US3831875A - Thread storage and supply device for textile machines - Google Patents

Thread storage and supply device for textile machines Download PDF

Info

Publication number: US3831875A
Authority: US; United States
Prior art keywords: thread; rollers; belt; body means; winding body
Prior art date: 1972-06-16
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

Application number

US00368668A

Other languages

English (en)

Inventor

K Jacobsson

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Iro AB

Original Assignee

Iro AB

Priority date (The priority date 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 date listed.)

1972-06-16

Filing date

1973-06-11

Publication date

1974-08-27

1973-06-11 Application filed by Iro AB filed Critical Iro AB

1974-08-27 Application granted granted Critical

1974-08-27 Publication of US3831875A publication Critical patent/US3831875A/en

1991-08-27 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

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Classifications

- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H51/00—Forwarding filamentary material
- B65H51/20—Devices for temporarily storing filamentary material during forwarding, e.g. for buffer storage
- B65H51/22—Reels or cages, e.g. cylindrical, with storing and forwarding surfaces provided by rollers or bars
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/30—Handled filamentary material
- B65H2701/31—Textiles threads or artificial strands of filaments

Definitions

a storage surface is associated with the winding body and is movable relative thereto in the circumferential direction thereof.
a thread guide device is provided for conducting the thread to the storage surface, which guide device is disposed inside the space defined by the layers of stored thread windings such that the issued thread penetrates between the storage surface and the innermost layer of thread windings.
This invention relates to a threaded storage and supply device for textile machines, comprising a winding body upon which the thread can be wound in circumferential direction in two or more layers of thread windings and from which the thread can be removed particularly an axial direction.
the thread windings formed by the thread winding up on the winding body tangentially is displaced in the axial direction by a suitable thread transport element.
the lastly formed windings are shoved underneath the previously formed one thereby causing the quoted irregular skein to be formed.
the size of the skein of thread produced in this manner is limited in that the resistance to displacement in the skein constantly increases so that the'passive thread transport element is no longer able to press the newly formed windings underneath the old one and, at the same time, to displace the entire thread storage in axial direction on the winding body.
the invention is based on the object of designing a thread storage and supply device of the class cited at the outset such that a large thread storage can be produced on the winding body while ensuring substantially regular configuration of the layers of thread windings on the winding body.
This object is accomplished in aceordance with the invention in that a storage surface is associated with the winding body and can be moved in the circumferential direction thereof and that a thread guide member conducting the thread to the storage surface is arranged stationary relative to the storage surface and inside the space defined by the stored thread windings such that the issued thread penetrates between the storage surface and the lowermost thread layer.
the thread storage in the inventive device also increases in a radial direction.
the newly formed thread windings are placed on the inside of the previous windings so that the latter are pressed outwardly.
This has the great advantage that the thread is always removed from the outermost layer of thread.
the thread windings of the outermost thread layer are not covered or crossed by thread windings previously formed, thereby permitting the thread to be drawn off without producing any irregularities in tension. Since the thread storage is not displaced in the axial direction of the winding body, the resistance to displacement thereof does not limit the size of the thread storage.
numerous thread layers can be formed above one another when new thread layers are issued from the inside, thus permitting a larger thread supply to be created on the winding body within a small space.
the winding body has several rollers disposed in angular spacing distributed over the circum ference thereof which can be set in rotation about their axles and whose surface face regions respectively encompassed externally by the thread windings mutually form the storage surface and that the thread guide member is arranged within the enveloping surface externally tangent to the rollers.
the storage surface which causes the newly wound thread to be pushed under the existing thread windings can be easily formed by means of rotating rollers disposed in a closed path in a distributed fashion.
a belt which can be driven in the circumferential direction of the winding body is conducted about the cylindrical rollers and the outer surface thereof forms the storage surface, the belt being conducted inwardly between two proximate rollers and about a guide member to form a belt loop which opens outwardly and the thread guide member is disposed in the space defined by the belt loop.
the thread windings are supported on the inside by the belt across the substantial portion of the winding body circumference, thereby preventing any undesirable deformation of the thread storage.
the belt also transmits frictional forces to the newly wound thread across practically the entire winding body circumference so that the thread is reliably pulled under the already existing thread layers.
the guide member consists of a cylindrical roller arranged in the center of the winding body and driven in rotation while the remaining rollers are pulled along with the belt.
the guide member has, in addition to its task of ensuring that the belt loop is drawn inwardly, the additional function of driving the belt and the other rollers over this belt, thereby permitting the device to be constructed in a simple manner.
rollers are rotatably journaled in a stationary framework.
the device is then especially simple in structure and operation.
winding body comprising the thread guide member having a thread guide coaxial relative to the winding body can be set in rotation in its entirety and the storage surface can be driven relative to the winding body at a negative speed corresponding to the circumferential speed of said body so that the storage surface remains stationary relative to the environment.
This variation of the embodiment has the advantage that the thread stroage remains stationary, thereby preventing any and all loop formation in the thread.
the thread guide member be periodically reciprocal in the axial direction of the winding body. In this manner, the thread storage is distributed over the storage surface in axial direction of the winding body, thereby enabling a greater thread storage to be formed.
the winding body is associated with a winding element which rotates in the same direction as the storage surface relative to the winding body at a circumferential speed corresponding to or exceeding the storage surface.
the thread is unwound neatly in this way.
the unwinding element prevents a balloon from forming in the unwinding section of thread.
the unwinding element has an annular surface journaled concentrically to the winding body, over which the thread can be removed in an axial direction as well as having a brake ring which is supported on a shoulder of the annular surface, which is known per se and which elastically hinders the passage of the thread about the annular surface.
the unwinding element unites in itself the functions of unwinding and braking the unwinding thread.
the winding body is associated with a monitoring device which keeps the size of the stored amount of thread inside predetermined limits and which has a tactile member which is movably disposed in the belt loop radial to the winding body and which makes contact with the lowermost layer of thread from the inside and which is connected to a switch which controls the winding drive.
the tactile member responds to the radial tension varying in accordance with the thickness of the thread storage.
the tactile member is pressed inwardly by this radial tension to such an extent that it disconnects the winding drive.
the tactile member moves outwardly when the thread storage becomes smaller and consequently causes the radial tension to decrease. In so doing, the tactile member switches the winding drive on again. This permits reliable monitoring of the size of the thread storage.
FIG. I is a longitudinal section through a first embodiment of a thread storage and supply device in accordance with the invention.
FIG. 2 is a schematic cross section through the device in accordance with FIG. I.
FIG. 3 is a longitudinal section through a second embodiment of a thread storage and supply device in accordance with the invention and including a stationary storage surface.
FIG. 4 is a schematic cross section through the device according to FIG. 3.
a plurality (here six) of cylindrical rollers 2 have their axles 3 rotatably journaled in a stationary framework I.
the rollers 2 are disposed in a circle with equal angular spacing.
a belt 4 externally encircles the rollers 2.
the belt 4 is drawn inwardly between two proximate rollers 2 such that the belt forms a loop 4a which opens outwardly.
the belt loop encircles a central roller 5 in the center of the circle in which the rollers 2 lie, said central roller 5 being mounted on an axle 6b which is also rotatably journaled in the framework 1.
Rollers 2 and the belt 4 together form at least part of a body generally designated W in the drawing for winding up a thread F issuing from a storage spool (not shown).
the outer surface 4b of the belt forms a storage surface for the thread F.
the thread is conducted through a tubular thread guide member 6 whose mouth 6a is disposed in the interior of the belt loop 4a.
the thread guide member 6 is mounted in the framework I so as to be longitudinally slidable and is held in position by means of a spindle nut 7 mounted on a screw 8 which has intersecting threads merging together at the end and which is also rotatable in the frzunework ll, whereby rotation of screw 8 causes reciprocation of nut 7 and member 6.
An electromotor 9 which is rigidly secured to the framework serves as the driving means and drives the screw 8 via a first pinion I0 and intermediate gears II and 12. Motor 9 also drives the central roller 5 via a second pinion I3 and a gear 14 rigidly connected to the roller 5. The central roller 5 serves to drive the belt 4. The belt pulls along the rollers 2 and thereby rotates these about their axes 3.
a roller having a small diameter which is rotatably journaled in the framework I.
the roller 15 is pivotally mounted at one end thereof on the frame so that the roller is normally urged radially outwardly toward the surrounding layers of thread for sensing and controlling the size of the existing thread storage V.
the roller I5 is urged outwardly by a compression spring 16 and cooperates with a switch 17 positioned in the control line 17a of the drive motor 9.
a disc 18 which can be set in rotation by the drive motor 9 via the first pinion I0 and the intermediate gear II in the same direction as the belt 4 is fixedly positioned on the axle 6b of the central roller 5.
the transmission ratios are selected such that the circumferential speed of the disc 18 is at least as high as that of the belt 4.
the disc I8 forms a conically expanding annular surface 18a on its circumference.
a brake ring 19, which consists of a base ring 19a surrounding the annular surface 18a in spaced relation and flexible fingers 19b extending inwardly in a conical fashion and inclined from the base ring 19a in the direction of circumference, is supported on a shoulder 18b formed by a bend in the annular surface 18a.
the brake ring 19 is described in full detail in German published patent application (DT-AS) 1,900,619.
the device described above functions in the following way:
the central roller 5 rotates in the direction indicated by the arrow P as seen in FIG. 2.
This causes the belt 4 to rotate in the sense of arrow P and pulls along with it the rollers 2. which rotate in the direction indicated by arrow P
the thread F is conducted in the direction of arrow P (FIG. I) through the tubular thread guide member 6 and emerges from the mouth 6a of the thread guide member in the direction of arrow P
the thread comes to abut on the outer surface of the belt 4 and is pulled along thereby while forming thread windings about the winding body W.
the successive thread windings are offset mutually in the axial direction of said winding body W, since the thread guide member 6 executes a reciprocating movement as indicated by the double arrow P in FIG. I by virtue of the rotation of screw 8.
This causes a thread storage V to be formed on the storage surface 4b defined by the external surface of the belt 4.
This thread storage V incorporates several layers of thread lying one above the other in radial direction relative to the winding body W.
the new layers of thread are always forrned in radial direction within (i.e., beneath) the old thread layers because the belt pulls the newly issued thread F between the existing thread storage V and the storage surface 4b formed by the outer surface of the belt.
the thread F is removed from the thread storage V in the axial direction of the winding body W, as indicated by the arrow P in FIG. l.
the thread is conducted over the annular surface 18a which rotates at the same or a higher speed than the belt and in the same direction of rotation. ln so doing, the thread F is conducted about the annular surface lfia relative thereto and is elastically decelerated by the brake ring 119 in a known manner.
the brake ring 119 prevents a balloon from forming in the section of thread which is removed.
the roller 15 forming a tactile device abuts on the inside of the thread storage V which is not supported by the belt 4.
the thread storage V has reached the desired maximum size, its radial contraction is so great that it pivots the roller l inwardly against the action of the spring l6, thereby opening the switch 17 and switching off the drive motor 9.
switch 17 is again closed, thus causing the winding operation to begin once again.
the belt 4 can be omitted.
the rollers 2 must then be rotated synchronously via a gearbox.
the issued thread is then conducted by the surface of the rollers and is stored thereupon.
the areas of the rollers which are encompassed by the thread windings themselves form the storage surface.
the rollers 2 can also be replaced by a stationary, cylindrical guide member about which the belt 5 passes. In order to reduce friction, the belt is supported in this case only on ribor roller-shaped projections of the guide member.
the pendulum movement of the thread guide member 6 may also be attained, of course, by using means other than the screw 9 with intersecting threads. For instance, a curve control could be provided for this purpose. Instead of the tubular thread guide member 6, a bobbin roller with crossed grooves for guiding the thread could also be used.
Driving could be accomplished by a belt driving several winding bodies instead of by a special electromotor 9; this would entail arranging a clutch which is actuatable by the monitoring device l5, 17 between the driving belt and the driven parts of the winding body.
the monitor itself could also be constructed differently.
the thickness of the thread storage could be measured photoelectrically and the drive means could be controlled accordingly. Pneumatic scanning of the thickness of the thread storage is also feasible.
the thread F does not necessarily have to be drawn off from the winding body W in a axial direction.
a reversing device sould also be present which effects a tangential thread removal and thus a positive thread supply if desired.
a stationary framework l is again provided.
the cylindrical rollers 2 are, however, not journaled with their axles 3 in the framework, but rather in a plate 20 which is integrally constructed or rigidly joined to a central shaft 211.
the shaft 21 can be driven by the drive motor 9 via a belt drive 22 which includes a belt 22a and pulleys 22b and 220.
the tubular thread guide member 6 is arranged coaxial in the shaft 21 such that it can be slid in its longitudinal direction, but still be pulled along (i.e., rotated) during rotation of the shaft 21.
Member 6' has a laterally bent mouth 6'a.
the axles 3 of a few or of all rollers 2' bear a pinion 23 at their free ends which engages with the stationary internal gear 24 of the framework 1'.
the transmission ratios are selected such that, during rotation of the support disc 20, the rollers 2' execute a circumferential movement on the outer circumference of the rollers 2' which is opposite to the rotation of the support disc 20 due to the engagement of the pinion 23 in the internal gear 24 and which has such a linear speed that the belt encompassing the rollers 2', 5 remains stationary at least in the circumferential direction of the winding body with respect to the framework 1'.
a tactile arm 25 which is pivotallly hinged to the support surface 20 is biased outwardly by a spring (not shown) and acts on a microswitch 17' which in turn switches the motor 9 on and off via slip rings 26.
the tubular thread guide member 6' has a control arm 27 which abuts on a stationary eccentric cam 28. During rotation of the shaft 21 and the guide member 6, which also causes rotation of the disc 20 supporting thereon the rollers 2' and 5', the tubular thread guide member 6' is thus reciprocated in its longitudinal direction.
the abutment of the arm 27 on the eccentric cam 28 is guaranteed by a compression spring 29 which acts on a flange M) on the thread guide member 6.
the thread F passes through the central thread guide member 6' and through the laterally bent mouth 6'a thereof to the outer surface of the belt 4 and there forms a thread storage V from the inside to the outside.
the thread storage V is thus located in this case on a storage surface 4'! which is stationary relative to the environment and which is formed by the outer surface of the belt 4.
the thread F is removed from the winding body W, the external supporting surface of which is stationary in this case, in an axial direction as indicated by the arrow P, over a disc 18 and under a brake ring 19.
the disc 118' must be stationary during operation. This can be accomplished by magnetic force, by an eccentrically positioned weight or by means of a pin 31 secured to the machine frame 1' and holding the brake ring 19'. Friction between the brake ring 19' and the rotatably joumaled disc 18' is sufficient to kept this in a stationary position.
a thread storage and supply device for a textile machine comprising winding body means upon which a thread can be wound in a circumferential direction to form two or more layers of stored thread windings and from which the thread can be removed, a storage surdisposed inside the space defined by the layers of stored thread windings such that the issued thread penetrates between the storage surface and the innermost layer of thread windings.
the winding body means includes a plurality of rollers disposed in angular spaced relationship around the circumference thereof, said rollers being rotatable about their respective axes, and said rollers having surface regions respectively externally encompassed by the thread windings, and said thread guide means being positioned within an enveloping surface which is externally tangent to the rollers.
a device including an endless belt conducted about the rollers, the outer surface of said belt forming said storage surface, a belt guide element positioned inwardly from said rollers, said belt being conducted inwardly between two adjacent rollers and about said guide element to form a belt loop which opens outwardly, and said thread guide means being disposed in the space defined by the belt loop.
a device including means for periodically reciprocating the thread guide means in the axial direction of the winding body means.
a device including a monitoring device associated with the winding body means for maintaining the size of the stored amount of thread within predetermined limits, said monitoring device having a sensing member disposed in said belt loop and movable radially relative to the winding body means for contacting the innermost layer of thread from the inside, a winding drive associated with said winding body means for causing rotation of said rollers relative to a supporting frame, and switch means operationally activated by said sensing member for controlling said winding drive.
said sensing member comprises a roller disposed between said two adjacent rollers.
the guide element comprises a cylindrical roller arranged in the interior of the winding body means, and drive means connected to said guide element for rotating same, whereby said guide element drives the belt which in turn drives said plurality of rollers.
rollers are rotatably journaled in a stationary frame.
a device including means for periodically reciprocating the thread guide means in the axial direction of the winding body means.
a device including an unwinding element associated with the winding body means and rotatable relative thereto in the same direction as the storage surface, and means for causing said unwinding element to rotate at a circumferential speed relative to the winding body means corresponding to or exceeding the circumferential speed of said storage surface.
a device wherein the unwinding element has an annular surface journaled concentrically to the winding body and over which the thread can be removed in axial direction, and a brake ring supported on a shoulder formed on the annular surface, said brake ring elastically hindering the passage of the thread about the annular surface.
a device further including means for supporting said winding body means for rotation in one direction at a first circumferential speed, and means coacting with said support surface for rotating same in a circumferential direction relative to said winding body means at a second circumferential speed which is substantially the same as said first circumferential speed but in the opposite direction so that the storage surface remains substantially circumferentially stationary relative to a fixed frame.
a thread storage and supply device for a textile machine comprising:
body means having a longitudinal axis
thread support means movably mounted on said body means for defining an axially elongated, shell-like cylindrical region in surrounding relationship to said body means, said region being substantially concentric with said axis;
said thread support means having thread support surface means defining at least part of the inner boundary of said region, said surface means having at least one opening in the circumferentially extending direction thereof;
thread guide means for supplying thread to said region to cause a plurality of thread windings to be wound around said support means and supported on said surface means, said guide means including a guide member positioned within the interior of said cylindrical region for supplying a thread radially outwardly through said opening into said region;
said support means includes a plurality of cylindrical rollers rotatably supported on said body means and disposed in a circular pattern in surrounding relationship to said axis, said roller means being substantially equally angularly spaced from one another, and said thread guide member having a discharge end positioned within the interior of the circular pattern defined by said plurality of rollers for discharging a thread radially outwardly between an opening defined between a pair of adjacent rollers.
a device wherein said body means is stationary, said drive means being drivingly interconnected to at least one of said rollers for rotating same, and said thread guide member being nonrotatable relative to said body means.
a device wherein said body means is mounted for rotation about said axis, said drive means being drivingly interconnected to said body means for causing rotation thereof in one direction, and means coacting with said rollers for causing rotation of said rollers about their respective axes in the opposite direction in response to rotation of said body means in said one direction, and said thread guide member being mounted for rotation with said body means.
said surface means is defined by an endless belt extending circumferentially around said body means in substantially concentric relationship to said axis, a belt guide element positioned in the interior of said region spaced radially inwardly from said inner boundary, said belt having a loop formed therein which extends radially inwardly from said inner boundary and around said belt guide element whereby said loop opens outwardly and defines said opening, and said thread guide member having the discharge end thereof disposed in the space defined by said belt loop.
said support means includes a plurality of cylindrical rollers rotatably supported on said body means, said rollers being disposed within a circular pattern in surrounding relationship to said axis, said belt being supported on said rollers, and said belt loop extending radially inwardly between an adjacent pair of said rollers.
a device wherein said body means is stationary, and wherein said drive means is drivingly connected to said belt for causing rotation thereof in the circumferential direction of said body 22.
a device further including means for causing reciprocation of said thread guide means in a direction substantially parallel to said axis simultaneous with the relative circumferential rotation between said body means and said? surface means.

Landscapes

Engineering & Computer Science (AREA)
Textile Engineering (AREA)
Forwarding And Storing Of Filamentary Material (AREA)
Looms (AREA)
Storing, Repeated Paying-Out, And Re-Storing Of Elongated Articles (AREA)
Knitting Machines (AREA)

US00368668A 1972-06-16 1973-06-11 Thread storage and supply device for textile machines Expired - Lifetime US3831875A (en)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
DE2229529A DE2229529A1 (de)	1972-06-16	1972-06-16	Fadenspeicher- und -liefervorrichtung fuer textilmaschinen

Publications (1)

Publication Number	Publication Date
US3831875A true US3831875A (en)	1974-08-27

Family

ID=5847988

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
US00368668A Expired - Lifetime US3831875A (en)	1972-06-16	1973-06-11	Thread storage and supply device for textile machines

Country Status (7)

Country	Link
US (1)	US3831875A (fr)
JP (1)	JPS5341254B2 (fr)
DE (1)	DE2229529A1 (fr)
ES (1)	ES415934A1 (fr)
FR (1)	FR2190105A5 (fr)
GB (1)	GB1388647A (fr)
IT (1)	IT986531B (fr)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US4037802A (en) *	1974-04-10	1977-07-26	Sergio Calamani	Apparatus for storing and feeding yarn to yarn using machines
US5181666A (en) *	1991-02-26	1993-01-26	Sipra Patententwicklungs-Und Beteiligungsgesellschaft Mbh	Thread feeding device
US5184484A (en) *	1989-06-17	1993-02-09	Jae Poong Yoo	Yarn feeding apparatus having yarn break protection
US5679158A (en) *	1996-03-19	1997-10-21	Basf Corporation	Finish nozzle and application assembly for a synthetic filament spinning apparatus
US20080087309A1 (en) *	2000-12-15	2008-04-17	Johnsondiversey, Inc.	Device for monitoring a wash process

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
DE19733263A1 (de) *	1997-08-01	1999-02-04	Sipra Patent Beteiligung	Fadenliefervorrichtung an einer Textilmaschine und Bandspannvorrichtung dafür

Citations (11)

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Publication number	Priority date	Publication date	Assignee	Title
GB539200A (en) *	1940-02-29	1941-09-01	Donald George Ashcroft	Improvements in or relating to means for tensioning or stretching artificial filaments or threads during or after production
US2565397A (en) *	1949-07-09	1951-08-21	Jr William R Schmitz	Thread guiding device
US2579846A (en) *	1947-03-27	1951-12-25	Bata Narodni Podnik	Device for drawing off spun fibres
US2606358A (en) *	1947-12-31	1952-08-12	American Viscose Corp	Thread advancing device
DE1079785B (de) *	1953-08-28	1960-04-14	Harry Asdour Kuljian	Fluessigkeitsabstreifer fuer die Walzen eines Fadenfoerderhaspels
US2936877A (en) *	1954-09-10	1960-05-17	Du Pont	Strand processing
DE1084798B (de) *	1958-09-30	1960-07-07	Siemens Ag	Vorrichtung zum Zwischenspeichern von fortlaufend bewegten biegsamen Straengen auf einer Speichertrommel, insbesondere von mit Kunststoff umspritzten elektrischen Draehten
DE1093043B (de) *	1955-09-27	1960-11-17	Harry Asdour Kuljian	Fadenfoerderhaspel, insbesondere zur Behandlung eines frisch gesponnenen Kunstfadens mit Fluessigkeiten
US3017130A (en) *	1955-01-17	1962-01-16	Kenneth K Knight	Accumulator device for a flexible element
US3606975A (en) *	1969-01-22	1971-09-21	Rosen Karl I J	Method of feeding yarn to a knitting place on a textile machine
US3687384A (en) *	1969-04-11	1972-08-29	Rosen Karl I J	Thread delivery and storage device

1972
- 1972-06-16 DE DE2229529A patent/DE2229529A1/de not_active Withdrawn
1973
- 1973-06-06 GB GB2704573A patent/GB1388647A/en not_active Expired
- 1973-06-11 US US00368668A patent/US3831875A/en not_active Expired - Lifetime
- 1973-06-14 ES ES415934A patent/ES415934A1/es not_active Expired
- 1973-06-15 JP JP6699073A patent/JPS5341254B2/ja not_active Expired
- 1973-06-15 IT IT68779/73A patent/IT986531B/it active
- 1973-06-15 FR FR7321995A patent/FR2190105A5/fr not_active Expired

Patent Citations (11)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
GB539200A (en) *	1940-02-29	1941-09-01	Donald George Ashcroft	Improvements in or relating to means for tensioning or stretching artificial filaments or threads during or after production
US2579846A (en) *	1947-03-27	1951-12-25	Bata Narodni Podnik	Device for drawing off spun fibres
US2606358A (en) *	1947-12-31	1952-08-12	American Viscose Corp	Thread advancing device
US2565397A (en) *	1949-07-09	1951-08-21	Jr William R Schmitz	Thread guiding device
DE1079785B (de) *	1953-08-28	1960-04-14	Harry Asdour Kuljian	Fluessigkeitsabstreifer fuer die Walzen eines Fadenfoerderhaspels
US2936877A (en) *	1954-09-10	1960-05-17	Du Pont	Strand processing
US3017130A (en) *	1955-01-17	1962-01-16	Kenneth K Knight	Accumulator device for a flexible element
DE1093043B (de) *	1955-09-27	1960-11-17	Harry Asdour Kuljian	Fadenfoerderhaspel, insbesondere zur Behandlung eines frisch gesponnenen Kunstfadens mit Fluessigkeiten
DE1084798B (de) *	1958-09-30	1960-07-07	Siemens Ag	Vorrichtung zum Zwischenspeichern von fortlaufend bewegten biegsamen Straengen auf einer Speichertrommel, insbesondere von mit Kunststoff umspritzten elektrischen Draehten
US3606975A (en) *	1969-01-22	1971-09-21	Rosen Karl I J	Method of feeding yarn to a knitting place on a textile machine
US3687384A (en) *	1969-04-11	1972-08-29	Rosen Karl I J	Thread delivery and storage device

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US4037802A (en) *	1974-04-10	1977-07-26	Sergio Calamani	Apparatus for storing and feeding yarn to yarn using machines
US5184484A (en) *	1989-06-17	1993-02-09	Jae Poong Yoo	Yarn feeding apparatus having yarn break protection
US5181666A (en) *	1991-02-26	1993-01-26	Sipra Patententwicklungs-Und Beteiligungsgesellschaft Mbh	Thread feeding device
US5679158A (en) *	1996-03-19	1997-10-21	Basf Corporation	Finish nozzle and application assembly for a synthetic filament spinning apparatus
US20080087309A1 (en) *	2000-12-15	2008-04-17	Johnsondiversey, Inc.	Device for monitoring a wash process

Also Published As

Publication number	Publication date
GB1388647A (en)	1975-03-26
JPS4948959A (fr)	1974-05-11
FR2190105A5 (fr)	1974-01-25
ES415934A1 (es)	1976-02-01
JPS5341254B2 (fr)	1978-11-01
DE2229529A1 (de)	1974-01-03
IT986531B (it)	1975-01-30

Publication	Publication Date	Title
US4477035A (en)	1984-10-16	Winding a package of tape
US3637149A (en)	1972-01-25	Thread-storing device for temporarily storing a thread
US3749327A (en)	1973-07-31	Thread packaging device with intermediate thread storage means
US3165274A (en)	1965-01-12	Yarn winding apparatus
US2882673A (en)	1959-04-21	Coiling head for yarn packs
US4029265A (en)	1977-06-14	Winding flexible strip material on cores with frusto-conical ends
US3478399A (en)	1969-11-18	Apparatus for coiling a textile product
US3831875A (en)	1974-08-27	Thread storage and supply device for textile machines
US3350021A (en)	1967-10-31	Thread winding machine
US4028911A (en)	1977-06-14	Inclined pin wheel for yarn storage drum
US3209558A (en)	1965-10-05	Yarn furnishing device
US3697007A (en)	1972-10-10	Winding apparatus
KR880000586B1 (ko)	1988-04-16	탄성 커버링(covering)사와 그의 제조방법 및 장치
US3727855A (en)	1973-04-17	Winding method and apparatus
US4349160A (en)	1982-09-14	Apparatus and method for winding yarn to form a package
US3844504A (en)	1974-10-29	Method and apparatus for handling yarn
US3945579A (en)	1976-03-23	Winding mechanisms with friction drive rollers
US3971517A (en)	1976-07-27	Apparatus for winding a yarn round a bobbin
US2354120A (en)	1944-07-18	Apparatus for assembling sheet material
US3768751A (en)	1973-10-30	Methods of and apparatus for continuously reeling strand material
US3779472A (en)	1973-12-18	Surface driven winder
US3526368A (en)	1970-09-01	Method and apparatus for winding thread
US2527662A (en)	1950-10-31	Coiling machine
SU653317A1 (ru)	1979-03-25	Устройство дл подачи эластичной нити с цилиндрической паковки в в зальную машину
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US3831875A - Thread storage and supply device for textile machines - Google Patents

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