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US3724508A - Method of and apparatus for filling the shuttles with weft on progressive shed weaving looms - Google Patents

Method of and apparatus for filling the shuttles with weft on progressive shed weaving looms Download PDF

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Publication number
US3724508A
US3724508A US00137338A US3724508DA US3724508A US 3724508 A US3724508 A US 3724508A US 00137338 A US00137338 A US 00137338A US 3724508D A US3724508D A US 3724508DA US 3724508 A US3724508 A US 3724508A
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United States
Prior art keywords
weft
shuttle
shuttles
supply
pincers
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US00137338A
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English (en)
Inventor
F Jekl
V Mateju
J Pech
K Hrdina
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Vyzkumny Ustav Bavlnarsky AS
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Vyzkumny Ustav Bavlnarsky AS
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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
    • D03D47/12Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms wherein single picks of weft thread are inserted, i.e. with shedding between each pick
    • D03D47/26Travelling-wave-shed looms
    • D03D47/261Preparation of weft

Definitions

  • the present invention relates to a method of filling shuttles on progressive shed weaving looms with weft, and to devices for performing the same.
  • Weaving looms performing a continuous weaving process taking place simultaneously at a plurality of spots along the weaving width are characterized by a high number of picked wefts which have usually been measured to a length somewhat exceeding the width of warp pass to the reed.
  • the prerequisite is to pick some thousand wefts a minute, and in them considerably greater widths can be envisaged than the maximum width of contemporary single shed weaving looms. Consequently, the method of obtaining a high number of lengths measured in a given time unit, of transferring these wefts into a shuttle, and of inserting them into the warp under constant tension presents a serious problem.
  • One of the existing devices fills the shuttles of a weaving loom with weft consecutively, that is, one after the other.
  • the supply of weft is prepared in one single stationary place in the form of loops lying one next to the other which are formed by a flyer rotating on a flat mandrel.
  • the mandrel under the rotating flyer is bevelled or'tapered so that the loops can slide themselves to the straight part of the mandrel along which a rack feeding device shifts a certain number of loops, corresponding with the length of the weft, to the end of the mandrel.
  • the weft prepared in such a way is taken over by the shuttles which are slipped on the mandrel within the intervals of the progressing shed, wiping by their resilient inner walls the separated charge of loops, that is, the picks, during their motion towards the shed.
  • the weft has the same form inside the shuttle as that in which it has been prepared, i.e., it is deposited in the cavity of the shuttle in the form of coils.
  • a disadvantage of this method resides in the limited amount of measured cut weft in length per minute, and in the complicated handling of shuttles caused by interrupting their continuous flow in the metering station. Moreover, the loose arrangement of weft in the form of coils within the cavity of the shuttle requires more careful handling of the shuttle, while causing a certain danger of irregular unwinding of the weft from the shuttle.
  • Another known device with measured out weft loosely deposited in the shuttle uses a plurality of metering stations working simultaneously.
  • the device feeds the metered out weft into the shuttle by means of air pressure, said weft being deposited in the shuttle in the form of loops created at random.
  • a drawback of this device consists in the disarranged form of that is partially or totally taken out of the shuttle during the winding operation.
  • the central core is handled by a device of considerable complexity, which is a handicap.
  • the arrangement of weft on a central core from which it is withdrawn during picking is disadvantageous because of the irregularity of such process, particularly owing to the last coils being slipped off all at one time and being thus woven with uneven tension.
  • Another device is known in which the empty bobbins.
  • a further known device has shuttles which are simultaneously supplied with weft at a number of places. ln such devices, the weft is wound on a bobbin which is transferred from a rotary belt to the metering device in which every bobbin takes up weft in the required length by reason of its own rotation. When the pick has been wound, the bobbin is transferred back to the rotary belt and serves as a shuttle in the weaving process as well; this is undesirable, since a bobbin is unable to fulfill some technological requirements, such as separating sticking threads or doing away with misplaced threads interlaced with warp.
  • a further disadvantage lies in irdeposited weft that does not permit its regular unwinding during the picking movement. Another drawback will be seen in the effect of pressure air upon the weft. lt affects the weft at least twice, fraying out its ends that must be cut away.
  • a device e.g., wherein the measured out weft is deposited in the shape of coils on a central core regular unwinding of weft from the bobbin, particularly at the end of the picks when the last coils are on the bobbin.
  • a major disadvantage resides in the fact that the end of the weft is not position-controlled while being fed by air pressure to the circumference of the bobbin before the winding starts.
  • Winding units arranged on a turret characterize a further known device which winds weft on a rotating bobbin.
  • the device takes over the shuttles from a motion screw sand thrusts them into the respective recesses of the supplying turret where they are gripped and fixed by pairs of holding members, while the weft is fed to them by reciprocatingshiftable needles.
  • the disadvantages of such device include a complex shuttle handling, i.e., their transferring from a rotary equipment onto a special supplying turret.
  • a common disadvantage and lack of the abovedescribed devices consists in the fact that the speed of metering depends upon the speed of weft picking. Consequently, the precision of the measured length of weft will be different under normal working conditions and different under conditions of switching on or of stopping the loom. Moreover, when the loom has been stopped, none of the described devices allows the shuttle to be filled with a correctly measured out length of weft by that supply unit which was to fill the shuttle yet did not do so for some reason before the machine stoppage.
  • the present invention has among its objects the elimination of the above disadvantages and drawbacks of the known solutions, to carry out the weft metering with more precision, to allow the shuttles to be supplied with weft irrespectively of the speed of the weaving loom, to make it easier to exchange a metering unit in case of defect, to allow repeated metering to be carried out by the operator when the loom does not work, to ensure reliable gripping of the ends of weft thread before it is interrupted, to ensure the control of the weft which is being inserted into the shed, and to carry out the metering into the shuttle without any position handling of the shuttle or its parts.
  • the bobbin is disposed in a recess of the shuttle from which the weft thread is withdrawn, after the shuttle and the supply unit have parted, in the level of creating the coils, and separated from the supply, while at least one end of the supply of weft thread is already held.
  • the principle of the apparatus for performing the method according to the invention is particularly characterized in that the metering device is provided with a drive independent from the running of the weaving loom; the exit member of the metering device is a winding element entering into the recess of the shuttle, and further is provided with pincers.
  • the shuttle is provided with a freely rotatable bobbin accommodated in a recess, and at the selvedge of the fabric there is disposed means for separating weft thread from the supply, a device for nipping the Weft thread and for the control of the end of the weft thread leaving the shuttle through a groove.
  • the pincers are lifted over the level of the shuttle by a guide bar in the section where the shuttle and the metering device paths part and returned back again to the place where the path of the pincers intersect the instantaneous position of the weft thread between the shuttle and the winding element.
  • the metering device be lifted by a guide bar over the shuttle before the winding element meets the shuttle, after the weft thread has been interrupted between the pincers and the shuttle.
  • the means for interrupting the weft thread between the shuttle and the pincers form an edge arranged at the parting point of the shuttle and the metering device, or a part of scissors.
  • the means for interrupting the weft thread passing between the shuttle and the pincers are scissors coupled with pincers.
  • the pincers placed on the metering device outside the shuttle; this allows the shuttle to be smaller in dimensions; if the pincers enter the recess of the shuttle, while the groove in the side of the shuttle is omitted, the beginning of the wound thread remains within the shuttle.
  • FIG. 1 is a plan view of the closed circulation of the shuttles and the supply units including a part of the weaving area of the loom;
  • FIG. 2 is a front view of the closed circulation of shuttles and supply units
  • FIG. 3 is a plan view of the meeting of a metering device with the shuttle that is to be filled with weft;
  • FIG. 4 is a section taken along the line 44 in FIG. 3;
  • FIG. 5 is a section taken along the line 5-5 in FIG.
  • FIG. 6 is a view taken in the direction P in FIG. 3, the view depicting the holding of the end of weft in pincers outside the space of the shuttle;
  • FIG. 7 illustrates in plan view the characteristic phases for the parting of a shuttle from a supply unit
  • FIG. 8 is a section taken along the line 88 in FIG.
  • FIG. 9 is a section taken along the line 99 in FIG.
  • FIG. 10 is a view taken in the direction S in FIG. 7 depicting the mechanical conveyor controlling the end of weft between the shuttle and the selvedge;
  • FIG. 11 is a plan view of an alternative embodiment with the recess of the shuttle with pincers inside and the scissors outside the shuttle;
  • FIG. 12 shows a further alternative embodiment of the shuttle, such shuttle being provided with a swingable cover.
  • the weaving process on a progressive shed weaving loom is characterized by a plurality of shuttles 1, as shown in FIG. 1.
  • each shuttle 1 passes through the weaving area limited by the width of drawn-in warp consisting of warp threads 2.
  • at least some of the shuttles are in the weaving area, inserting the measured-out weft threads 3 into the travelling sheds.
  • the transport of shuttles 1 in the weaving area is carried out, in the illustrative embodiment, by laminae 4 controlled by known means (not shown).
  • the laminae 4 also serve to beat up the weft 3 to the already formed fabric 101.
  • the shuttles change their direction along a circle 102, returning in a known way to the other side of the formed fabric 101 where they are refilled with weft thread by means of supply units 103, which will be described later, the shuttles then returning to the weaving area.
  • the supply units 103 move along a circular path 104, which, however, does not represent a necessary prerequisite.
  • the path 104 e.g., can have the form of two straight lines and two half-circles, etc.
  • a part of the path 105 of the shuttle 1 is common with the path 104 of supply units 103 of which, either tangentially or along a circular arch 106, said path 105 passes over to a straight section 107 along which it enters the shed and moves through it.
  • the shuttles l are driven, e.g., by means of a finger of an endless chain (not shown) which is guided and driven by driving means of which only a shaft 108 is represented at that side of the weaving loom at which the shuttles 1 are refilled with weft thread and enter the weaving area.
  • the shuttle 1 moves along the part of the common path 104, 105 in one rotary plane in which the refilling of the shuttles with weft thread-3 takes place. It is preferable also to maintain the same rotary plane for the remaining part of path 105, which represents the simplest solution.
  • a rotary guiding device is accommodated consisting of a turret carrying the supply units 103, while in the case of applying a different rotary path 104 said turret can be replaced by some guiding means of an endless chain (not shown) carrying the supply units 103 along a guiding profile rail.
  • the turret 109 is shown as carrying eight supply units 103. This number is given only by way of example.
  • the number of supply units 103 deconsists, e.g., of a brake, a weft stop controlling at the pends upon the output of the weaving loom, expressed i in meters of measured-out weft thread 3 within a given' time vunit, and further upon the maximum metering speed, which is substantially limited by the strength of weft thread 3.
  • the number of supply units 103 can also be chosen from the viewpoint of the possibility of color pattern or of mixing the weft thread 3.
  • Each supply unit 103 contains a minimum supply 5 of weft thread 3, preferably in the form of a bobbin which, in the illustrative embodiment, is supported by a holder 110 of the frame 111 connected with the shaft 108 of the turret 109, e.g., by a pin (not shown), or in the case of a different rotary path, it is supported by a holder of a driving rotary device which can consist of a profile guide rail (not shown) together with an endless chain fed around sprockets (not shown) of which one is accommodated on the shaft 108.
  • the supply unit 103 contains further guiding means of the weft thread 3 and a metering device 7 accommodated on the turret 109 in a vertically shiftable position and controlled by a template 112. l i
  • the guiding means are accommodated on frame 11 1 between the supply 5 and the metering device 7 and same time the running of the weaving loom, and guide elements of known shape, or, solely by way of example, as an eye 6 directing the weft thread 3 into the metering device 7.
  • the metering device 7 of the supply unit 103 serves to feed in, to measure out, and to deposit a required length of weft thread 3 on the bobbin 8 of the shuttle 1 (FIG. 3). It consists of a winding member 14 which is the exit member of a metering device (not shown) driven by a drive (not shown) independent of the running of the weaving loom, and further, of pincers 13 arranged in a vertically slidable position with which the limiter 15 of the passage of weft thread 3 is coupled.
  • the winding element is hollow, e.g., in the shape of a flyer, and provided with an outlet 140 through which passes the weft thread 3 fed from the supply 5 through the cavity 113 of the winding element 14.
  • the pincers 13 and the limiter 15 are constructed and function in a known way and are controlled by a template or cam 114 (FIGS. 8 and 9) the stroke of which is transferred to the pincers 13 by means of a roller 115; said pincers open during the upward movement, and at the same time close, e.g., by means of a transfer member (not shown), the limiter 15 arranged on the metering device 7 by swinging out its swingable arm 15a.
  • the position of pincers 13 on the metering device 7 determines the embodiment of shuttle 1 which is placed under the metering device 7 throughout the whole part of the rotary paths 104, which is common with the respective supply unit 103.
  • the shuttle l is provided with a bobbin 8 accommodated rotatably on a pin 116 in a recess 9 of shuttle 1 (FIGS. 4, 8, and 9).
  • the dimensions of the recess 9 allow the weft thread 3 to be wound on the bobbin 8 by means of the winding member 14 which is arranged on the metering device 7 coaxially or at least parallel with the pin 116 so as to allow its outlet 14a entering the recess 9 under the level of the upper face 117 of the bobbin 8a to rotate freely around said bobbin.
  • the winding level 16 is determined by the position of the outlet 14a during the winding process.
  • the recess 9 passes over into a groove 10 through which the winding element 14 projects when the supply unit 103 and the shuttle 1 part.
  • the groove 10 passes over into a slot 1 1 extending under the wind: ing level 16 (FIG. 8).
  • said groove is either closed by a cover 22 rotatable on a pin 23 in an alternative embodiment (FIG. 12) and held by a spring 24, or is arched in accordance with the path of the relative movement of the winding element 14 with respect to the shuttle 1 at the parting point of their paths 104, 105.
  • the paths 104,, 105 of the shuttles 1 (FIG. 7) and of the supply units 103 in the place of parting must be chosen so as to insure the edge 10a of the groove 10 in the recess 9 to be arranged behind the edge b at the inner side wall 118 of the shuttle 1, if viewed in the direction of the movement of the shuttle 1.
  • the device is provided with a groove 12 through which the warp thread 3 is fed between the outlet 14a of the winding member 14 and the pincers 13.
  • the groove 12 is inclined and both its slope and its width prevent warp thread 2 from falling into it.
  • scissors 21 For separating the measured-out weft thread 3 deposited in the shuttle 1 from the supply 5 either scissors 21 (FIG. 1) or an edge 17 (FIG. 17) is arranged in the parting place of the supply unit and the shuttle, and that as near the pincers 13 as possible.
  • the scissors 21 can form a part of every metering device 7 where they are placed at the outer side of the pincers 13 with which they are then coupled similarly as the limiter 15 (FIG. 11). In such cases the edge 17 or any other means for interrupting the weft thread can be omitted.
  • a thread controlling device is provided at the margin of the weaving area formed, e.g., by a conveyor 18 consisting of two rotary belts 19, 20 travelling in opposite directions (FIGS. 7, 10).
  • the number of revolutions of the winding member 14, and consequently also the length of the weft thread 3 can be determined, by way of example, in turning a toothed segment (not shown) of the metering device 7, said segment driving a gear accommodated on the winding member 14.
  • the dimensions of the segment determine the number of revolutions of the winding member 14.
  • This toothed segment can also serve for switching off the metering device 7 and for stopping the winding member 14, e.g., by interrupting the transmission of turning force by means of a specially adapted stop and at the same time by stopping the winding member 14 in its initial position.
  • a counter can be used for determining the number of revolutions with an electric circuit for the control of the metering device driving motor.
  • THE MEETING OF THE SHUTTLE WITH THE SUPPLY UNIT THe first phase, in which the shuttle meets with the supply unit, can be seen in FIGS. 2-6, inclusive.
  • the metering device 7 guided by the template 112 is in its upper position over the rotary path of the shuttle, so that the pincers 13 and the winding member 14 may not prevent the shuttle 1 from passing the metering device 7 at different levels.
  • the weft thread is fed from the supply 5 through the eye 6, (possibly also through an unillustrated brake and a weft stop) over a winding member 14 to the outlet 14a, its end 3b being tightly held in pincers 13.
  • the limiter 15of the passage of weft 3 does not prevent the weft thread from passing from the supply 5.
  • the winding element 14 does not rotate, and its outlet 14a assumes the position in which the previous winding operation has stopped.
  • the metering device 7 moves downward together with the pincers 13, the winding member 14 enters the recess 9 of the shuttle 1, and the end 3b of the weft thread 3 between the pincers l3 and the outlet 14a is fed through the groove 12 in the outer side 119 of the shuttle 1 substantially into the winding level 16 under the upper face of the bobbin 8 and assumes such position as not to intersect the outline of the bobbin 8.
  • This position of the winding member 14 and of the pincers 13 at the winding level 16 is shown in FIG. 8.
  • the metering device 7 is brought into the position in which the winding of weft thread 3 on bobbin 8 takes place.
  • the weft thread 3 between the guide 6 and the metering device 7 can be braked and controlled in a known way (not shown), in order that the run of the rotating machine may be stopped in case of breakage.
  • the winding operation ends, at the latest, immediately before the shuttle 1 parts from the supply unit 103.
  • the winding member 14 makes a full number of revolutions determined by the program of the measuring-out device (not shown) and consequently its outlet 14a stops in a suitable position 5 in which it has started winding on.
  • the drive of the metering device 7, independent of the running of the weaving loom, results in the independence of the speed of winding the weft thread 3 from the speed of picking the weft thread 3 in the weaving area. This also results in winding under equal tension, which effects the precision of the measured-out length of the weft thread 3.
  • the metering process which is being performed is not interrupted for the shuttles in which the metering has already started. In such cases, the metering process in these shuttles 1 end even sooner than before the shuttle 1 parts from the metering device 7.
  • the metering devices 7 are brought into winding operation in one position only due to the action of a trip (not shown) at the beginning of the common rotary path of the shuttles 1 and the supply units.
  • the metering device 7 can be brought into operation by hand instead of by the trip in any place of the common rotary path so that it begins winding.
  • the operator has the possibility of removing a defect of the supply unit 103, to tie up a broken weft thread 3, possibly to exchange the whole metering device 7, and to refill the respective shuttle 1 with the correct length of weft thread.
  • the third phase in which the shuttle and the supply unit part, can be readily seen in FIGS. 7, 8, 9, and 10.
  • the metering is finished shortly before the shuttle 1 and the respective supply unit part.
  • the outlet 14a of the flyer l4 assumes the same position as before the metering.
  • the pincers l3 guided by the template 114 slide over the rotary plane of the shuttles 1 and open at the same time.
  • the end 3b of the weft thread is loosened.
  • the weft thread passage limiter l5 cooperating with the pincers 13 is brought into operation, preventing the weft thread 3 from passing out of the supply 5.
  • the metering device 7 is also guided by the template 112 and remains in the metering position, while the outlet of the flyer 14a leaves the shuttle 1 through the groove when a smooth parting from the shuttle takes place.
  • the weft thread 3 is unwound from the bobbin 8 of the shuttle 1, since the limiter of the passage of weft thread 3 does not allow the passage of weft thread from the supply 5.
  • the bobbin 8 rotates in the same direction in which it will rotate in the weaving area during the picking of the weft thread 3, so that the end 3b of weft thread 3 is automatically drawn-in into the space 9 of the shuttle 1 before the shuttle l enters the weaving area.
  • the weft thread 3 between the supply in the shuttle and the metering device 7 has not yet been cut, and is fed between the shuttle l and the metering device 7.
  • the pincers 13 have passed the path of shuttle 1 at a different level in a position over the rotary level of the shuttles 1. Approximately in the place where said pincers get over the instantaneous position of the weft thread 3 between the shuttle 1 and the metering device 7, they start their downward travel again, guided by the template 114, to the winding level 16,
  • the end 3a of weft thread 3 leading to the shuttle l is taken over by the conveying unit 18 and transported, under simultaneous control, to the end of the weaving area where it is caught by the selvedge warp threads 2 preparing for the shed change.
  • the metering device 7 is prepared for the following metering. Before the metering device meets with the shuttle 1 that should be refilled with weft thread 3, the metering device 7 guided by the template 112 moves out, and at the same time also the pincers 13 get over the rotary level of the shuttles 1 and the whole metering cycle is repeated.
  • the weft thread 3 With respect to the correct length of the weft thread 3 in the shuttle 1, the weft thread 3 must quite clearly be unwound either from the yarn supply 5 or from the shuttle 1 when the shuttle 1 and the supply unit part, while it is preferable to insure the unwinding from the shuttle 1 as has been described, since the rotary movement of the bobbin 8 causes the end 3b of the weft thread 3 to be automatically drawn into the recess 9 of the shuttle 1.
  • the manner of operation is the same as in the abovedescribed one.
  • the advantage of such arrangement consists in that the end 3b of the weft thread 3 remains all the time in the space of the shuttle 1, thus avoiding the danger that it might fail, for any reason, to be drawn-in into the cavity of the shuttle 1. In such case it might be caught by warp threads going over to a shed change.
  • the warp thread 3 from the bobbin 8 would have the tendency to unwind in the wrong direction and through the wrong outlet, i.e., through the groove 12.
  • the shuttle 1 In case the path of the parting of shuttle l is not chosen with respect to the suitable curvature of path 10, the shuttle 1 must be used with a cover 22, as shown in FIG. 12. Then the flyer 14 or some other member of the metering device 7 (e.g., a peg) swings the cover 22 out, thereby closing the groove 10 around the pin 23 and thus creating the necessary space for the exit of the outlet 14a of the flyer 14 out of the shuttle 1. After the cover 2 has returned by means of the action of the spring 24, the shuttle l has no interruption of its .outline in the form of an open groove 10.
  • the flyer 14 or some other member of the metering device 7 e.g., a peg
  • each metering device 7 has its own scissors 21 which project either in the recess 9 of the shuttle 1 or outside the shuttle l
  • the operation is as follows: At the moment of the parting, the template 114 is guided in accordance with the pincers 13, assuming a position over the rotary plane of the shuttles 1 and the jaws of the scissors, as well as the pincers 13, are open. After the pincers 13 and the scissors 21 have passed the shuttle 1 at different levels, the scissors 21 move downwards together with the pincers 13 into the winding level 16, and similarly to the pincers 13 the weft thread3 between the shuttle 1 and the flyer 14 is fed automatically to the open jaws of scissors 21.
  • the weft thread 3 After the weft thread 3 has been gripped by he pincers 13, which takes place when the weft thread 3 has been drawn-in to the conveying unit 18, the weft thread 3 is at the same time interrupted by scissors 21.
  • the advantage of such embodiment resides in the fact that a better quality of cut and a higher precision of the length of the pick 3 are insured, the process of cutting being independent from the rotary speed of the shuttle 1.
  • a progressive shed weaving loom having a plurality of shuttles with bobbins moving along a closed path, and an apparatus for filling the shuttles with weft on the bobbins, said bobbins being pivotable in the plane of said closed path
  • the improvement comprising a weft supply, a plurality of metering devices moving along a closed path a part of which is parallel to the closed path of the shuttles, rotatable winding elements arranged on the metering devices, a drive for the winding elements which is independent of the running of the weaving loom, independent of the moving of the shuttles, and independent of the moving of metering devices, means for moving the winding elements near the bobbins of the shuttles when filling the bobbins, pincers to hold the weft when filling the bobbins, the pincers being arranged on the metering devices, means for separating the filled weft from the supply, the weft leaving the shuttle through a groove, and a device for nipping
  • Apparatus as defined in claim 1 comprising a controllable weft limiter, said limiter being arranged on each metering device between the winding element and the weft supply.
  • Apparatus as defined in claim 4, wherein the device for nipping the weft and for the control of the end of the weft comprises two contracting rotary belts travelling in opposite directions.
  • Apparatus as defined in claim 6, comprising a swingably arranged cover provided with a spring for selectively covering the groove in the shuttle.
  • a method of filling the shuttles on progressive shed weaving looms with weft comprising moving weft supply units and the shuttles in the same direction with the same speed and at conforming spacing, in the section where the path of the shuttle and that of the supply unit coincide withdrawing the weft from the supply of weft and depositing it in the form of windings created irrespective of the running of the weaving loom in a plane identical with the rotary plane of the shuttles, and with a length proportional to the total multiple of windings on a standing bobbin disposed selectively rotatably in a recess of the shuttle, and, after the shuttle and the supply unit have parted, holding at least one end of the supply of weft and separating the weft from the supply unit.

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  • Textile Engineering (AREA)
  • Looms (AREA)
US00137338A 1970-04-28 1971-04-26 Method of and apparatus for filling the shuttles with weft on progressive shed weaving looms Expired - Lifetime US3724508A (en)

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CS2933A CS150460B1 (de) 1970-04-28 1970-04-28

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US (1) US3724508A (de)
JP (1) JPS5329747B1 (de)
AT (1) AT305168B (de)
CA (1) CA943042A (de)
CH (1) CH530495A (de)
CS (1) CS150460B1 (de)
DE (1) DE2120309C3 (de)
ES (1) ES390956A1 (de)
FR (1) FR2090879A5 (de)
GB (1) GB1335291A (de)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3817291A (en) * 1972-10-17 1974-06-18 Wirkmaschinenbau Karl Marx Veb Automatic progressive shed loom
US3835893A (en) * 1973-07-02 1974-09-17 A Galperin Device for winding weft thread on the spools of weft carriers in travelling wave looms
US3946765A (en) * 1974-11-08 1976-03-30 Veb Wirkmaschinenbau Karl-Marx-Stadt Mechanism for feeding the shuttles into the weaving cylinder of an automatic wave shed loom
US3976105A (en) * 1974-04-24 1976-08-24 Ruti Machinery Works Ltd. Device for filling yarn bobbins on the shuttles of a traveling wave loom
US3989069A (en) * 1973-10-24 1976-11-02 Vyzkumny Ustav Bavinarsky Method of and apparatus for compensating for weft tension in traveling-wave shedding looms
US3996974A (en) * 1974-08-16 1976-12-14 Ruti Machinery Works Ltd. Device for winding bobbins with filling threads
US4175594A (en) * 1978-05-03 1979-11-27 Galperin Alexandr L Apparatus for threading weft carriers for travelling-wave loom
US20140202578A1 (en) * 2013-01-22 2014-07-24 Mageba Textilmaschinen GmbH & Co.KG Shuttle as well as weaving machine and weaving process with such a shuttle
US10550497B1 (en) * 2016-05-27 2020-02-04 Apple, Inc. Weaving equipment

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2440429A1 (fr) * 1978-10-30 1980-05-30 Tsnii Chlopchatobumasch Promy Dispositif de canetage d'un organe d'insertion de trame pour metier a tisser a foule ondulante
CN113060604B (zh) * 2021-04-29 2023-06-02 石家庄恩铄科技有限公司 一种梭子用纬管自动更换装置

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US720181A (en) * 1901-06-19 1903-02-10 Levi E Salisbury Multiple-shuttle loom.
US2042703A (en) * 1933-07-21 1936-06-02 Celanese Corp Circular loom
US3263705A (en) * 1962-11-23 1966-08-02 Rudolf H Rossmann Weaving method and loom
US3319663A (en) * 1963-03-19 1967-05-16 Oerlikon Buehrle Ag Means for supplying shuttles of looms with thread and apparatus therefor

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SU156494A1 (de) *
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US720181A (en) * 1901-06-19 1903-02-10 Levi E Salisbury Multiple-shuttle loom.
US2042703A (en) * 1933-07-21 1936-06-02 Celanese Corp Circular loom
US3263705A (en) * 1962-11-23 1966-08-02 Rudolf H Rossmann Weaving method and loom
US3319663A (en) * 1963-03-19 1967-05-16 Oerlikon Buehrle Ag Means for supplying shuttles of looms with thread and apparatus therefor

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3817291A (en) * 1972-10-17 1974-06-18 Wirkmaschinenbau Karl Marx Veb Automatic progressive shed loom
US3835893A (en) * 1973-07-02 1974-09-17 A Galperin Device for winding weft thread on the spools of weft carriers in travelling wave looms
US3989069A (en) * 1973-10-24 1976-11-02 Vyzkumny Ustav Bavinarsky Method of and apparatus for compensating for weft tension in traveling-wave shedding looms
US3976105A (en) * 1974-04-24 1976-08-24 Ruti Machinery Works Ltd. Device for filling yarn bobbins on the shuttles of a traveling wave loom
US3996974A (en) * 1974-08-16 1976-12-14 Ruti Machinery Works Ltd. Device for winding bobbins with filling threads
US3946765A (en) * 1974-11-08 1976-03-30 Veb Wirkmaschinenbau Karl-Marx-Stadt Mechanism for feeding the shuttles into the weaving cylinder of an automatic wave shed loom
US4175594A (en) * 1978-05-03 1979-11-27 Galperin Alexandr L Apparatus for threading weft carriers for travelling-wave loom
US20140202578A1 (en) * 2013-01-22 2014-07-24 Mageba Textilmaschinen GmbH & Co.KG Shuttle as well as weaving machine and weaving process with such a shuttle
US9353467B2 (en) * 2013-01-22 2016-05-31 Mageba Textilmaschinen Gmbh & Co. Kg Shuttle as well as weaving machine and weaving process with such a shuttle
US10550497B1 (en) * 2016-05-27 2020-02-04 Apple, Inc. Weaving equipment

Also Published As

Publication number Publication date
GB1335291A (en) 1973-10-24
CH530495A (de) 1972-11-15
ES390956A1 (es) 1974-04-01
JPS5329747B1 (de) 1978-08-23
FR2090879A5 (de) 1972-01-14
AT305168B (de) 1973-02-12
DE2120309C3 (de) 1978-07-06
DE2120309A1 (de) 1971-11-11
CA943042A (en) 1974-03-05
CS150460B1 (de) 1973-09-04
DE2120309B2 (de) 1977-11-17

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