BE345567A - - Google Patents

Description

       

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  "IMPROVEMENTS IN METHODS AND APPARATUS FOR THE MANUFACTURE OF; BIRDS OR WIRES".



  The invention relates to an improved method and apparatus for twisting yarns and threads composed of fibers or filaments of all kinds * ,, and especially of yarns or threads composed of filaments or fibers of artificial silk of acetate. cellulose or. of another artificial silk.

     The invention is particularly applicable to the production of yarns with high twist yarns and especially those called "crimped yarns" employed by.

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 example in looms for the manufacture of crepe fabrics in natural or artificial silk, such as crepe de chine, Moroccan crepe, Georette crepe, etc.,
According to the invention, the yarns or yarns are twisted,
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 included hereinafter under the name of "threads' *, by unwinding them from rotary reels of the" cheese "type over other masses of fi -:;:

   hereafter included under the name of coils, in such a way that, in its passage from the rotating coil to the winding device, the wire forms a loop or coils itself a few turns around a rod or spindle vertical rotating, all components
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 included below under the name of "broach cisposed along the axis eu above the coil, and goes from there
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 at uri point or guide (preferably fixed) situated above the spindle, and preferably along its axis, the spindle receiving pe3 movement. of rotatin7.>, the same speed or at a slower speed than the spool of thread.



   The spool may be composed of any yarn, whether or not twisted, for example a twisted or untwisted yarn composed of filaments or fibers of artificial silk of cellulose acetate or other filaments or fibers ar -
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 tifioielà '; or natural or two or more pieces of parallel or doubled thread, whether made of similar or dissimilar materials.



   To carry out the invention, the thread can be drawn from the inside or the outside of the rotating spool.



   According to one embodiment, the thread can be drawn from inside the rotating spool (for example
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 a reel of the ttfromagelt type or other reel with chalk winding) inserted in a box, bowl or equivalent rotating support which receives a rotational movement with the reel at the desired speed, the spindle rotating around

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 wherein the yarn loops / coils a few turns rising through the spool but at some distance from the inner surface of that spool and being preferably attached or coupled to the bowl or other rotating support.

   On leaving the rotating spindle, the wire passes to a point (preferably fixed) situated above this spindle and preferably along its axis, then continues its movement up to a tube coil or other winding member. In its passage from the rotating spindle to the said point located above this spindle, the wire describes a surface more or less swollen or curved outwards. The point located above the spindle and at which the wire ends up coming from the spindle may be constituted by a wire guide or other member.

   The rotary support of the coil may be a box, bowl, etc., cylindrical or substantially cylindrical and the wall of this bowl, etc. can be solid, perforated or perforated in the form of a cage and * if desired, it can be lined with a bowl or tube of paper, cardboard, etc. fixed or held by friction or in some other way, especially when use is made of a perforated rotary support. or cage-shaped.

   We. can make use of any other form of clean rotating support. at. support the spool laterally. If desired, the spool of twisting wire can itself be wound or. formed in a bowl, tube or envelope of cardboard, paper or other material, to be provided with such an envelope with which it can be inserted or mounted in the rotating support so as to participate. the rotation of this support, the construction of the latter being suitable for. this goal.



   The spindle is preferably fixed or coupled to the rotating spool support but, if desired, it can be actuated independently of this support and pass upward through a hollow drive shaft port.

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 as the spool rotary support, in which case the spindle would preferably be operated at the same speed or at a slower speed than the spool rotary support.



   When the wire is unwound from the outside of the spool, it is preferable to have the spool rotate in an envelope of larger diameter than this spool. This envelope can participate in the rotational movement of the coil or receive an independent rotational movement of this coil at any desired speed, or it can be fixed.

   When it turns, it is preferable that it be carried by the shaft or other drive support for the reel or that it is integral with this shaft, but it can be actuated independently of this shaft and at any desired speed +
According to one embodiment the yarn can be drawn from outside a vertical spool receiving a. rotational movement of a vertical drive shaft which carries (or is in power connection with) a co-axial casing surrounding the spool of wire and having a diameter greater than this spool. preferably washes over the coil and forms or.

   carries the aforementioned rotating spindle around which the wire forms a loop or winds itself a few turns, but this spindle can be taken or otherwise disposed along the axis of the spool and above it.



   In this embodiment, when the yarn leaves the outside of the spool, this yarn bends to a greater or lesser extent towards the inside or towards the internal wall of the envelope which surrounds it, which envelope may for example be a cylindrical or approximately cylindrical box or bowl, and from there to the rotating spindle around which it forms a

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 loop or wind up a few turns :. Leaving this spindle, the wire arrives at a point (preferably fixed) above the spindle. preferably. along its axis, and continues its movement up to or towards a coil, tube or other winding member.

   In its passage from the rotating spindle to the point above it, the wire / bends to a greater or lesser extent. smaller. Point. located above the spindle may be constituted by a thread guide or other means.



   According to another embodiment, the wire can be drawn from the outside of a vertical spool controlled by a drive shaft or support arranged in a fixed vertical envelope supporting the spool of wire and of larger diameter. This envelope can for example be cylindrical. For convenience, it may be slit lengthwise to facilitate threading on start-up. Further, in this construction, the spool drive shaft preferably rises above. of this coil and constitutes or carries the aforementioned rotary spindle around which the wire forms a loop or is wound up a few turns, but this spindle could be provided or arranged in some other way along the axis and / above the coil.



   In this construction, the wire when it leaves the outside of the spool, bends more or less outward or towards the internal wall of the fixed casing and, from there, passes to the rotating spindle around which it is wound up, then to the thread guide or other point (preferably fixed) located above the spindle and preferably along its axis, and then continues its movement up to or towards a winding member, In its passage from the spindle at the aforementioned pointed the wire curls more or less towards the outside.

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   According to another embodiment, the yarn can be unwound from the outside of a vertical rotating spool having no wrapper. In this construction also, the shaft or support for driving the reel preferably rises above the reel and constitutes or. carries the aforementioned rotary spindle around which the wire is wound, this spindle can moreover be provided or arranged along the axis and / above be provided or arranged along the axis and / above the coil,
In this construction, the wire, leaving the outside of the rotating spool, will curl outward to a greater or lesser extent and pass over the spindle around which it winds.

   Leaving this spindle, the wire will pass to the wire guide or other .oint (preferably fixed) located above this spindle and preferably along its axis and will then continue its movement towards or up to a winding member. In passing from the rotating spindle to the aforesaid point, the wire bends outwards to a greater or lesser extent
In a construction of this kind, that is to say not carrying a casing around the rotating coil.

   it has been found that when high speeds are employed for the spool of wire and the rotating spindle for the production of high twists, the transfer between the diameter of the spool of wire and that of the spindle at the place around which the wire is wound is important, in that) the sense that if this diantre of the spool is too large the wire tends to leave the spindle and curl / from the outside of the spool directly to the guide located at the spindle. above the spindle.

   In this regard, it has been found desirable in the application of high speeds for the spool and the rotating spindle for the production of

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   crimped yarn ¯ '""' * z '' "^, to use for example $ crimped yarn or / @@@ twisted., to use for example, with a pin of 9.5 millimeters in diameter (at the place around which the wire winds), a coil of wire not more than 38 millimeters in diameter +
In the practice of the invention (regardless of the embodiment and whether the yarn is drawn from the inside or the outside of the spool,) it is preferable, in order to ensure a constant linear speed in the unwinding of the wire from the rotating spool, and consequently a constant or regular twist,

   to use a tube coil, etc. as the winding member. driven by friction to. using a friction roller resting against the layer of coiled wire
It is preferable for the twisted wire to be driven in a reciprocating motion on the winding member, but this reciprocating motion can be communicated to said member, if desired, preferably. the wire will be moved on the winding member using a reciprocating wire guide or equivalent device located between the winding member and the aforesaid point located above the spindle and which the wire goes to when leaving this pin.



   In certain cases, the aforesaid moint located above the spindle may itself constitute a guide or equivalent device which cooperates with the winding member to guide the wire towards this member without the interposition of a means of intermediate guidance between said point and said organ; in this case, this guide or equivalent device may be fixed with respect to a winding member driven by a reciprocating movement, or else said guide may be animated by a reciprocating movement relative to a non-displaceable winding member.



   The rotary spindle around which the wire is wound is preferably fixed or coupled to /

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 or support for driving the spool of wire (being for example formed in one piece with this support or mounted in a fixed connection or drive with this support), or, in.the case where.the unwinding takes place from the interior of the spool to / or drive support of the rotary cup or equivalent support mentioned above; and when use is made of a cup, casing or other rotating member surrounding the spool of wire in the case where the wire is unwound from the outside of the spool, this cup, etc. is preferably also attached or coupled to the drive shaft or support of the wire spool.

   However, if desired, the pin around which the wire winds can be operated independently; for example, it may rise through a hollow shaft or drive support of the wire spool or the cup, etc. rotating and protrude beyond this shaft. When using a pin at. independently controlled, it is preferably operated at the same speed or at a slower speed than the spool of wire.



   The diameter of the spindle or part of the spindle on which the wire winds can vary and be chosen or adjusted according to the wire, numbering, speeds and degrees of twist required. In addition, the part of the pin on which the wire is wound can have any suitable shape, for example a cylindrical shape, a single or double conical shape (two truncated cones joined together by their large bases or by their small bases} , the. shape of a barrel, of a hyperboloid or any other suitable shape
Said spindle is preferably provided, above the rotating spool, with a deflector or member serving to guide the wire leaving said spindle and going to the aforesaid guide or point situated above it.

   This de-

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 flector may have a discord form. spherical, conical, etc. Its role will be to ensure a constant position or level at which the wire rises at the aforesaid point or guide above the spindle, which ensures a regular curvature or ballooning of the wire between the spindle and the said point. This deflector may be height adjustable on the spindle and should provide a smooth surface for the wire which rotates around it in its upward movement.



   Any suitable means may be employed to rotate the cup, cup or equivalent support (or the shaft or drive means) of the spool of wire and the winding spindle, for example a belt drive or an electric motor directly. coupled to the member which is to be actuated Preferably, as has been said above, the winding / branch is carried by the spool drive / shaft or is integral with @@ / and when a rotating bucket or equivalent member is employed, the winding spindle is preferably fixed or coupled to said dildo - being for example carried by the shaft of the bucket or established integrally with it.

   Likewise, when use is made of an envelope surrounding the coil and receiving a rotational movement as mentioned above, this envelope can be actuated by any suitable means. As mentioned previously, it is preferably carried by the shaft or other drive support of the spool of wire or established integrally with this support.



   It is preferable that the spindle is carried by (or is integral with) the drive shaft of the. spool or rotating cup or equivalent support (where a rotating envelope surrounds the spool of wire, it is also preferable that this envelope is carried by or on it!

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 its drive with the thread spool drive / shaft.) However, when it is desired to rotate the spool of thread at high or very high speeds, such as for example for the formation of crimped or twisted threads advantageously, the drive shaft, etc. can be actuated.

   of the spool of wire or of the rotary support (or any number of these shafts or supports) by electrical means of the kind described in the Belgian patent application N ° 26.267 of 4 August 1927, that is to say - say that each shaft or support can be coupled directly to the rotor of a polyphase electric motor (preferably with three or more than three phases), the motor or motors receiving current from a high frequency generator and this or these motors and (or) the high frequency generator which feeds them being fitted / unbalanced by which is meant that each phase of the unit (motor or generator)

     having the "unbalanced" windings includes a different number of ampere-turns from that existing on each of the other phases of the unit. As explained in the aforesaid patent application, the different number of ampere-turns is preferably obtained by winding the phases with different numbers of turns of wire.

   although it can, if desired, be obtained by employing both on the motor (s) and on the generator an equal number of turns of wire on the various phases and inserting between the generator and the motor (s) a transformer ( static or rotary) whose various phases are provided with different numbers of turns, or by mounting on the circuits of. various phases (or where appropriate on each of the phases with the exception of one) resistances or impedances --- which, in the event that they are mounted on circuits of two or more phases, have different values from one phase to another - or by using any other known means

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 to supply polyphase currents of different voltages to the various phases.

   As stated in the aforementioned patent, it is preferable, in order to ensure the best operation of the electrical control device, that the difference between the numbers dt ampere-turns of those phases whose ampere-turns differ from the more does not exceed about 15%, and preferably 10 to 12%.



   The "cheeses" or other coils which are to be unwound and twisted according to the invention can of course be made in any suitable manner.



   When you want to unwind the twisting wire from the inside of the spool, the spools can for example be established by winding the wire on a spindle or contrac- tile core that is removed from the spool when you want to insert it. in the device's rotating support, unwinding and twisting bucket ,. Said coils can also be obtained in any other suitable manner.

   For example, they can be obtained by winding the wire in a box, bucket or equivalent cylindrical support driven by a rotational movement and from which the spool can be transferred to the rotary support of the unwinding and twisting apparatus; in such a case, the box, etc., in which the spool is wound can advantageously be provided with a packing, bowl or envelope 'of cardboard, paper, etc., which can be dismantled in which the thread is wound and which can then serve as support cover for the spool. which facilitates its transfer and placement in the rotating support cup of the unwinding and twisting apparatus, the spool and its support casing being inserted into the rotating cup of the apparatus.

   When the coils are obtained by winding the wire in a rotating cylindrical box, or equivalent support, this box can itself be used as a rotating support in the unwinding and twisting operation and can in such a case be transferred with the machine. coil

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 which contains for this operation.



   When the spool from which the wire is to be unwound and twisted has been obtained by winding a wire in a rotating cylindrical box, the wire can be introduced into this box through a tube or other reciprocating guide placed in the center of the coil the coil being formed in the boot by a centrifugal action.

   The box is preferably provided with a removable liner or envelope of paper, cardboard, etc.When the spool from which the thread is to be unwound and twisted has been formed on a contractile pin or core, it can be removed and placed in the box. odet of cylindrical rotary support of the unwinding and torsion apparatus, this bucket being suitably dimensioned for this purpose. the coil adhering to the support as a result of the expansion which occurs under the centrifugal force developed by the rotation in the operation / and torsion;

   if desired the rotating support can be provided with a paper pad, etc. or be provided internally with a coating or emduit suitable for ensuring a good driving action by faction, on the reel in the unwinding and de toraion operation.



   If it is desired to unwind the twisting wire from the outside of the spools. these can, in this case as well, be established in any suitable manner.



   The method according to the invention enables a very uniform twist to be produced even when a high twist is imparted to the yarns, this being possible due to the fact that, as it exits the spool, the yarn winds around the spindle. rotatable under considerable but adjustable tension; and that if the coil and broach receive: high speed rotational movements to produce high torsion:

   pulling or rubbing action

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 exerted by the spindle regulates the ballooning of the wire between the rotating spindle and the aforesaid guide or. point above this spindle and thus regulates the twist imparted to the wire), so that a very high twist can be communicated to it without running the risk of the twist going back to the spool and causing the entanglement of the turns of the coil.



   In addition, as the twist is communicated in gradual steps, the flexibility is greater than in the twisting or milling performed on wing or ring looms and breaks are rarer, the wire being subjected to (less strain) Due to the fact that the phases in which the twist is imparted are more gradual, higher speeds, stronger yarn and more even twist can be achieved.
As has been mentioned, in the method of twisting according to the invention, the yarn / bends more or less outwards after leaving the spindle and it is observed that the variable twist which can be obtained by adjusting the length of the bloat at.

   the curved portion is a convenient and easy means of modifying the tension so as to avoid the formation of. Very regular bloat can be obtained by adapting to the pin in any convenient manner a discoid, circular deflector member. wide, spherical or other suitable shapes at some distance above the spool, which assures that the ballooning, or bending, of the wire leaving the spindle will start at a defined and constant height. wire forming a single defined loop ,.

   The baffle, which can be made of brass, steel or other suitable material has a smooth surface or. polite to. where it touches, the wire and can be force-fitted on the spindle or fixed to. this in an adjustable way to allow the height to be adjusted

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 which bloating begins, according to. conditions under which the twisting of the wire must be carried out. It goes without saying that when using a fixed deflector-on the spindle, the length- of the "balloon" can be adjusted by adjusting the height, above the spindle, of the yarn guide or point at which it rests. returns the wire coming from the spindle.



   By constructing the spool from which the thread must be unwound and twisted, using two: or. over the, # ;; parallel pieces of wire of different materials or using a wire
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 doubled this process allows to obtain mixed twisted yarns for special effects.



   The accompanying drawings show some shapes
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 embodiment of the invention, being well and6uu however that they are given for explanatory purposes only and can be modified oonsiderablehient without departing from the spirit of the invention. The designs counteract disjositions which are very useful for the production of 3 yarns 8, Í i'm (nC; ':' Lt 4g-e ± 5Ea leR crimped In figs. 1 to 3 the yarn is unwound from inside the the coil, stretched Ci: te in wires 4 to 8, it is unwound from the outside of the coil.



     Fig. 1- is a side view, part in axial vertical section of a construction of the following apparatus
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 The invention is that the spool of wire is arranged to be actuated by means of a belt drive.
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 Fig .. g is an axial vertical section at right angles to. fig. 1,
These two figures show the elements of a
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 unwinding and twisting unit coi.-plete $ and it is understood that the machine or apparatus may include any desired number of such units arranged in a row. or in any other way desired.



   Fig. 3 is a vertical section showing the same apparatus as in figures- 1 and 2, except that the bo-

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 bine of wire is arranged to be actuated by one embodiment of the. electrical device covered by the aforementioned patent. fig. 4 is an elevation with. partial vertical axial section - of an apparatus arrangement for twisting the yarn as it is unwound from the outside of the rotating spool, the spool being arranged, in this example. to be operated by a belt drive:

     and this coil rotating to jingle their casing in the form of a cylindrical box and together with this casing. fig, 5 is a vertical section at right angles to fig. 4.



   Figs. 4 and 5 show the elements. of a complete unwinding and twisting unit, and it is understood that the machine or apparatus may comprise any desired number of such units arranged in a row or. in any other way desired.



   Fig. 6 is a vertical section showing an arrangement of apparatus similar to that of Figs. 4 and 5 but in which the spool of wire and the cylindrical box are arranged to be actuated by an embodiment of the electric control device forming the 'subject of the aforementioned patent *
Fig. 7 is a vertical section of an apparatus established according to the invention, the spool of wire being, in this example, driven by a rotational movement. inside a fixed casing and being actuated by a belt transmission.



   Fig. 8 shows another example of an apparatus according to the invention in which the spool of wire is surrounded by only a wrapped In figs. and 2, 1 designates a cylindrical box carrying the reel of the "cheese" type or with

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 cross bearing 1, the thread of which must be twisted.

   The spindle or equivalent member 3 carries a nut 5 on which is shown the cylindrical box 1 which is actuated at the desired speed with the spindle 1 by a belt 4 passing over the nut 5, Leaving the spool the wire is wound up by some- ques tours:

   around the spindle 3, comes to rest against the disc or deflector 1 mounted in an adjustable manner on this spindle and goes to. fixed thread guide 2. located above the spindle *, the '* balloon' * wire bends outwards in its passage from the deflector 6 to the thread guide 7, and it is possible to adjust the height of the bent or bloated part by adjusting the position of the disc 6 on the spindle 3, this adjustment constituting a convenient and easy means of changing the tension in order to adapt it to the twisting conditions of the yarn and to avoid the formation of / @@@ The thread leaving the fixed thread guide 7 passes through a thread guide at. back and forth.

   11 carried by a reciprocating bar as shown and moving the wire on the spool 2 which is actuated by the friction of a rotary drive roller 10 bearing against the surface of the wound wire. on the spool 9. The means described for actuating the spool ensure a constant speed of unwinding of the wire and, consequently, a uniform twist of said wire. In operation, the cylindrical box receives. a rotational movement in the winding direction!) that is to say in the same direction as that which would be followed by returning along the wire from the spindle to the spool 2.



   The degree of twist imparted to the wire is of course determined by the speed of rotation of the cylindrical box and the speed at which the wire is unwound (i.e. the speed of the wire drive 10) and it is easy to communicate over high or very high degrees of twist, for example 20 to 24 turns per centimeter, by rotating the cylindrical box at. high speeds

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 vées or. very high.



   As mentioned above, FIG. 3 shows the way in which the apparatus of FIGS. 1 and 2 can be arranged to be actuated by an embodiment of the electrical control device which is the subject of the aforementioned patent,
The parts of fig. 3 which correspond to those of the fics. 1 and 2 have been designated by the same reference numbers
In fig.3, the cylindrical box 1 carrying the coil of wire .lest itself carried by a pin 3 which is provided with a collar 11 carrying tenons 12 engaged in recesses 13 provided in the lower part of the box cylindrical 1, the spindle - 3 constituting in. at the same time the shaft of the electric motor 14.

   This motor is of the squirrel cage type and comprises a two-pole / twenty-four chamber stator wound in a star and provided with unbalanced windings ", the number of turns of said stator being 100 over the first phase, 97 on the second and 94 on the third, the engine (if necessary several engines.

   of this genius each actuating a cylindrical box in the aforementioned manner) being powered by an ordinary three-phase high-frequency generator (not shown) provided with ordinary balanced windings (that is to say having the same name). (number of turns on each phase) and actuated in a known manner to supply current at the high frequency necessary to actuate the motor at the desired high or very high speed. The motor shaft 14 rotates in a pad and upper 15 and in a lower bearing 16 of the box 17 of the. motor, and is supported by a thrust ring at. spring 18. The squirrel cage rotor 19 is rigidly attached to the arch 3.

   The core 20 of the stator is rigidly fixed to the box 17 which surrounds it.

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  The rotor 19 is analogous to the usual type of rotor
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 squirrel cage and has a laminated iron core consisting of 22 superimposed soft iron sheets (precautions must be taken to ensure good insulation between sheets) and 23 copper squirrel cage bars running through the notches- of the rotor and fixed in the end rings 24 of the squirrel cage.



   The rotor is rigidly fixed to the motor shaft,
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 being locked in position by a nut 5 and a flight,: nt threaded the latter also comprising a screw of 'clocage z7 bearing against the shaft 3.



  The stator core-0 is composed; - superimposed and notched soft iron bowls. @. (de; :: precautions must be taken to ensure a good insulation between the sheets), and this core is provided with the unbalanced winding 29 taking care to ensure a good insulation between this on- rolling and the core stator.



   The upper bush 15 is lubricated by the annular oil cavity 30 provided with an oil wick 31, the cavity 30 being covered by a washer.
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 A2 and by a cover 33 & 0When the shaft is fixed, the oil from the wick 31 passes through the channel 34 to the shaft 3 and through the channel 3,5- in an annular recess 36.

   Q, ¯H'ü1d the shaft 3 is in motion, it makes the oil rise by sucking it through ¯ the groove he1.iCOdale ... Atu bearing 5s thus ensuring 'the lubrication of the bearing, The flight <;. nt discord 2e prevents 3-thoil from falling on the rotor or stator, since the oil likely to fall out of the recess 36 on the flywheel 26 is thrown by the latter by the centrifugal force, so that it passes around the upper part of the box 17 and returns to the recess 36.

   as a result ... any oil likely to flow out of the recess 36 will be returned by the flywheel 26 in this
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 hollow 6>

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The lower bush 16 is lubricated by oil cavities such as 38 arranged in any suitable number around the shaft and lined with oil wicks 39 which deliver oil to the shaft 3 through channels such as than 40; the stop ring 18 is lubricated by wicks 39 which deliver the oil through channels 41 to this ring.



   In figs. 4 and 5,1 is the spool of the "cheese" type or with crossed winding of which the wire must be twisted, this spool being mounted firmly on the drive shaft '* ment 2. The shaft 2 carries a nut 3 on which is firmly mounted a 'cylindrical box 4. the diameter of which is a little larger than the spool it surrounds. Shaft 2 also rises above the spool of wire. and constitutes the aforementioned pin around which the wire forms a loop or is wound a few turns. The shaft 2 and the cylindrical box 4 are actuated at the desired speed by a belt 5 passing over the nut 3.

   Leaving the outer surface of the coil. the wire bends more or less outwards in its path up to or towards the internal wall of the cylindrical box 4, then passes through the upper extension of the shaft around which it winds, then comes to rest on the disc or deflector 6 mounted adjustably on the shaft and goes to. fixed wire guide 7 placed centrally above the shaft 2.

   The yarn bends outwards while passing from the deflector 6 to the yarn guide? 'And the height of the balloon thus formed can be adjusted by adjusting the position of the deflector 6 on the shaft 2, this adjustment constituting a means convenient and easy to change the tension according to the needs of the twisting yarn and avoid the formation of / The yarn leaving the fixed yarn guide 7 passes through a reciprocating yarn guide 8 carried by a reciprocating bar back and forth as shown and moving the yarn on the spool 9 which is actuated by the friction of a drive roller 10 resting against the surface of the wound yarn.

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 length on the spool 9.

   The means described for actuating the spool ensure an observed unwinding speed of the wire and, consequently, a regular twist of said wire.



   In operation, the spool of wire receives a rotational movement in the winding direction, that is to say in the same direction as that which would be followed by reliving along the wire from the spindle to the spool.



   The degree of twist communicated to the yarn is of course determined by the speed of rotation of the yarn babble and by the speed at which the yarn is unwound (that is to say by the speed of the drive roller 10), and high or very high degrees of twist can easily be imparted, for example 20 to 24 turns per cm. or more, a wire by rotating the spool of wire at high or very high speeds.



   As mentioned previously, FIG.



  6 shows an apparatus of the same construction as that shown in FIGS. 4 and 5, m @@ s arranged to be actuated by an electrical control device of the type described in the aforementioned patent.



   The parts of fig. 6 which correspond to. those ¯ of fig. 4 and 5 have been designated by the same numbers.



   In fig. 6, the "cheese" or cross-wound coil 1 is fixed to the drive shaft 2 which is fitted with a collar 11 carrying tenons 12 engaged in recesses 13 provided in the lower part of the box. cylindrical 4, the diameter of which is a little larger than that of the coil which it surrounds. The shaft 1 rises above the spool and at the same time constitutes the spindle around which the wire is wound one or more turns.



  This shaft is also extended downwards, this extension constituting the shaft of the electric motor 14. This motor is of the squirrel cage type and comprises a bipolar stator.

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 three-phase with twenty-four notches star-wound and provided with "unbalanced windings", the number of turns of the said stator being 100 on the first phase, 97 on the second and 94 on the third, the motor (the case several such motors each actuating a coil of wire and an enveloping cylindrical box in the aforementioned manner) being powered by an ordinary three-phase high-frequency generator (not shown) provided with ordinary balanced windings (i.e. i.e. having the same number of turns on each phase)

   and operated in known manner to supply high frequency current necessary to operate the motor at the desired high or very high speed. Marble of motor 14 rotates in an upper bearing 15 and in a lower bearing 16 of the box 17 of the. engine. and is supported by a spring loaded thrust ring 18. The squirrel cage rotor 19 is rigidly attached to the shaft 2. The stator core 20 is rigidly attached to the box 17 which surrounds it.



   The rotor 19 is analogous to the us @ el type. squirrel-cage rotor and has a laminated iron core made up of superimposed soft iron sheets 22 care must be taken to ensure good insulation between the sheets) and copper squirrel cage bars 23 tra- pouring the notches of the rotor and fixed in the end rings 24 of the squirrel cage.



   The rotor is rigidly fixed to the shaft 2, being locked in position by one. nut 25 and. a threaded flywheel 26, the latter also comprising a locking screw 27 bearing against the shaft 2,
The core- 20 of the stator is composed of superimposed soft iron sheets and notched 28 (precautions must be taken to ensure a good insulation between the TVs) and this core is provided with the unbalanced winding 29 having

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 take care to ensure good isolation between this euoa:

  .leL¯efat and stator core *
The upper bearing 15 is lubricated by the
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 annular oil cavity 3 provided with an oil wick 31, the cavity 30 being covered by a burr of the other
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 la and by a cover 33. Q, uEl1d the shaft is fine, the oil of the wick 31 passes through the channel 34 to the shaft 2 and through the channel 35 in an annular recess 36. When the shaft is
 EMI22.4
 in movement, it causes the oil to rise in the spirunt pe.i <the helical groove 37 of the bearing 15 .. thus ensure the lubrication of the bearing.

   The discoid flywheel 36 prevents the oil from falling on the rotor or stator, so that the oil likely to fall out of the recess 36 on the flywheel 26 is thrown by the latter by the centrifugal force, so that ' it passes around the upper part of the box 17 and returns to the recess 36.

   As a result, any oil liable to flow out of the recess 36 will be returned by the flywheel 26 into this recess *
The lower bearing 16 is lubricated by oil cavities such as 38 arranged in any number
 EMI22.5
 suitable around the crbre and .r = ies oil waste 39 '11.: i deliver oil to the ar br e p Gr of cu - :: nu :: such as 40-. the stop ring 18 is lubricated by drill bits
 EMI22.6
 3g who deliver the oil by caneu.:., He at this bajne- Dsns le fi. 7 the coil 1 including the wire. must be twisted, is mounted on the driving shaft V, and is surrounded by a casing fi :: e 3 of cylindrical shape and where the diameter is a little larger than that of the, bo-: '; The 2 ::: there.



  Envelope 3 has a 4 in. Vertical slit -.:. ' : f & .cili ter threading the thread before starting. L'srbre l: lot ... # s' 1 element. 7th above 0 :: sus Ge the coil and cois titled the winding spindle .. 'shaft; and the spool of wire are severed at. the desired speed by a belt 5 passing on: .ne nut

 <Desc / Clms Page number 23>

 
6.

   Leaving the outside of the spool, the thread curls more or less outwardly to (or towards) the inner wall of the fixed cylindrical casing 3, then passes over the upper extension of the coil. tree. 2 around which it makes a few turns, then comes to rest against the disc or deflector? adjustable on the shaft
2 and finally arrives at the fixed wire guide. 8 places * 'centrally above the shaft 2 and hence it. continues its movement towards 11 winding member (not shown)
The yarn bends outwards by passing from the deflector 7 to the yarn guide 8 and it is possible to adjust the height of the balloon Lient thus obtained by,

   adjusting the position of the disc 7 on the spindle this adjustment being a convenient and easy way to change the tension according to the needs of the twisting yarn and to avoid the formation of / @@
Leaving the fixed wire guide 8, the wire passes to a winding member of any suitable shape; this member can advantageously receive the same form as that - shown in figs., 4 and 5 / a reciprocating yarn guide placed between the yarn guide 8 and the winding member as shown in the figs. 4 and 5.



   The apparatus shown in fig. 8 is analogous to that of fig. 7 but does not include a casing around the coil of FIG. This coil / is actuated by the shaft 2 in the same way as in fig. 7 and the parts of fig. 8 which correspond to those of FIG. 7 were designated by the same numbers.

   The thread bends outward to a greater or lesser extent from the outside of the spool 1, passes over the upper extension of the pin 2 around which it winds a few turns.! comes to rest against the disc or deflector 7 mounted in an adjustable manner on the spindle and ar-

 <Desc / Clms Page number 24>

 edge to the fixed wire guide placed centrally above this spindle and from where. it continues its movement towards the winding member (not shown). Retort in fig.

   7 the thread curls outwards from the. deflector 7 to the fixed thread guide 8 and the height of the balloon obtained can be adjusted by adjusting the position of the disc 7 on the spindle 2, this adjustment provides a convenient and easy way to modify the tension depending on the needs of the current thread. torsion and to prevent the formation of /
Leaving the wire guide 8 the wire arrives at a winding device of any suitable construction, preferably of the same type as that shown in FIGS.

   4 and $ and comprising a reciprocating wire guide placed between the wire guide and the organ on which the wire is wound.



   With regard to the apparatus of fig. 8 it will be noticed that when high speeds are explained for the spool of wire and the spindle in order to produce high degrees of twist, the ratio between the diameter of the spool and that of the spindle where the wire winds a few turns around that spindle is important in that if the spool is too large in diameter compared to that of the spindle there, the wire tends to exit the spindle and curl directly from the outside of the spool to the Thread Guide 8, It has been found desirable., when use is made of an apparatus thus established for (high speeds, to employ for example for a spindle 9.5 m / m in diameter (at the place around which the wire winds a few turns)

   a coil of wire not having more than about 38m / m in diameter.



   It goes without saying that in the practice of the present invention, when high or very high speeds are applied to produce high or very high degrees of twist, care must be taken to balance.

 <Desc / Clms Page number 25>

 mechanically to a high degree of accuracy the supports of spools of wire spindles or other parts of the apparatus rotating at high or very high speeds.



   It will be noted that in the twisting of yarns or threads according to the process which is the object of this invention, the degree of twist imparted to the thread is determined by the speed of rotation of the spool of thread with respect to that at which the wire is unwound from the rotating spool of wire and the winding member will be operated at a lower speed, and usually at a much lower circumferential speed. than the rotational speed of the wire spool.


    

Claims (1)

ABSTRACT. 1 .. A process for the production of twisted yarns or threads, and especially extremely twisted or crimped yarns, this process comprising unwinding the threads from spools or masses of yarn / (hereinafter referred to as "spools") in such a manner that, in its passage from the rotating spool to the winding member, the yarn or thread (hereinafter referred to as "thread") forms a loop or is wound a few turns around a rotating vertical rod or spindle (called hereinafter "winding pin") disp-osée along the axis and / above the coil and goes from there to one. p'oint -or. guide (preferably fixed) located above the winding spindle and preferably along its axis, the winding spindle receiving, a rotational movement preferably at the same speed or at a slower speed than the spool of wire. This process can, moreover, be characterized by the following points, together or separately: a) The thread is unwound either from the inside or from the outside of the spool. b) The wire unwound from the inside of a spool is inserted into a box, bowl or equivalent rotating support which receives a rotational movement with the spool at the i <Desc / Clms Page number 26> EMI26.1 desired speed, the winding spindle rises through the reel but has a certain distance from the internal surface of this reel and being preferable: It is attached to or coupled to the cuvette or other rotating support. c) When the wire is unwound from the outside of the spool, the spool receives a rotational movement inside a casing of greater diameter than this spool. this envelope being either fixed or coupled to EMI26.2 the shaft or other support in tr aine filen t of the reel, so as to participate in its movement, either stationary. ei) The wire can still be unwound from the outside of a spool / not having a casing e: e :: ze "e) The winding member consists of a EMI26.3 coil tube etoe + actuated by the friction of a cup or drive roller bearing against the layer of wire wound on this member. EMI26.4 : rl The wire receives a reciprocating movement on the winding device, by e: asscr3le using a reciprocating wire guide or equivalent member placed between said device and the point or guide located above the winding spindle EMI26.5 g) A deflector member, of discoid, spherical or other form, is mounted (preferably in a controlled manner) on the Elent Winder / some distance above the spool of wire *. h) The tree or other part of it: ':': 8;: - J ,; C.8 le ;; 0 "- bine of wire> at the rotating support of this reel are actuated by the electric device f1iEi ± t jl 'O'5jCt of the Belgian patent relating to filing 2.j: 7 to 4. : t7 the winding spindle being preexed ±, JleL16 - C solic.2¯e either from the shaft or other drive member of the reel, or from the rotary support. EMI26.6 2 The application of the specified SOL1B 1 process to the <Desc / Clms Page number 27> twisting of yarns or threads composed of filaments or fibers of artificial silk of cellulose acetate or others 3. An apparatus for carrying out the following method 1; this apparatus being characterized by the fact that it comprises a shaft or drive member serving to rotate a spool of wire around a vertical axis. a rotatable winding spindle disposed sucking the axis of the shaft or drive member and fixed or coupled to the shaft or member or actuated independently of said shaft or member, means for actuating the shaft or member of drive and the winding spindle, a winding device receiving the unwound wire and means for actuating this device; this apparatus further being characterized by the following points, together or separately ta) The rotating winding spindle is integral or integrally with the drive shaft of the spool or is fixed or coupled with a support receiving this coil, b) The coil is supported by a boot ,. bowl or equivalent support arranged vertically and driven by a rotational movement, and the winding spindle is arranged along the axis of this support and is either fixed or coupled to said supporta or actuated independently of said supports c) The spool of wire is surrounded by a rotating cup, boot or casing having a cylindrical or substantially cylindrical inner surface conoentrically surrounding the shaft which supports the spool, and this cup or casing is fixed or coupled to said shaft, or operated independently said shafts a means being provided to actuate the shaft, the rotary cup or casing and the winding spindle d) The bowl or envelope surrounding the coil can be fixed * instead of rotating, <Desc / Clms Page number 28> e) The winding spindle is integral with the drive shaft or is integral with this shaft. f) A thread guide is located above and preferably along the axis of the winding spindle. g) The wire delivered to the winding device receives a back and forth movement of a thread guide driven in a back and forth movement. h) A deflector member, of discord shape, spherical or otherwise, is preferably adapted in an adjustable manner, to the winding spindle .... 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