US3871421A - Weaving machine having a variable weft yarn path - Google Patents

Weaving machine having a variable weft yarn path Download PDF

Info

Publication number: US3871421A
Authority: US; United States
Prior art keywords: weft yarn; roller; yarn; guide; weaving machine
Prior art date: 1972-10-09
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

US401275A

Other languages

English (en)

Inventor

Erwin Pfarrwaller

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.)

Sulzer AG

Original Assignee

Sulzer AG

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.)

1972-10-09

Filing date

1973-09-27

Publication date

1975-03-18

1973-09-27 Application filed by Sulzer AG filed Critical Sulzer AG

1975-03-18 Application granted granted Critical

1975-03-18 Publication of US3871421A publication Critical patent/US3871421A/en

1992-03-18 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

Images

Classifications

- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D47/00—Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms

Definitions

This invention relates to a weaving machine in which a weft yarn is taken off a weft yarn supply bobbin mounted outside a shed.-More particularly, this invention relates to a weaving machine having a variable weft yarn path.
weaving machines which have a weft yarn bobbin supply located outside the shed utilize various guide elements to guide the weft through a yarn path upstream of a picking mechanism.
These guide elements are disposed between the bobbin and the shed with at least one of the guide elements being movable so that the yarn path can be varied temporarily.
the weft is picked, e.g., by gripper shuttles and, in order to compensate for a pull-back movement subsequent to picking, the weft is kept tensioned until the next pick by a lever adapted to pivot out of of the yarn path.
a lever adapted to pivot out of of the yarn path In order to prepare a length of weft yarn as required for a subsequent pick, it has been known to provide one or more guide levers for the weft yarn, such levers being pivotable transversely to the direct yarn path. This feature reduces weft yarn stressing, since the yarn is pulled off the bobbin substantially continuously instead of jerkily and is picked from the planned or designed yarn supply.
the weft yarn which runs off the supply bobbin has been engaged before picking by an entraining member disposed on a rotating chain and is laid out as a loop which serves as a means of storing the length of yarn required for the pick.
the invention provides a movable weft yarn guide element for enlarging a predetermined yarn path with a guide roller for passage of the thread and a drive means for rotating the roller in the direction of yarn movement in the yarn path.
the guide element is disposed as one ofa plurality of guide elements for guiding a weft yarn to be picked into a shed formed by a suitable means within a weaving machine.
the movable guide element is used where a means is pro vided in a weaving machine to mount a weft yarn supply bobbin outside the shed.
the fact that the guide roller is driven reduces the tension of the weft yarn running over the guide roller by an amount corresponding to the looping angle and the coefficient of friction provided that the speed of guide roller rotation is equal to or greater than the speed of yarn movement;
thedrive means for the guide roller is so devised that the guide roller can be driven at a speed equal to or greater than the greatest possible speed of the weft yarn to be picked. If the speed of guide roller rotation is greater than the greatest speed of yarn movement, the tension of the piece of yarn running off the roller is always less than the tension in the piece of yarn which is entering or being supplied to the roller.
the drive means for the guide roller can be separate from the weaving-machine drive. It then becomes possible to use readily accessible and interchangeable components.
the drive means for the guide roller can be connected to the weavinginachine drive.
the guide roller can be disposed on a pivoted lever which has an independent drive facility.
a simple way of achieving accurate control of stor' age in association with the other functions of the machine is to have the drive means for the pivotal lever comprise a cam which cooperates with the weavingmachine drive.
the cam can be devised exactly to suit the required pattern of movements so that, e.g., it is possible to choose within the cycle of operation, the optimum interval oftime in which the yarn is stored but not released and vice versa.
the movable guide element can be an endless belt-like or chain-like carrier or support or the like.
the guide roller in order to ensure that the weft yarn does not slip off the roller despite the reduced weft yarn tension, has a profiled running surface formed with a groovelike recess receiving the weft yarn and a cover provided at a radial distance from the guide roller outside edge less than the thickness of the weft yarn to be guided.
the cover extends over the recess, is stationary relative to the roller and extends over some of the periphery of the roller.
a projection is disposed near the guide roller part remaining outside the yarn path. This projection is stationary relative to the guide roller and engages in the recess with radial and lateral clearance.
a pair of movable guide elements are used to vary the yarn path with each carrying a drive guide roller.
the movable guide elements are moved in the same direction while in another case the guide elements are moved in opposite directions with respect to the yarn path.
FIG. 1 illustrates a partial elevational view of a weaving machine according to the invention, the view being in a section on the line I--I of FIG. 2;
FIG. 2 illustrates a sectional view taken on line IIII of FIG. 1;
FIG. 3 illustrates a view similar to FIG. 1 of a weaving machine using two movable guide elements which move in opposite directions in accordance with the invention
FIG. 4 illustrates a view similar to FIG. 3 with two guide elements movable in the same direction according to the invention
FIG. 5 illustrates a view similar to FIG. 1 of a movable guide element which uses an endless belt construction according to the invention
FIG. 6 illustrates a view ofa detail of the guide roller looking in the direction indicated by an arrow VI in FIG. 2;
FIG. 7 illustrates a longitudinal section on the line VII-VII of FIG. 6.
the weft-side machine-frame upright l mounts a means such as a stirrup 2 which carries a number of weft yarn supply bobbins 4, each mounted in a holder or carrier 3. Only a single bobbin 4 is shown for simplicity.
a bobbin screen 5 is also secured to the member 2. This bobbin screen 5 has a number of eyes for guiding weft yarns 6 running off the bobbins 4.
a plurality of guide elements for guiding a weft yarn 6 are located between each bobbin 4 and a means for forming a shed. These elements include'a yarn brake 6a, controllable from the weaving-machine drive, a stationary element such as a guide roller 7, a guide roller 8 movable transversely to the direct yarn path and another stationary element such as a guide roller 9.
the weft yarn 6 is guided into a nozzle 10, disposed on side upright 1, of a pneumatic picker.
This nozzle 10 is connected to a line 19 for supplying a continuous flow of air. For a predetermined interval of time in each cycle of operations, the air flow is increased. The increased air flow picks a weft into the shed formed by warp yarns as is known.
the guide rollers 7, 9 are each disposed on a shaft of an electric motor 11.
the two motors 11 are disposed on a bracket 12 mounted on upright 1 and are connected to a power supply (not shown).
the movable roller 8 is disposed at one end of a pivotable lever 13 and is in driving engagement with a pulley 14 disposed at the other end of the lever 13.
the lever 13 is secured in a collar 15, or the like, disposed on a carrier 16 pivotably mounted by means of a spindle 17 in a guide tube 18 secured to the upright 1.
a thrust rod 21 Pivoted to one arm of carrier 16 is a thrust rod 21 which is connected to one arm of a roller-fitted lever 23 pivotable around a pivot 22 and cooperating with a double cam 24 disposed on a shaft 25 connected to the machine mainshaft.
the pulley 14 is connected via an endless belt 26 to a pulley 27 which is disposed on a shaft of a stationary electric motor 28 connected to a power supply (not shown).
the lever 13 is formed by a tube 31 having a shaft 32 which projects at both ends of the tube 31.
Each end of the shaft 32 is mounted in two ball bearings 33 which are disposed in the tube 31 and whose distance from one another is determined by a spacer ring 34.
the pulley 14 is disposed on that end of the shaft 32 which is not shown, and the guide roller 8 is secured to the other end of the shaft 32, the latter end being visible in FIG. 7, by means ofa nut 35 which is prevented from rotating by a split pin 36 or cotter or the like.
the guide roller 8 is shaped in the circumferential surface with a groove-like recess 37 adapted to receive the weft yarn 6.
a flange 38 is secured to that end of the tube 31 which is near the guide roller 8.
This flange 38 has two diametrically opposite overhung projections 39, 40 (FIG. 6).
Each projection 39, 40 engages, with a radial clearance less than the thickness of the weft yarn 6,
the other porjection 40 carries a profiled nose 41 which extends, with lateral and radial clearance, into that part of the recess 37 which remains outside the yarn path so that the nose 41 partly fills up the recess 37.
the nose 41 ensures that the sagging piece of yarn is not pulled into this part of the recess 37 and wound around the roller 8.
a sufficient length of yarn for a pick is drawn off a bobbin 4 over end, formed into a loop between the guide rollers 7 and 9, and finally picked into the shed by a stream of compressed air.
the yarn brake 6a is released in the time interval associated with the drawing-off and looping of the weft yarn 6.
the motors 11 drive rollers 7, 9 in the direction indicated by arrows 7a and 9a respectively (FIG. I), and motor 28 drives guide roller 8 continuously, in the direction indicated by an arrow 8a, via belt drive 27, 26, 14.
the lever 13 which carries the roller 8 moves into the chain-dotted position 13' shown in FIG. 2. This draws the yarn 6 off the bobbin 4 and forms the loop of weft yarn.
the stream of air which issues continuously from the nozzle 13 keeps the weft yarn l0 tensioned so that the yarn 10 cannot be pulled back. Consequently, the appropriate length of yarn is drawn off the supply bobbin 4 and stored as a loop for the next pick.
Yarn brake 6a is then applied. In machines in which the amount of yarn stored is insufficient for a complete pick, the yarn brake 6a can stay off during all or some of the time interval associated with the next pick, so that yarn can be pulled off the bobbin directly by the picking means. i
the drive means for the roller 8 and in the example shown the drive for the rollers 7 and 9 is so devised that the speed of rotation of the roller 8 is greater than the maximum likely speed-of the weft yarn 6 running over the roller 8.
the drawing-off power needed for the next pick, and therefore stressing of the weft yarn 6, is so reduced in accordance with the looping angle and the coefficient of friction between the yarn and the roller 8 that, for instance, there is less tension in the piece of yarn leaving the guide roller 8 than in the piece of yarn arriving thereat.
the guide rollers 7, 9 can run slower or possibly be not driven at all or replaced by eyes or the like.
the lever 13 pivots from the position shown into the position 13 visible in FIG. 2. Simultaneously, the flow of compressed air supplied via line 19 is increased so that the weft yarn 6 is picked from the yarn loop, which decreases in size as lever 13 descends into the shed by the air stream issuing from nozzle 10. Upon completion of picking, the weft yarn is, in known manner, beaten up by a reed (not shown) at the selvedge where the cloth begins, and the shed is changed by a shed-forming device 29. The yarn brake 6a is released and the lever 13 pivots back into the solid-line position for the cycle de' scribed to repeat.
the machine shown is devoid of a yarn brake and has two levers 13, 13a, each carrying a guide roller 8.
Each of the two guide rollers 8 has a drive means corresponding to the components 14, 2648, 32 of FIG. 1.
one drive means lo, 21, 23, 24 each is provided to pivot the levers l3, 13a oppositely to one another.
the roller 8 on the lever 13 can move between a solid-line top position and the position 8
the roller 8 on the lever 13a can move between a solid-line bottom position and the chain-dotted position 8".
the bottom roller 8 and the roller 9 are driven in the directions indicated by arrows 8b and 9b, respectively.
the weft yarn 6 passes in one or more convolutions over a delivery roller 7b, over the two faster-running guide rollers 8 and over a guide roller 9 to a grippei' sliuttle 45 which is picked into the shed by a picking mechanism id on upright 1.
the weft yarn 6 is continuously drawn off the supply bobbin 4 by the roller 7b, driven by a motor 11, and formed into two loops by the two moving rollers 8.
the rollers 8 move downwardly and upwardly respectively.
the levers 13, 13a are pivoted, in a new storage step, towards the solid-line positions of FIG. 3.
the construction shown in FIG. 3 is ofuse more particularly for machines having large cloth widths. For example, approximately twice the length of yarn can be stored as compared with the embodiment of FIG. I.
the weaving machine shown has a yarn brake 6a, two stationary guide rollers 7 and two levers 13.
the two levers 13 are parallel to one another and are driven in the same sense.
the guide rollers 8 can pivot between their solid-line positions and their positions 8. With the yarn brake 6a off, the weft yarn is formed into two loops by the two moving guide rollers 8.
the drive means for the rollers 8 and levers 13 are as for the machine of FIG. 1.
the guide roller 8 can alternatively be mounted on a different movable guide element.
the movable guide element is an end less belt 54 which is disposed between the rollers 7 and 9.
This belt 54 runs around two pulleys 52, 53 which are disposed one above another on a vertical carrier 55 secured to the bracket 12.
One pulley 52 is disposed on a shaft on which another pulley 511 is disposed.
This latter pulley 51 is connected via a belt 59 to a pulley 60 which is disposed on a shaft 61 coupled with the machine drive.
the guide roller 8 is mounted in a carrier 56 secured to the belt 54.
a friction wheel 57 is disposed on the shaft of the roller 8 and bears on a flange of a guide bar 58.
the guide bar 58 extends parallel to the carrier 55 so that the flanges thereon serve as guideways for the friction wheel 57.
the wheel 57 is of smaller diameter than the guide roller 8 and when the belt 54 is moving, is rotated and therefore drives the guide roller 8 in the direction indicated by the arrow 8a.
the weft yarn 6 passes via the rollers7-9 to the picking nozzle 10.
the belt 52 is driven as indicated by an arrow 52a.
the guide roller 8 isdescending, i.e., a pick isjust in process of being made.
the roller 57 moves around the axis of the pulley 52, the yarn 6 passes in a straight line between the stationary rollers 7 and 9.
the belt drives 5 59, 6t) and 52-54 are so devised that picking occurs during the descent of roller 8 and weft yarn storage occurs during the ascent of roller 8.
the guide bar 58 can have an interrupted flange. In this case, the guide roller 8 is not driven in the interrupted or discontinuous zone.
the drive of the moving guide element on which a guide roller is disposed can be derived from the machine drive in other than the manner described.
the drive means of a guide roller disposed on a pivoted lever can be connected to the machine drive.
Each of the guide rollers 7, 8 and 9 can be driven at a speed which is equal to or in any case less than the greatest speed of the yarn moving over them, with the result that correspondingly different tensions are produced in the weft yarn.
a device such as an endless chain can be used in a similar construction.
a chain or appropriate belt can extend over a number of deflecting elements, depending upon the movement pattern required in the cycle of operations.
the invention is also of use for weaving machines having picking facilities other than those described.
the invention can be used in weaving machines in which picking is done by a gripper rod or by a water jet.
a weaving machine having first means for forming a shed, second means for mounting a weft yarn supply bobbin outside said shed, and a plurality of guide elementsbetween said shed and said second means for guiding a weft yarn to be picked into said shed, said guide elements including a pair of stationary elements, at least one of said guide elements being movable to vary the yarn path and form a loop of weft yarn between said stationary elements; a guide roller mounted on said movable guide element for passage of the weft yarn thereover and being rotatably mounted about a longitudinal axis and a drive means for rotating said roller about said axis in the direction of movement of the weft yarn to be picked.
a weaving machine as set forth in claim 1 further having a main drive shaft and wherein said drive means is independent of said drive shaft.
a weaving machine as set forth in claim 1 further having a main drive shaft and wherein said drive means is driven off said drive shaft.
a weaving machine as set forth in claim 4 further having a main drive shaft and wherein said drive means includes a cam responsive to rotation of said drive shaft for synchronizing motion of said lever.
a weaving machine having first means for form ing a shed, second means for mounting a weft yarn supply bobbin outside said shed, and a plurality of guide elements between said shed and said second means for guiding a weft yarn to be picked into said shed, at least one of said guide elements being movable to vary the 8.
a weaving machine asset forth in claim 7 which further has a projection mounted within said recess in stationary relation to said roller and outside of said yarn path, said projection being spaced from said roller with a radial and lateral clearance.
a weaving machine having guide elements for guiding a weft yarn to be picked through a predetermined yarn path into a shed; said guide elements including a pair of stationary guide rollers and at least one movable guide roller between said stationary guide rollers to vary the length, of said yarn path to form a loop of yarn between said stationary guide rollers, said guide roller being rotatably mounted about a longitudinal axis and a drive means for rotating said movable guide roller about said axis in the direction of movement of the weft yarn to be picked.

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Engineering & Computer Science (AREA)
Textile Engineering (AREA)
Looms (AREA)
Auxiliary Weaving Apparatuses, Weavers' Tools, And Shuttles (AREA)

US401275A 1972-10-09 1973-09-27 Weaving machine having a variable weft yarn path Expired - Lifetime US3871421A (en)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
CH1474672A CH556929A (de)	1972-10-09	1972-10-09	Webmaschine.

Publications (1)

Publication Number	Publication Date
US3871421A true US3871421A (en)	1975-03-18

Family

ID=4403501

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
US401275A Expired - Lifetime US3871421A (en)	1972-10-09	1973-09-27	Weaving machine having a variable weft yarn path

Country Status (14)

Country	Link
US (1)	US3871421A (it)
JP (1)	JPS4971257A (it)
AT (1)	AT320550B (it)
CH (1)	CH556929A (it)
CS (1)	CS177143B2 (it)
DD (1)	DD106426A5 (it)
DE (1)	DE2250483C2 (it)
FR (1)	FR2202177B1 (it)
GB (1)	GB1443469A (it)
HU (1)	HU169935B (it)
IT (1)	IT995697B (it)
NL (1)	NL7313490A (it)
PL (1)	PL87724B1 (it)
SU (1)	SU513633A3 (it)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US4371009A (en) *	1980-03-28	1983-02-01	Sulzer Brothers Limited	Weft yarn accumulator
US4454997A (en) *	1982-03-04	1984-06-19	Leesona Corporation	Inlet guide means for strand user devices
US4619462A (en) *	1984-06-07	1986-10-28	Shaffer Don T	Cycle apparatus having therapeutic and utility aspects
US4850398A (en) *	1985-12-13	1989-07-25	Picanol N. V.	Device for supplying a weft thread to a main blower of an air jet weaving loom
US20060231117A1 (en) *	2002-03-27	2006-10-19	Manougian Katherine J	Protective shields for standard cosmetic containers
ITUB20155496A1 (it) *	2015-11-11	2017-05-11	Pezzoli Miria	Sistema controllato di alimentazione di filo di trama in un telaio
WO2017081711A1 (en) *	2015-11-11	2017-05-18	P.T.M.T. S.R.L	Controlled system for supplying weft yarn in a loom

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
FR2443412A1 (fr) *	1978-12-07	1980-07-04	Fabrications Et	Procede et installation pour faciliter la mise sur bobines d'un produit filiforme provenant d'une source continue d'alimentation
GB2131055A (en) *	1982-11-27	1984-06-13	Bonas Machine Co	Weft yarn metering apparatus
JPH02264045A (ja) *	1989-04-04	1990-10-26	Teijin Seiki Co Ltd	糸の供給方法およびその装置
DE10361244A1 (de) *	2003-12-22	2005-07-21	Picanol N.V.	Vorrichtung zum Aufnehmen eines Abschnittes eines Schussfadens
EP3481981B1 (en) *	2016-07-11	2021-02-24	Vandewiele Sweden AB	Zero-twist yarn feeding device

Citations (6)

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Publication number	Priority date	Publication date	Assignee	Title
US1750385A (en) *	1927-07-13	1930-03-11	Draper Corp	Loom
US1964079A (en) *	1931-02-06	1934-06-26	Celanese Corp	Loom in which weft is fed from a stationary supply
US3460584A (en) *	1968-01-15	1969-08-12	Crompton & Knowles Corp	Weft feeding mechanism
US3561499A (en) *	1968-02-16	1971-02-09	Fischer Ltd Georg	Weft storage motion and measuring device for weaving machines
US3575217A (en) *	1968-03-21	1971-04-20	Sulzer Ag	Device for storing weft material in weaving machines
US3693668A (en) *	1969-10-08	1972-09-26	Elitex Zavody Textilniho	Pneumatic weft delivery means for shuttleless looms

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FR1417754A (fr) *	1964-12-17	1965-11-12	Sulzer Ag	Métier à tisser mécanique à navette à griffe, avec dispositif d'accumulation dufil de trame
FR1510153A (fr) *	1966-12-02	1968-01-19		Perfectionnements aux métiers à tisser sans navette pour la réalisation de tissusà trame en forme de ruban
NL172769C (nl) *	1970-11-20	1983-10-17	Scheffel Walter	Inslagdraad-toevoerinrichting voor een schietspoelloos weefgetouw.

1972
- 1972-10-09 CH CH1474672A patent/CH556929A/xx not_active IP Right Cessation
- 1972-10-14 DE DE2250483A patent/DE2250483C2/de not_active Expired
- 1972-10-17 AT AT888272A patent/AT320550B/de not_active IP Right Cessation
1973
- 1973-09-04 HU HUSU838A patent/HU169935B/hu unknown
- 1973-09-05 DD DD173298A patent/DD106426A5/xx unknown
- 1973-09-27 US US401275A patent/US3871421A/en not_active Expired - Lifetime
- 1973-10-01 NL NL7313490A patent/NL7313490A/xx not_active Application Discontinuation
- 1973-10-01 CS CS6762A patent/CS177143B2/cs unknown
- 1973-10-02 SU SU1966910A patent/SU513633A3/ru active
- 1973-10-04 JP JP48111883A patent/JPS4971257A/ja active Pending
- 1973-10-06 PL PL1973165680A patent/PL87724B1/pl unknown
- 1973-10-08 GB GB4682073A patent/GB1443469A/en not_active Expired
- 1973-10-08 FR FR7335852A patent/FR2202177B1/fr not_active Expired
- 1973-10-09 IT IT29893/73A patent/IT995697B/it active

Patent Citations (6)

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Publication number	Priority date	Publication date	Assignee	Title
US1750385A (en) *	1927-07-13	1930-03-11	Draper Corp	Loom
US1964079A (en) *	1931-02-06	1934-06-26	Celanese Corp	Loom in which weft is fed from a stationary supply
US3460584A (en) *	1968-01-15	1969-08-12	Crompton & Knowles Corp	Weft feeding mechanism
US3561499A (en) *	1968-02-16	1971-02-09	Fischer Ltd Georg	Weft storage motion and measuring device for weaving machines
US3575217A (en) *	1968-03-21	1971-04-20	Sulzer Ag	Device for storing weft material in weaving machines
US3693668A (en) *	1969-10-08	1972-09-26	Elitex Zavody Textilniho	Pneumatic weft delivery means for shuttleless looms

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US4371009A (en) *	1980-03-28	1983-02-01	Sulzer Brothers Limited	Weft yarn accumulator
US4454997A (en) *	1982-03-04	1984-06-19	Leesona Corporation	Inlet guide means for strand user devices
US4619462A (en) *	1984-06-07	1986-10-28	Shaffer Don T	Cycle apparatus having therapeutic and utility aspects
US4850398A (en) *	1985-12-13	1989-07-25	Picanol N. V.	Device for supplying a weft thread to a main blower of an air jet weaving loom
US20060231117A1 (en) *	2002-03-27	2006-10-19	Manougian Katherine J	Protective shields for standard cosmetic containers
ITUB20155496A1 (it) *	2015-11-11	2017-05-11	Pezzoli Miria	Sistema controllato di alimentazione di filo di trama in un telaio
WO2017081711A1 (en) *	2015-11-11	2017-05-18	P.T.M.T. S.R.L	Controlled system for supplying weft yarn in a loom
CN108290699A (zh) *	2015-11-11	2018-07-17	P.T.M.T.有限责任公司	用于在织机中供应纬纱的受控系统
CN108290699B (zh) *	2015-11-11	2019-10-11	P.T.M.T.有限责任公司	用于在织机中供应纬纱的受控系统

Also Published As

Publication number	Publication date
DE2250483A1 (it)	1974-02-07
FR2202177B1 (it)	1977-03-11
GB1443469A (en)	1976-07-21
IT995697B (it)	1975-11-20
HU169935B (it)	1977-02-28
AT320550B (de)	1975-02-10
FR2202177A1 (it)	1974-05-03
DE2250483C2 (de)	1974-09-05
SU513633A3 (ru)	1976-05-05
JPS4971257A (it)	1974-07-10
CH556929A (de)	1974-12-13
DE2250483B1 (de)	1974-02-07
CS177143B2 (it)	1977-07-29
DD106426A5 (it)	1974-06-12
NL7313490A (it)	1974-04-11
PL87724B1 (it)	1976-07-31

Publication	Publication Date	Title
US3871421A (en)	1975-03-18	Weaving machine having a variable weft yarn path
US3411548A (en)	1968-11-19	Weft thread supply apparatus for gripper shuttle looms
US3971522A (en)	1976-07-27	Apparatus for storage of filamentary material
US3131729A (en)	1964-05-05	Weft thread supply system for looms for weaving
US3822833A (en)	1974-07-09	Thread supply device for textile machines
US2902058A (en)	1959-09-01	Looms
US3693668A (en)	1972-09-26	Pneumatic weft delivery means for shuttleless looms
US3693904A (en)	1972-09-26	Weft bobbin stand
US3276484A (en)	1966-10-04	Gripper shuttle type looms
US3724508A (en)	1973-04-03	Method of and apparatus for filling the shuttles with weft on progressive shed weaving looms
US2710631A (en)	1955-06-14	Selvage thread feeding means for looms
US4134435A (en)	1979-01-16	Weft storage means for fluid jet loom
JPH0447053B2 (it)	1992-07-31
US3411547A (en)	1968-11-19	Weft thread supply apparatus for looms
US4557299A (en)	1985-12-10	Method of and apparatus for selectively releasing a predetermined length of weft thread in shuttleless looms
US3734143A (en)	1973-05-22	Measuring and length determining means for weft yarn in shuttleless looms
US3709262A (en)	1973-01-09	Circular weaving machine
US3124164A (en)	1964-03-10	Shuttle and heddle drive mechanism for
US4298033A (en)	1981-11-03	Weft tensioning device
US3460584A (en)	1969-08-12	Weft feeding mechanism
US3561499A (en)	1971-02-09	Weft storage motion and measuring device for weaving machines
US3989069A (en)	1976-11-02	Method of and apparatus for compensating for weft tension in traveling-wave shedding looms
US4114658A (en)	1978-09-19	Mechanism for compensating the length of a weft thread for a loom
US4623005A (en)	1986-11-18	Method of and apparatus for controlling weft threads in a shuttleless loom
US2789583A (en)	1957-04-23	Weaving looms