EP3567144A1 - Schussfadenführer für webmaschinen mit einstellbarem trommeldurchmesser - Google Patents

Schussfadenführer für webmaschinen mit einstellbarem trommeldurchmesser Download PDF

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Publication number
EP3567144A1
EP3567144A1 EP19168900.9A EP19168900A EP3567144A1 EP 3567144 A1 EP3567144 A1 EP 3567144A1 EP 19168900 A EP19168900 A EP 19168900A EP 3567144 A1 EP3567144 A1 EP 3567144A1
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EP
European Patent Office
Prior art keywords
weft
sectors
feeder
fixed
joint
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP19168900.9A
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English (en)
French (fr)
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EP3567144B1 (de
Inventor
Matteo Fazzari
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Roj Srl
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Roj Srl
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Publication date
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Publication of EP3567144A1 publication Critical patent/EP3567144A1/de
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Publication of EP3567144B1 publication Critical patent/EP3567144B1/de
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    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D47/00Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms
    • D03D47/34Handling the weft between bulk storage and weft-inserting means
    • D03D47/36Measuring and cutting the weft
    • D03D47/361Drum-type weft feeding devices
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D47/00Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms
    • D03D47/34Handling the weft between bulk storage and weft-inserting means
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D47/00Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms
    • D03D47/34Handling the weft between bulk storage and weft-inserting means
    • D03D47/36Measuring and cutting the weft
    • D03D47/361Drum-type weft feeding devices
    • D03D47/362Drum-type weft feeding devices with yarn retaining devices, e.g. stopping pins

Definitions

  • the present invention relates to a weft-feeder with yarn coil separation for weaving machines having a fully servo-controlled adjustable-diameter drum, i.e. a drum which is remotely operable to adjust its diameter.
  • the weft-feeder according to the present invention comprises a first servo control which simultaneously unlock the fixed sectors which form the drum and the moving sectors which form the yarn coil separation device, thus enabling the radial position adjustment thereof.
  • a second servo control carries out said position adjustment until the desired new diameter of the weft-feeder drum is achieved.
  • said fixed and moving sectors are again locked in the desired adjustment position by means of said first servo control, which is now operated in an opposite direction with respect to the unlocking direction.
  • the weft-feeders are devices for feeding the weft yarn, interposed between the loom and the yarn spools that supply the yarn to the loom, which accumulate continuously and at a low speed the weft yarn in successive coils on a cylindrical drum, so as to create a supply of weft yarn that can be quickly drawn, by extraction in an axial direction, during weft yarn insertion, without causing tension peaks in the weft yarn which are dangerous both for the integrity of the yarn itself and for the quality of the fabric.
  • the weft-feeders are devices by now used since many years in weaving, particularly in high-speed looms in which direct feeding from the spool has in fact never been technically possible.
  • the weft-feeders have been enriched with additional control functions that enable to verify the constant presence of the yarn at the critical points of the weft-feeder, to adjust the quantity of yarn accumulated on the drum and the distance between the individual yarn coils, to brake the output yarn in order to contain the dynamic effects caused by the sudden drawing acceleration, to measure the length of the yarn section drawn by the insertion devices, and finally to stop drawing of the yarn as soon as a predetermined length has been provided.
  • the amount of weft yarn accumulated as a supply obviously depends on the diameter of the weft-feeders drum, on which this supply is wound, and on the number of coils that can be housed simultaneously on said drum.
  • the possibility of modifying the diameter of the drum was also provided, which drum, as is well known, comprises several sectors, usually four, each being independently fixed to the weft-feeder body. In drums with adjustable diameter, said sectors are attached to the weft-feeder body in an adjustable radial position and then tightened to the desired position by means of locking screws.
  • WO2015/169612 discloses a non-reversible type gear system, operated by a servo control which simultaneously changes the radial position of three adjustable sectors of the weft-feeder, and then also maintain said sectors locked in the desired position without using locking screws, thanks to the non-reversibility of the gear system, while the fourth sector is fixed.
  • this fixed sector the presence of the weft yarn is in fact optically detected and therefore, for a greater structural simplicity of the device, it was proposed to maintain this sector at a fixed distance from the arm of the weft-feeder, parallel thereto, where the optical sensors for detecting the weft yarn are positioned.
  • weft-feeder equipped with a device to space of a predetermined distance the individual yarn coils, commonly known as weft-feeders with yarn coil separation, a corresponding number of moving sectors is provided and is mounted on a stationary flange.
  • Such stationary flange is in turn supported, through a ball bearing, by the external surface of a bush fitted on an eccentric portion of the weft-feeder shaft.
  • said bush is also provided with an outer cylindrical surface inclined with respect to the drum surface. Due to this arrangement, during rotation of the weft-feeder shaft, the slanted bush rotates integrally with said shaft and with the inner race of the bearing, so as to cause a combined periodic oscillation of the bearing itself and therefore of the stationary flange integral with the bearing outer race.
  • the oscillation of the stationary flange is transmitted to said moving sectors and in particular to their driving fingers which thus cyclically come out from the fixed sectors of the drum, with a complex movement consisting of the combination of an alternating displacement in the radial direction, determined by the eccentricity of the portion of shaft Ae, and of a tilting movement, determined by the rotation of the slanted bush.
  • This complex movement of the driving fingers of the moving sectors thus causes the progressive displacement of the yarn coils, wound on the drum at a constant pitch, in the direction of the yarn exit area from the drum.
  • the operation for changing the diameter of the drum therefore not only involves the unlocking/locking of the fixed sectors of the drum, but also a similar unlocking/locking operation of the moving sectors mounted on the eccentric and slanted bush, which moving sectors obviously must be repositioned according to the new radial position taken by the fixed sectors forming the drum. It is therefore quite a time-consuming operation, which requires the direct intervention of a specialized operator on the weft-feeder, to loosen the locking screws of the 4 fixed sectors and of the 4 moving sectors, to move accordingly these sectors to the new desired radial position and finally, to re-tighten all the aforementioned locking screws.
  • the inventors of the present application have addressed the problem from another point of view, deeming on the one hand that locking sectors against a fixed support is mandatory for having a device whose adjusted position remains perfectly stable over time and, on the other hand, that the longest and most critical phase of the drum diameter adjustment operation is the phase for unlocking/locking the fixed sectors and the moving sectors, while the adjustment of the radial position of these sectors, per se, is quite a simpler operation and furthermore easy to be automated through ordinary gear systems, as long as these last are not entrusted also with the task of locking the sectors.
  • the problem underlying the present invention is therefore providing weft-feeder with yarn coil separation for weaving machines, wherein it is possible to provide, automatically and remotely, unlocking/locking the fixed sectors of the weft yarn winding drum and, at the same time, the moving sectors of the yarn coil separation device, by means of a first servo control, thus enabling a second servo control to adjust the position of the fixed sectors and of the moving sectors.
  • a first main object of the present invention is to provide a mechanical solution which enables said first servo control, consisting of, e.g., one or more electric motors, to simultaneously unlock/lock both the fixed sectors forming the winding drum and the moving sectors of the yarn coil separation device, independently of the angular position in which the weft-feeder is positioned when unlocking/locking is carried out and, preferably, also independently of moving or stationary state thereof.
  • said first servo control consisting of, e.g., one or more electric motors
  • a second object of the present invention is then to provide a second servo control allowing the simultaneous adjustment of the radial position of the weft-feeder fixed sectors and moving sectors, in order to reduce bulk within the weft-feeder, to shorten the adjustment times, and finally to maintain the mutual position of the fixed sectors and the moving sectors at an optimal constant distance during adjustment.
  • a group of parts is integral with the fixed sectors B and another group of parts is integral with the moving sectors C.
  • the fixed sectors B are mounted on the weft-feeder so that the drum formed by the same is coaxial to axis a of the rotation shaft A of the weft-feeder.
  • the moving sectors C are instead mounted on an eccentric end portion Ae of such shaft, having axis a e and eccentricity e ( Fig. 1 ) with respect to the axis a , through ( Fig.
  • a bush G keyed on the eccentric portion Ae of the shaft A, whose cylindrical outer surface has its axis slanted by an angle ⁇ with respect to the axis of the drive shaft A; a bearing H whose inner race is integral with the bush G and rotating with the same; and, finally, a stationary flange L, integral with the outer race of the bearing H, to which said moving sectors C are connected, in a radially adjustable position.
  • eccentricity e of the shaft Ae and angle ⁇ of the outer cylindrical surface of the bush G causes the complex movement of the driving fingers D integral with the moving sectors C, which driving fingers D alternately protrude from the fixed sectors B in a tilting manner and thus let the weft coils to advance at a constant pitch on the outer surface of the winding drum.
  • the angle ⁇ it is adjustable in order to obtain a greater or lesser pitch in the separation of the coils on the winding drum.
  • the value of eccentricity e it is traditionally equal to 0.75 mm, while the value of the angle ⁇ is normally comprised in the range between 1.0° and 2.5°.
  • a kinematic system which mechanically connects the locking means of the fixed sectors B and the locking means of the moving sectors C, while enabling the moving sectors C to perform their own eccentric and tilting movement freely.
  • a single servo control which can, for example, consist of one or more electric motors.
  • the aforesaid servo control consists of several electric motors, which obviously operate in an identical and perfectly simultaneously manner, to allow a symmetrical and balanced locking/unlocking action despite the fact that said motors, for obvious space requirements, cannot be arranged along the central symmetry axis a of the weft-feeder, but laterally to the same.
  • the first servo control for locking/unlocking the fixed sectors B and the moving sectors C consists of two electric motors 1 symmetrically arranged at the two sides of the shaft A.
  • the entire sequence of diameter adjustment of the weft-feeder drum can therefore now be managed automatically by initially operating the first servo control in the unlocking direction to free the fixed sectors B and the moving sectors C from the respective locking means, then actuating a second servo control for adjusting the diameter of the drum until obtaining the predetermined value of such diameter, and finally actuating the first servo control in the locking direction to re-tighten all the fixed and moving sectors B and C against the respective fixed supports.
  • Fig. 1 the geometry of the kinematic system of the present invention, which achieves the reciprocal mechanical connection of the locking means of the fixed sectors B to the locking means of the moving sectors C, is illustrated.
  • Said slanted bush G has an internal axial hole keyed on the eccentric portion Ae of the drive shaft A, of axis a e , while it has an external cylindrical surface whose axis g forms an angle ⁇ with said axis a e .
  • the intersection point of these two axes is defined as the focus F of the bush.
  • Said focus F according to a largely accepted choice, must be arranged around the centreline of the winding drum; this position in fact, on the basis of previous experiences, has proved to be favourable to the correct advancement of the weft yarn along the full length of the weft-feeder drum.
  • the geometrical diagram indicated above graphically represents the kinematic system of the present invention, according to which, in fact, at points S and R a first and a second permanent mechanical connections are provided between the locking means of the fixed sectors B, parallel to the axis a - in the above diagram represented by point R - and the locking means of the moving sectors C, parallel to the axis g - in the above diagram represented by focus F of the bush G.
  • the mechanical connection at common point S therefore consist of a first angular joint 2, comprising an external half-joint 2b connected - through a joint at point R - to the locking means 5 of the fixed sectors B, and an internal half-joint 2c connected to the locking means of the moving sectors C.
  • the mechanical connection at point R consists of a second angular joint 3, comprising an external fixed half-joint 3b, integral with the locking means 5 of the fixed sectors B, and an internal half-joint 3c angularly moving (but axially rigid) which is connected to the half-joint 2b of the first angular joint 2, by means of rigid arms 4.
  • the position of the locking means 5 can be remotely controlled by the locking/unlocking motors 1, whose threaded drive rods 1a are to this purpose coupled with the locking means 5 by means of a screw/female screw coupling.
  • a Rzeppa-type joint is instead a preferred joint for both the first angular joint 2 and the second angular joint 3; as a matter of fact, although its structure is more complex than a cardan joint, a Rzeppa joint is more effective in providing both axial rigidity and torsional rigidity constraints, as stresses are distributed over a wider surface, such as the contact surface between the ball retainer and the half-joints.
  • the Rzeppa joint is a homokinetic joint, there is also the further advantage that the two half-joints of each joint always rotate at the same speed and therefore the operation of the weft-feeder is more regular.
  • the angular joint 2 at point S is however less critical. So, when cost and complexity of the weft-feeder device must be controlled, it is also possible to adopt in this position a normal spherical joint (as shown in the drawings), to which at least a partial torsional rigidity is imparted by connecting the external half-joint and the internal half-joint - preferably at both sides of the spherical joint - by elastic means apt to prevent mutual rotating movements between these two elements, while still allowing, as requested, continuous angular movements between the same.
  • Such elastic means can, for example, preferably consist of toothed rubber flanges (not shown in the drawings for simplicity); the teeth of these toothed flanges project laterally from the flange plane and engage with suitable seats provided on the internal and external half-joints of the spherical joint, so as to follow the tilting movement of the spherical joint, while opposing to relative rotating movements between said two half-joints, if not to the minimum extent determined by the resilience of the rubber material from which said toothed flanges are made.
  • Experimental trial runs clearly showed that such a solution allows interesting savings in construction costs, while preventing any lability in the kinematic system for connecting the locking means of the fixed sectors B with the locking means of the moving sectors C.
  • the locking/unlocking electric motors 1 are rotated in such a direction as to move away from electric motors 1 the half-joint 3b and the locking means 5 integral therewith, thus unlocking the fixed sectors B.
  • the linear displacement of the half-joint 3b thus obtained , is integrally transmitted to the half-joint 3c and then to the arms 4, the half-joint 2b, the half-joint 2c, the hub 2m of the joint 2 and finally to the bell M integral to said hub 2m.
  • the locking means of the moving sectors C are just formed by the bell M, and more precisely by its outer annular flange which is so moved away from its respective fixed support formed by the wheel 7(described in greater detail below), axially constrained to the flange L.
  • the fixed sectors B and the moving sectors C are thus simultaneously unlocked, so enabling the adjustment of the weft-feeder drum diameter consisting of the fixed sectors B.
  • the drum diameter adjustment of the weft-feeder is then preferably performed by means of the adjustment device of the invention which will be briefly described below, which device is provided with the special feature of performing the simultaneous adjustment of the positions of the fixed sectors B and of the moving sectors C by means of a single servo control.
  • Said adjustment device comprises a first wheel 6 and a second wheel 7, having their centre of rotation respectively on the axis a and on the axis a e , the rotation of which causes the radial displacement respectively of the fixed sectors B and of the moving sectors C to which said wheels are mechanically coupled.
  • the radial displacement of the fixed sectors B and of the moving sectors C is obtained, in a manner known per se, due to the cooperation between a series of spiral grooves formed on one face of said wheels 6 and 7 and corresponding ribs present on radial supports of the fixed sectors B and of the moving sectors C.
  • the wheel 6 lies in a stationary plane, resting on the weft-feeder body, while the wheel 7 lies in a tilting plane, resting on the flange L and constrained to the same in the axial direction; the two wheels 6 and 7 are therefore not parallel and their mutual orientation is continuously variable.
  • the simultaneous adjustment of the radial position of the fixed sectors B and of the moving sectors C is obtained thanks to a second servo control acting solely on the wheel 6 driving the fixed sectors B.
  • This second servo control consists of an electric motor, equipped with a drive pinion which is meshed with a toothed gear 8 ( Fig. 3 ) formed on an inner circular surface of the wheel 6, to rotate said wheel in both directions.
  • Said electric motor is arranged at a position similar to the position of the electric motors 1, although obviously in a different diametrical plane of the weft-feeder, and is therefore not shown in the drawings.
  • the wheel 6 and the wheel 7 are mutually connected, at peripheral portions thereof, by an annular sleeve 9 shaped as a flexible bellows, the outer edges of which are glued or otherwise permanently attached to said wheels 6 and 7 respectively.
  • the annular sleeve 9 is formed from a plastic material which is sufficiently elastic in an axial direction to easily follow the continuous variations in reciprocal orientation of the wheels 6 and 7, but sufficiently rigid in a circumferential direction to identically transfer the rotary adjustment movement imparted to the wheel 6 by the second servo control also to the wheel 7, except for some slight delay due to a possible initial deformation of the annular sleeve 9.
  • the two wheels 6 and 7 substantially behave as if they were integrally rotating. In this way it is then possible to obtain the simultaneous adjustment of the radial position of both the fixed sectors B, controlled by rotation of the wheel 6, and the moving sectors C, controlled by rotation of the wheel 7.
  • the electric motors 1 of the first servo control are operated in the opposite direction with respect to the unlocking direction, i.e. by bringing the locking means 5 nearer to the electric motors 1, to tighten the fixed sectors B against a respective fixed support, along a direction parallel to the weft-feeder drive shaft A.
  • the first angular joint 2 is also pulled in a substantially identical direction - except for any small and fully automatic variation of the angle ⁇ (the angle ⁇ being instead unchanged because it is a geometric parameter deriving from the same structure of the bush) -, so forcing the locking means of the moving sectors C, consisting of the bell M integral with the half-joint 2c, to move too, thus tightening the moving sectors C, along the slanted direction SF, against the respective fixed support. It will then be a good mechanical standard to avoid two simultaneous contacts against two different fixed supports, by providing only one direct contact in relation to the moving sectors C and instead a contact through a compensation spring in relation to the fixed sectors B.
  • the weft-feeder with adjustable-diameter drum of the present invention is completed by a third servo control which adjusts the position of an electromagnetically driven weft yarn stopping device 10 ( Figs. 5, 6 ).
  • the weft yarn stopping device 10 is mounted opposite to one of the fixed sectors B and comprises a moving pin 11 which, by inserting itself in a corresponding hole of said fixed sector B under the action of a spring 12, prevents exit of the weft yarn coils from the weft-feeder drum until it is brought into a retracted position by the action of said electromagnetic drive.
  • this device it is therefore essential to adjust precisely, at a predefined value, the distance between the tip of the moving pin 11 in the retracted position and the outer wall of the opposite fixed sensor B.
  • the weft yarn stopping device 10 is mounted on a sledge support 13, in a mutually integral manner.
  • the sledge support 13 is provided with slanting lateral walls which cooperate with a pair of opposed wedge-shaped sliding block 14 having inclined vertical walls matching with the side walls of the sledge 13; each one of the wedge-shaped sliding block 14 is preloaded by a respective spring 15, with an elastic force sufficient to keep steady the sledge support 13, and then the electromagnetic weft yarn stopping device 10 integral thereto, in a stable position during the normal operation of the weft-feeder.
  • a single third servo control then drives said sledge support13 by means of a worm screw 16 and a screw/female screw coupling, in a manner well known per se, for moving the electromagnetic weft yarn stopping device 10, integral with the sledge 13, in a desired position, overcoming the friction force developed on the sledge support 13 by the wedge-shaped sliding blocks 14 preloaded by the springs 15.
  • the device for adjusting the diameter of the weft-feeder drum can perform the automatic adjustment of the diameter not only in any position of the weft-feeder but also while this position is actually changing, i.e. while the weft-feeder is in operation.
  • the kinematic system described above which mechanically connects the locking means of the fixed sectors B and of the moving sectors C, is in fact continuously operative and can therefore allow the unlocking-adjustment-locking operations even while the weft-feeder shaft A is rotating.
  • This important and novel feature opens the way to a fine adjustment of the weft-feeder drum diameter, according to the effective length of the inserted weft.
  • the variation in the drum diameter can only be negative, since any positive diameter variation would be prevented by the weft yarn coils wound on the drum. Therefore, a first adjustment is performed as described above at a predefined value of the diameter of the drum, the weft feeder being steady, so that a length of the weft yarn slightly in excess of the desired one is obtained.
  • the locking means of the fixed sectors B and of the moving sectors C are only partially tightened, to an extent sufficient to keep all the parts in their correct position but still allowing a fine adjustment of the drum diameter with a negative variation.
  • the weft-feeder and the related loom are started, and the subsequent fine adjustment is performed by checking the effective length of the inserted weft, until a length perfectly matching the one desired by the weaver is obtained.
  • the locking means of the fixed sectors B and of the moving sectors C are definitively tightened by means of the first servo control.
  • the present invention has fully obtained all the desired objects.
  • the device according to the present invention makes it possible to obtain a completely automatic adjustment of the weft-feeder drum diameter, also in weft-feeders with yarn coil separation, by means of a single first servo control for locking/unlocking the drum and a second single servo control for adjusting the drum diameter, thanks to the fact that both servo controls act simultaneously on both the fixed sectors B and the moving sectors C of the weft-feeder.
  • the automatic adjustment of the drum diameter is finally completed by a single third servo control which provides for the simultaneous adjustment of the position of the electromagnetic weft yarn stopping device, to maintain the optimal design distance between said weft yarn stopping device and the opposite fixed sector B.
  • the fine adjustment of the weft-feeder drum diameter, with a negative variation, can also be performed while the weft-feeder is in operation on a textile machine, thus opening the possibility of immediately checking the actual effect on the machine of said negative variation of the weft-feeder drum diameter.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Looms (AREA)
  • Treatment Of Fiber Materials (AREA)
EP19168900.9A 2018-05-09 2019-04-12 Schussfadenführer für webmaschinen mit einstellbarem trommeldurchmesser Active EP3567144B1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
IT102018000005191A IT201800005191A1 (it) 2018-05-09 2018-05-09 Porgitrama per macchine tessili con tamburo a diametro regolabile

Publications (2)

Publication Number Publication Date
EP3567144A1 true EP3567144A1 (de) 2019-11-13
EP3567144B1 EP3567144B1 (de) 2021-03-31

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EP19168900.9A Active EP3567144B1 (de) 2018-05-09 2019-04-12 Schussfadenführer für webmaschinen mit einstellbarem trommeldurchmesser

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EP (1) EP3567144B1 (de)
JP (1) JP7029425B2 (de)
CN (1) CN110468486B (de)
IT (1) IT201800005191A1 (de)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5671783A (en) * 1994-03-07 1997-09-30 L.G.L. Electronics S.P.A. Weft feeder with turn separator including multiple diameter swift
EP1354836A1 (de) * 2002-04-17 2003-10-22 Te Strake Textile B.V. Verfahren zum Regeln des Durchmessers der Wickeltrommel einer Vorabwickelanlage und solche Vorabwickelanlage
WO2015169612A1 (en) 2014-05-09 2015-11-12 Picanol Weft feeder device

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP3366243B2 (ja) * 1998-01-16 2003-01-14 津田駒工業株式会社 緯糸測長貯留装置におけるドラム径の設定装置
JP4513239B2 (ja) * 2001-07-10 2010-07-28 株式会社豊田自動織機 織機における緯糸測長貯留装置の測長貯留量調整装置

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5671783A (en) * 1994-03-07 1997-09-30 L.G.L. Electronics S.P.A. Weft feeder with turn separator including multiple diameter swift
EP1354836A1 (de) * 2002-04-17 2003-10-22 Te Strake Textile B.V. Verfahren zum Regeln des Durchmessers der Wickeltrommel einer Vorabwickelanlage und solche Vorabwickelanlage
WO2015169612A1 (en) 2014-05-09 2015-11-12 Picanol Weft feeder device

Also Published As

Publication number Publication date
CN110468486B (zh) 2022-07-12
EP3567144B1 (de) 2021-03-31
IT201800005191A1 (it) 2019-11-09
JP7029425B2 (ja) 2022-03-03
CN110468486A (zh) 2019-11-19
JP2019196579A (ja) 2019-11-14

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