate taking over said spindles, Wharles mounted upon said spindles, bobbins supported and operated by said .wharles, caps mounted upon the upper ends of said spindles, each of said caps having a late :11 flange formed upon it, means for engaging said flange to support the cap, devices for actuating said means, bifurcated members for engaging the lower ends of the bobbins within the caps, means for operating said members, slidable and rotatable crosspins carried by said bifurcated members, hexagonal devices mounted upon said cross pins, two series of pegs for receiving full and empty bobbins, a rail mounted upon lever arms supporting one series of pegs, an oscillating shaft supporting the second series of pegs, a leveri'ixed upon said shaft, a slotted connecting link coupling a lever supporting the first rail to the lever fixed upon thepeg shaft, bearings upon which said levers and the shaft are pivoted, and means for raising and lowering said bearings for the purpose described.
t. In dotting mechanism for cap spinning inachines,a vertically movable spindle rail, means for actuating said spindle rail, spindles fixed upon said spindle rail, a lifter plate taking over said spindles, wharles mounted upon said spindles, bobbins supported and operated by said wharles, caps mounted upon the upper ends of said spindles, each of said caps having a lateral flange formed upon it, means for engaging said flange to support the cap, devices for actuating said means members for engaging the lower ends of the bobbins within the caps, means for operating said members, two series of pegs for receiving full and empty bobbins, a rail mounted upon lever arms supporting one series of pegs, a shaft arranged to oscillate upon bearings. and having an arm extending therefrom, coupling links between a lever carrying said peg rail and the arm fixed upon said peg carrying shaft, so that simultaneous action is secured, bearings upon which said levers and shaft are pivoted, and means for raising and lowering said bearings, for the purpose described.
'5. In dofiing mechanism for cap spinning machines, a vertically movable spindle rail, means for actuating said spindle rail, spindles fixed upon said spindle rail, a litter plate taking over said spindles, Wharles mounted upon said spindles, bobbins supported and operated by said wharles, caps mounted upon the upper ends of said spindles, each of said caps having a lateral flange formed upon it, means for engaging said flange to support the cap, devices -for actuating said means, members for engaging the lower ends of the bobbins Within the caps and means for operating said members, two series of pegs for receiving full and empty bobbins, a rail mounted upon lever arms and supporting one series of pegs, an oscillating shaft supporting the second series of pegs, a lerer fixed upon said shaft, a slotted connecting link coupling a lever supporting the first peg rail to the lever fixed upon the peg shaft, bearings upon which said levers and the shaft are pivoted means for raising and lowering said bearings, a rotatable shaft or red mounted upon the lifter plate, bearings for said shaft or rod which permit longitudinal motion to be transmitted to said rod, projections extending from said rod to engage with the threads, and means for rotating and sliding said rod.
ALFRED STELL.
JOHN STELL.
HENRY WELCH.
US199604A 1926-05-17 1927-06-17 Doffing mechanism for cap spinning, doubling, and like machines Expired - Lifetime US1665720A (en)

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