BE626949A - - Google Patents

Description

       

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  "PROCESS AND MACHINE FOR THE MANUFACTURING
ARTICLES OF HOSPITALITY AND ARTICLES OBTAINED BY THIS PROCESS ".-

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The present invention relates to knitting machines as well as to a method of tri-stitching and the products obtained, and in particular relates to the closing of "eyelets" usually formed when an auxiliary yarn is introduced or removed in two-way knitting operations. - tions.



   Unless special precautions are taken, the ends of the yarn resulting from the introduction or removal of an auxiliary yarn for the change from knitting to a two-feed knitting feed slip through the loops and leave larger mesh sizes leaving a scallop-like defect which may be called an "eyelet" which defects are undesirable in an article. It is recognized that in order to avoid this escape of the free ends of the wire, these ends should be anchored.

   But as with both cutting and starting, there are no simple ways to ensure proper anchoring of the ends of the wire, and attempts to achieve this have usually consisted of interlacing ("interla - five ") the ends, to carry out a reverse knitting (" reverse knitting ") these ends, or a tuck knitting (" knitting-in ") under conditions according to which the probability plays a part in a direction such as l The operation is uncertain, for example from the sliding of the ends of the yarn through the needles by the action of locking valves, or the like.

   The difficulty of ensuring reliable operation increases when using very fine yarns such as those used in the manufacture of very light women's hosiery.

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  Considering the problem posed concerning the prevention of the formation of the eyelets from a theoretical point of view, it is immediately obvious that the execution of a positive tying of the free end of a thread is impracticable in a knitting machine comprising only conventional elements. The formation of real knots is out of the question.
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  Due to the nature of knitted fabrics itself, the yarns passing through the loops theoretically tend to come back through it by pulling the ex- free t7: 6 :: 11 tee / dU yarn inwards. . Main by considering the friction, it is recognized that the braking action against this sliding is greatly increased when the end of a wire undergoing such an action must pass through a greater number of sinuosities;

  . such as those presented by the loops of the piece of hosiery, the friction being greater at each sinuosi-
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 te insofar as the sinuosity represents an angle, of greater deviation relative to a straight passage, Consideration of the entanglement shows that the deviations an-
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 gulars go weak, and consequently dull, when the entanglement is developed over a large number of columns, the slipping of the thread can take place quite easily. On the other hand, if the end of the yarn is incorporated directly into the loops formed by the main or base yarn of the fabric,
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 the number of sinuosities and anchors through which the thread passes for a given number of columns of stitches is greatly increased and slippage is fairly effectively avoided.

   It is obviously desirable, in order to avoid an unpleasant appearance, that
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 the blocking action against sliding lJoi1asaurée on a development, as small as possible in the direction of the row of stitches. Obtaining the desired result has presented many difficulties from the standpoint of wire handling and from the standpoint of operational certainty.
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 In addition, it is usually necessary so far to provide

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 quite different operations for this purpose for the iner- tion of the wire and aon removal.



   According to the present invention, it is possible. ble, with minimal modifications to the construction of a conventional machine to obtain a very secure anchoring of the ends of the wire, this being done, moreover, in an almost identical fashion for the introduction or removal of the wire. 'a wire; at least the same elements are involved.

   In addition, according to the invention, the fixing of the ends of the wire is effected on only a reduced number of columns of mail. them, the fixation being complete and entirely safe if only three columns of nails are involved in the operation,
As a result, this special mesh construction is practically invisible in the fabric. Maximum sliding frictional resistance is established per stitch column, with the ends of the yarn incorporated directly into the full stitches.



   The general aim of the invention is to obtain the results which have just been indicated. This purpose, as well as other buta and features relating to constructional and operational details, will result from the following non-limiting examples described with reference to the accompanying drawings in which:

     - Figure 1 is a developed view of the control cams for the pushers and needles, and other elements used in accordance with the invention, only being shown and described below the elements taking part in the operation in accordance with the invention, other elements being omitted or shown schematically, different elements rotating with the needle cylinder also being shown to the right of this figure; - Figure 2 have a partial section along line 2-2 of Figure 1;

   

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 - Figure 3 is a plan view of the support of
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 plates of the machine, with do parts otipprimdof% to show Ion I) lttJlUIJ du ('1) / l1 "11I1I, 10 ann 1'1.1.1;: 1 h" / I - lu .t'i!: lIj' Fig. 4 is a cross section of Fig. 3 showing the operation in the case of a normal stage; - flower 5 had a section similar to that of figure 4 for the special plutinen water in pairs,
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 - Figure 6 is a d :! uf .; ramf.1c showing the arrangement of the heels of needles and also of heels of the drawing pushers;

   - Figure 7 is a schematic representation
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 of a mesh utructuru of a stocking with double feed h the location of the opproasion of an auxiliary wire, the diagram showing the bottom of the inner side; - Figure 8 is a view similar to Figure 6,
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 but showing the formation of the stitches ex the introduction of the auxiliary yarn; - Figure 9 is a partial elevational view showing the cam control device; and - Figure 10 is the plan view of the part shown in Figure 9.



   As will become evident, the invention finds its application whenever it is to be expected.
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 the closure or e'tpCohemcn- ;: forming an "eyelet" or inappropriate day the transition of a certain number of feeds to a different number of feeds, but for the sake of simplification of the description, this will be referred to the case of a transition between a single feed and a double knitting feed, this case being the most important from an industrial point of view,
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 The fiuft- 1 represents, on the right, a conventional needle 2 comprising a heel 4, a needle bed 6 comprising

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 grooves for the needles, in which move
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 the needles, an intermediate key 8, and a Dlavotte fui leonine 10, the 1'0U ± h,

  oirn being nltuéo dino 1. "groove of the cylinder, in deuuouo of the corresponding Djgu111. He Dora assumed, for the purposes of description, that the sprain rotates and performs its reciprocating movements in the classical way, although it is obvious that the The invention also finds its application in the case of a machine in which the needle bed is stationary and the control cams are rotated.
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 cloud and undergo the reciprocating motion. The heels 4 of the needles are differentiated in length as will emerge in more detail below.

   Patterned clairettes are generally finished and have selectively removable stubs 12 and internal stubs 14 which aid in forming the patterns in a conventional manner. 16 heels are provided on some
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 keys as indicated below and do not participate in the operation to which the present invention relates. Each pattern key 10 is of the usual pivoting type with an articulation point 18.



   The plates 20 cooperate with the needles in the usual way, all the plates being conventional, except four of these plates which are special and will be described in detail later.



   The cam device of the machine, apart from a few minor modifications, is conventional and does not need to be described in all detail. It will be noted that
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 as the machine is arranged for the manufacture of hosiery, it comprises the usual weaving devices, and conventional control means controlling the rotation.
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 and the selective alternative movements of the bedding. Said mesh size adjusting devices

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 are also used.

   Considering now the elements making it possible to reach the ends aimed at by the invention, the usual recoil cam is shown at 22, and it serves conventionally for disengaging the loops from the hooks of the needles during rotary knitting. and the strokes of the reciprocating motion, the needle bed rotating counterclockwise so that the needles run from right to left in Fig. 1. The usual central cam 24 followed by the cam main chute 26. This cam is radially movable, and is conventional except for a groove 28 located transversely in the horizontal direction above the lowest point of the drop cam. This groove is more particularly visible in Figure 2.

   The groove is at a level between the picking level and the lowest level reached by the needles. As will appear below, only the top wall of the groove 28 acts, and hence the bottom wall can be removed to the lowest point of the drop cam leaving only the single edge on the cam which corresponds to the top wall of the groove.



   Cams 30 and 32 cause the needles to rise when past drop cam 26, cam 32 raising the needles to plucking height. For the auxiliary supply, there are drop canes 34 and 36 arranged to lower the needles.

   Beyond the cam 36 is a cane 38 which raises the needles to the level of ceuillage. A cam 40 is placed so as to act on the heels 16 of the keys à (leonine, this cam being followed by a cam 41 which acts on the heels of the intermediate keys 8 to cause the lowering of both the intermediate keys * .! and keys with drawing * Various other cams are shown in figure 1,

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 but aisle are entirely classic, participating in the formation of the design and the formation of the heel and the toe of the arti-! key, and these canes do not need to be described.



   The main feed point of the machine is generally indicated at 42, and in the usual way, yarn throwing fingers are provided at this active main feed point, only the active finger 44 which feeds the yarn. the main yarn M was used in the two-feed knitting of the lower leg and foot. This thread, as is usual, passes through the needles from opening 46 of the thread holder unit. The secondary feed point is generally indicated at 48 and shows the active yarn throwing finger 50 for the secondary yarn A which is used to form the middle rows of the leg and the foot, this yarn passing through the legs. needles from opening 52.

   Conventional locking and cutting means are of course provided to hold and cut the threads at the two feed points,
Continuing the description of the components of the machine, one can see in FIG. 3 the crown of the plates 54 placed above the usual dial of the plates and which carries the cams to act on the plates with a view to their radial movements. the cams of the plates are generally conventional and need not be described, except as regards the special plates used for the implementation of the invention. Beyond the position of alignment of the meshes with the main feed, there is the cam 56 which can act on the heels of the plates, the conventional cam indicated at 58 limiting the inward movement of the plates.

   This blade, in accordance with the invention comprises a cleared part 60 allowing special inward movements of the special plates described below.



   A slide 62 mounted in a groove of the oouron-

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 One of the endplates which can be moved radially comprises an inner part forming a cam 64. Its outer end bent downwards 70 is tapped to receive a stop screw 72 which can bear on part 55 of the crown.
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 to limit the stroke, if life is blocked hay regulated by a lock nut 74 * The slider 62 is moved inward when the chute cam 26 is moved outward - to achieve the results described below. after.

   The mechanism having this function is described below. The usual spring band 76 serves to return the plates radially towards the reverse.
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 back of litgon élan M que.



   The fiuro 4 represents a conventional plate 20 which typically represents all the plates of the machine except the four special plates 20 '. Each of the 20 oom-
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 wears the born 78 protruding above the shoulder 80 etix which are drawn the stitches. A vertical shoulder 82 is located behind nose 78 at a reduced distance therefrom, as it will protrude further. Each plate has a control lever 84 on the cam 56 and the cam. plate is not brought back to llln4..rieur by the spring 76, the heel! usually bearing on cume 58.



  Figure 5 r: pro. nte one of the special plate 201 * the plate 20 'has the nose 86 and the shoulder 88 in the same way as the normal tramline 20. On the other hand, the plate' has a '' pauluEtcnt 90 in -rrlre of the nose 86 on which comes, act the c; sr; xa 64 to norurate the special wouvu -cnt towards the interior of the plutinoo 20 '* 11 eeras note that the distance of the shoulder 90 in relation to the ne: :

       86 is greater than the distance of
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 the shoulder 82 compared to the nose 78 of a normal plate $ 20 'The heel 92 of each special plate 20' is short
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 so as to be able to pass, coratie we see in figure 5 we

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 the outer edge of cam 58 in clearance 60.



  As we will see later, the loops are plunged into the main power supply on the shoulders 80 of the classic plates in the usual way, the operation being the same on the shoulders 88 of the special plates, except at the positions. for which the closing of the eyelet takes place.



   Conventional cams, not shown, involve both types of plates the usual oscillating movement at the secondary feed point to ensure the elongation of meshes on the shoulders 80 and 88 of the plates.



     The arrangement of the heels 4 of the needles is illustrated in figure 6.



   The needle arrangement may be entirely conventional for the usual functions of forming the heel and toe and other parts of a stocking, and special arrangements are used only in the needle set for forming the stocking. low heel with short heels. This set includes the groups of needles indicated at 94, 96, 98, 100 and 102 of Figure 6 for which the heel lengths are shown in a diagram.

   For example the needles of group 94 can have deo heels of 6.096 mm, those of groups 96 and 100 of heels of 5.334 mm and those of groups 98 and 102 of heels of 6.858 mm, these values being of course entirely arbitrary. but showing the ratios of heel lengths, the needles of groups 96 and 100 having the shortest heels, the needles of group 94 of heels of an intermediate length and those of groups 98 and 102 the shortest heels. long of the stocking heel training series, all of these needle heels being shorter than those of other machine needles.



   The arrangement of the groups is quite arbitrary As we will see, the needles of group 96 form pro stitches.

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 This requires secondary yarn anchoring to avoid eyelets, and these needles desirably follow an aubstantial group of needles 94. For the purposes of the present invention, it suffices that there be only a small number of needles. needles in group 96, and it has been found very satisfactory to use only three needles in this group although only two needles can provide substantial anchorage. It will be accepted from the following that three needles are used in this group.



   The angular development of group 98 is also arbitrary. Group 100 spines (also as many as three 'desirably) anchor the end of the wire to, insert the secondary feed wire, and are positioned so as to produce double miles. at the desired point behind the bottom heel. However, it is possible to use only a single group of needles, for example at 96, to ensure the anchoring of the end of the thread both when removing and inserting the secondary thread. The needle group 102 completes the bottom heel forming group.



   Retort can also be seen in FIG. 6, the keys 10 having heels 16 are associated only with the needles of groups 94 and 102. the design keys associated with all the other needles may not include heels 16 in so far as where the operation relates to the present invention. However, in these positions the heels can be provided (and at different lengths if desired) for other purposes on other keys. The special 20 'plates are only associated with the hands of groups 96 and 100.



  Only two of these special 20 'plates are used in each case, framing the middle needle or the middle needle trusses of the group,

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The mechanism for moving the drop cam 26 and the slide 62 is shown in Figures 9 and 10. The main cam drum 110 of the machine carries cams 112, only one of which is shown, this cam acting on a push rod 114 urged downwards by a spring 115, the push rod included a buttonhole at its upper end for the passage of a stud 116 fixed to a branch of a return lever 118 which can pivot around a journal 119. A spring 120 recalls the return lever in a counterclockwise direction with respect to FIG. 9.

   The lower arm of the return lever is connected by a link 122 to the point 124 of a movable cam-holder section 126 which pivots on an adjustable eccentric pin 128. The cam-holder section 126 carries a cam 26 which can effectively receive a substantial radial displacement relative to the needle bed 6 due to the considerable development of the section 126. An adjustable stopper 130 serves to limit the output movement of the cam 126.



   The upper end of the push rod 114 is arranged to bear on the lever 132 which can pivot on the shaft 119 independently of the return lever 118. A cam 134 is adjustably mounted on the lever 132 to bear on the. end of a push rod 136 biased outwardly by a spring 138. A leaf spring 140 normally maintains the slides 62 in the position where the cam 64 is retracted.



   It is evident from the foregoing that when the cam 112 raises the push rod 114, an action which is transient during one step of the main cam drum, the return lever 118 swings to release the drop cam. 26, while at the same time the push rod or piston 136 is pushed inwards to bring the cam 64 into the working position, this

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 movement taking place in opposition to the action of the spring 140. The operation corresponding to the disengagement of the secondary feed wire, A is described below.

   Usually, this degiteeinunt is removed at the beginning of the single feed knitting of a stocking heel and before the single feed knitting of the end of the strand, Jualu it must be removed-o noted that the undercut can aazcrzrrzex 'rn, n7r $ "xa what u'.n'iition do'kiir6o from a knitting on 'double magnetization to a knitting in almpls.



   Figure 7 shows the progression of knitting the bae 'upwards with the needles and the corresponding loops of the article which can be considered as going from right to left during the rotary knitting, as is also the case considered in figure 1 , the rotation taking place in the reverse direction of clockwise relative to FIG. 6, the two lower rows shown being successively tri-cotered with the main thread M and the secondary thread A during the last turn proceeding that during from which the change
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 wire takes place.

   Leo rows C1 and 021 as they appear-: shown on the left in figure 7, are parts of the last
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 rotary knitting process involving the removal of the resulting yarn at the start of the bottom heel.



   Considering this pass, it is now done
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 reference princlpulocitnt to Figures 1 and 3, and where applicable to other figures.



   The passage of needles of group 94 can be con
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 Stunned first, in c4: a dxant for neck needles the last columns 94 'formed by the trailing needles of these groups.
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  The loops are metered by the hooks of the needles of group 94 at the proi; rz; e on the return cream 22 and are lowered to the level of the plucked in the manner indicated at a point below the central cam 24. The needles can then be

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 lowered by the oame 26 to salt the yarn M at the main feed point, after which * 'they are lowered to the lowest level of mesh elongation c.

   While the needles of this group are passing and the cam 26 is acting on them, the cam is slightly disengaged so that the heels of the needles 96 then pass through the groove 28, this disengagement taking place in a conventional manner. under the control of the machine's main cam drum * However, the clearance is not sufficient to allow the needles of group 94 to pass through groove 28, so that all needles of this group pass through the ex - lower end of cam 26,

     in ± * The needles of group 94 are then raised by cam 30 as far as path d- and are again raised to the level of ceuillage by cam 32.



  When the heels 16 of the corresponding keys reach the active location of the cam 40, they are raised by this cam so that the heels of the needles follow the path e up to the level of release of the valves so that the loops formed by the thread main supply M fall below the valves. During the passage through the cam 33, the latter is released so that the loops are not released from the hooks of the following needles as long as the secondary power supply is still active. The cam 33 was hitherto in action to cause the normal disengagement of the hooks of the needles which are not associated with the keys carrying the heels 16.



   When the loops have been released from the needles of group 94, these are pushed back successively by the cam 34 and then by the cam of the chute 36 to follow the course g during which they grip the secondary thread A to form loops with the latter, breaking down the loops previously formed at the main feed point. Then, they are raised to the level of picking on the course

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 It by the cam 384 ï * The preceding action results in continuation of the knitting with two feeds in the rows ci and 0 ,, for the columns 94 'During the preceding operations, the normal plates 20 associated with these needles have followed their classic course.

   K8ae if the cam 64 is moved inward ai-; simultaneously with the i; a, ezc: nt of the fall cam 26, as has been described, the noraales plates 20 are not actuated for this reason un. *, tLI-2on from the inward position of the epitulem ; nta b2 of the plue1-inuu.



  The needles :! of -roupe 96 follow the same par-
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 course that the ni, keel of group 94 their hooks being disengaged; g6o den loops by the cam 22y let needles being retracted by the cam 24 the Ion ,; of the course. These needles are partially retracted by the cam 26 Bais due to its ddaa,. * Emtint, known it has been indicated, they are not entirely retracted by this cam but pass the length of the course through the groove 28, the level being determined by the upper wall of this groove.

   Passing us
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 the caxte 26, ellou receive the main feed wire 111, However, due to the 7.'s: ac.ïst.oT of these needles, with the pl .., ttinu; npecialon $ 201 the manipulation of the wire takes place by a special action. As already noted, when the cam 26 is released to allow the needles of group 96 to pass into the grooves 28, the cam 64 of the slider 62 is moved inward.

   This results in a premature action in the movement of the special 20 'plates by
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 the engagement of the shoulder 50 of these plates in contrast to the normal inward movement of the plates due to the cam 56, this last movement only taking place when the wire has been pulled over the shoulder 80.

   The premature inner movement of special turntables brought their noses 86
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 art'.irunrcatt v the init'riou! * Ion opppheta de ftlf ulll 8 de

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 so that the main thread M is drawn at the decrease of the ends of the special plates, which carries out A measurement of the thread and the consecutive stretching of the loops to a dimension Buffalo animate large to avoid the subsequent breakage * This premature movement towards the The inside of the plates 20 'is allowed by the fact of the short steps 92 which engage in the open part 60 of the cane 58.



   The pulling of the main thread on the top of the noses of the turntables allows the needles of group 96 to be lowered only to level II which, as can be seen in figure 1, is between the picking level and the normal drawing level of the loop. Due to the limited downward movement of the needles 96, the loops of the secondary thread which they carry under their valves are not pulled down.



   The needles of group 96 then join the course of the needles of the preceding group 94 at d and they are raised to the picking level by the cam 32. link loops of the main thread carried by the needles 96 are not released. needles following path f in front of spaced release cam 33. group 96 needles now carry main thread M over their flaps and pick up secondary thread A as they pass under cam 36 along of the course g. They are then raised to the level of picking by the cam 38 to follow the path h.



   It is evident from the above description that as the needles of group 96 have not been released from their loops, they will form combined stitches with both the main thread and the secondary thread passing through cam 36, by cutting down the points previously formed with the secondary thread A held on their rods and not brought down to the cam 26, that is to say the points formed by the previous complete pass with the secondary thread. This results in the formation of the doubled bou @ les with at the liver the main thread.

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 pal and the secondary wire as seen in Zl, 2 and Bzz in figure 7.

   The finger 50 of the secondary thread is raised so that it is no longer in action by the usual controls immediately after the last of the needles 96 has received the secondary thread.



   The needles of the group 98 August cleared on the cam
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 return 22 and are then lowered by the cajn43cn * rae 24 and the ohute cam 26, being fully lowered by the latter, gripping the main thread M and pulling down the loops of the secondary thread of the previous row. The thread change is desirably made near the beginning of the needles in this group, and as seen in Figure 7,
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 the heel thread do b4U indicated at M 'is introduced on the third needle of the group, the first two stitches L4 and L5 being in leg thread and then point L6 and a few stitches
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 The following are formed from both thread t and thread 14 'to provide the usual overlap, with leg thread M being inter-. continued withdrawn.



   By following the course of the needles, the needles of group 9b are then raised successively by the
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 cams 30 and 32 at the picking level, The cam; 6 can act on a small number of the first needles of this group and
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 lower them, mti :: 3 this cam thought released during the passage of this croup of needles and the following pass in front of the
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 cam ot leather the cam of the picking level.

   It can be noted that the lowering of some of these needles by the cam 36 has no effect, as the secondary wire A is withdrawn.
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 ilJ1Itédiah!: 1ent o.pr6 the papuage of needles 96, and even if * * #; the needled deo crocheta not engaged on the thread, this one will not be pulled to form dec: 1lailleo because there is no loop at this time cn-desHOUs deu valves, the release of the main thread., drowning not yet taken place.

   In general, except in '

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   case of accidental complication, which ventilated without annoying consequence, the secondary A ventilated free after its final incorporation in the L3 loop.



   During the passage of the needles of group 98 in front of the drop cam 26, the latter is returned to its fully internal position, and simultaneously the cam 64 is moved radially outwards, to its Inactive position. continuation, evident that the needles of group 100 will follow the same course as that of group 98, seizing the thread M 'and leaving the left end of the figure
1 at the picking level after passing without effect through the secondary feed point. The same condition is valid for the stings of.-Troop 102.

   The release cam 40 is made inactive for release when the needles of group 98 pass in front of it, so that no release of the needles 102 takes place when these needles and their associated keys having heels 16 pass through the position of the needle. cam 40. As will be seen below, the keys comprising heels 16 and which are associated with needles 102 serve a purpose described later.



   It is evident from what has just been said that the cams are now arranged to produce a single feed knit at the main feed point on all needles. If the operations which have just been described are included in the process of starting the heel, the needles of the instep are of course raised in the inactive position in a conventional manner and the following row / '. To be knitted will be the first of the reversed row, knitted on the heel needles, during the reciprocating movement.



   Row C3 shown in FIG. 7 will therefore be knitted in the reverse order.



   However, if the transition from two-feed knitting to one-feed knitting takes place at the start of the

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 bottom end in a ring with a change to larger yarn, all the needles will remain active for several rounds of rotary knitting, and therefore row C3 shown in flower 7 will represent a feed of loops formed by rotary knitting, the operation corresponding to the change from single-feed knitting to two-feed knitting is now described with particular reference to the figure,

   8 which shows what takes place assuming for the purposes of description that the two-feed knitting of the foot is resumed after the alternating single-feed knitting of the bottom heel.



   Row 0. represents the last row of the heel! bottom made with the heel thread M 'during the reverse stroke of the reciprocating movement. shows the first round of rotary knitting using leg yarn M, assuming that a conventional yarn change has been made at the main feed point before reaching the part of the fabric shown in the figure.



   At the start of row Ce formation, the cams will be in positions suitable for conventional rotary single feed knitting. During the passage of the needles of groups 4 and 96, cam 26 is in its innermost position so that the needles of group 96 act normally to form stitches at the main feed point. Cam 33 remains inactive.

   The cam 36 is brought against the heels of the needles of group 94 but does not act on these nor on the short heels of the needles of group 96, but it is thus prepared to act on the heels of the needles of group 98 , during the passage of which it passes into its completely interior position.

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   The special operations take place during the passage of the needles of group 98. These needles, which have been released from the loops on the cam 22, are lowered by the cams 24 and 26 to draw the stitches of the main feed wire M. During the passage of the needles 98, the cam 26 is pulled outwards prior to its called action on the needles of group 100. The needles of group 98 rise to the picking level on cams 30 and 32, escaping. cam 33 and are again lowered by cam 36 which, as has just been indicated, has been moved inward to act on their heels which are longer than the stiletto heels of group 94.

   This action is however an action ineffective at this moment, the needles of the group 98 being again raised to the level of the picking by the cam 38. When the needles of the group 98 pass through the position of the cane 40, this cam is brought in. its active position to act on the following heels 16 deo patterned keys associated with the needles of group 102.



   The secondary thread A is introduced before passing through the secondary feed point of the group 98 trailing needles. However, this insortion is ineffective with regard to these needles, because they have already formed the stitches with the thread D. main power and have not been released.



   The needles of group 100, released on the cam 22, are lowered by the central cam 24 and then by the drop cam 28. The action of the drop cam has already been described, and these needles are not fully lowered and grab the main wire which is pulled over the noses of the 20 'plates to size the loops. These stages perform their premature internal movement as described above, because cam 64 is now active, which

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   happened when the drop cam 26 was partially de-
 EMI21.1
 pledged.

   The action conaiutu by fired in the draw of the main fxll in a loop, main O (.tJ11;} ending of the stitches the bolts wornwn pur lutt ali; u11J on n ', tllnt not felled The a1- leuillum tjldlbvf.4nt uanuitf at the level of flocks on the cam 32 and follow the path fi the cam 33 still being uninvited, and it comes back to the. drop cam of the secondary feed point 36 to be abfjlcadea along the path g, to grab the secondary thread which is then with the main thread in the hooks of the needles. When the needles reach the bottom of the cam 36, the stitches comprising the main thread and the secondary thread are formed
 EMI21.2
 in L8p Lq and Lio dana leu columns âb mesh 1001 # figure u.

   Oeu ma1l1eo uont tireuu nur the epaulamunta don turntables.



  20 'which following the wavy p.i'rcoura of a!) Normal p.atine <* n passing through the secondary supply poiht The spouts of group 100 are then raised by cam 38 at the level of picking h.
 EMI21.3
 



  The Hxfj; uillen clu group 102 are released on the cam 22, by the cam <! 4 and lowered torque "mentally by the cam 26 to pull the stitches of the main thread M, by cutting their loop previously held on these ai-
 EMI21.4
 guilles. iCllep r.oni: I1ultc lifted at the lifting level on cams' 30 and 32 and not raised to the hook clearance level:.: de.) our travel e, by the action of the ca ,,,. e 40 on the tilonl 16 of euro "lavettea with associated drawing. When this. Diuil1u aldlèvunt on the course 0, the .. der.cameraonvnt 33 this' .ende ei position of action to act then Kur all their needles for the deco. (: normal item of loura crocheta during the knitting two feeds followed.

   Ler. nic.uilletj of group 102 are then lowered from the to, /. "J.tt H, d,;, by the" umlJ 36 to enter the

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 auxiliary yarn A and forming the stitches, then being raised to the picking level by cam 38. It is easy to see that the arrangement is now that required for normal two-feed knitting, cam 26 having returned to position. fully internal position immediately after passing in front of this cam two needles of group 100, The flow of knitting with two feeds is indicated at C'5 and at C "5 in figure 8. The following rows!:! with two feeds are indicated in C6 and C7.



   It is now evident that in the case of both removal and insertion of the secondary thread, the latter is incorporated at the same time as the main thread in the complete stitches. As already indicated, this inoorpo- ration need not exceed three meshes to ensure a secure frictional retention due to the silky configuration, so that the slippage which may produce defects called eyelets is rendered. practically impossible. the stresses applied to the fabric find a frictional opposition to such an extent that the secondary yarn is substantially secured without any substantial movement which could widen the stitch.

   All this is achieved with a very low strain of the stitches compared to their normal shape, practically invisible, in fact without deformation compared to normal stitches other than that involved in a change of ordinary overlapping yarn as seen on the line of Fig. 7. Further, as will be evident, this is done with only minimal modifications to the machine from its normal arrangement.

   Although the pulling of the main wire on the nose of the plates is highly desirable to maintain normal sized loops and to avoid any possibility of breakage, this is not necessary, particularly when the main wire is a type of moderate elasticity

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 cited.



   Although the invention has been described with respect to a particular example, two variants of construction and operation can be envisaged without departing from the scope of the invention.



   REVENDI CATIONS
1.- A process for the manufacture of articles of goodwill by circular knitting preventing the formation of defects called "eyelets" in the transitions between the zones knitted with different numbers of feeds, characterized in that ders stitches containing both a thread forming stitches in the soft areas and a thread forming stitches in one of the areas are formed in each of several columns of the Mallet! consecutive.


    

Claims (1)

2. A method according to claim 1, characterized in that the transition takes place from a first knitting zone: ge to a second consecutive knitting area involving knitting with a smaller number of feeds. 3. A method according to claim 1, characterized in that the transition takes place from a first knitting area to a second consecutive knitting area involving knitting with a plus number of feeds. 4.- A method according to claim 1, characterized in that the transition takes place from a first two-feed knitting area to a second consecutive one-feed knitting area * 3.- Method followed claim 1 , characterized in that the transition takes place from a first knitting zone with one feed to a second consecutive knitting zone with two feeds. 6.- A method according to claim 1, 'characterized in that the knitting is performed on a circular knitting machine comprising at least two feeds and three <Desc / Clms Page number 24> successive groups of needles, two of these groups flanking one. intermediate group, and during the same knitting pass the needles of one of the groups forming the frame gripping the yarn at only one of the two feeds and form stitches with a single yarn, the needles on the other of the framing groups grabbing the yarn at both feeds and forming single-yarn quails at each of the feeders and all adjacent needles in the intermediate group grab the yarns at both feeds and form stitches containing the two wires. 7. A method according to claim 6, characterized in that the needles of the framing group gripping the yarn at only one of the two feeds are the first to form the stitches during the knitting pass. 8. A method according to claim 6, characterized in that the needles of the framing group gripping the yarn at only one of the two feeds are the last to form the stitches during the knitting pase. 9. A circular knitting machine arranged for carrying out the process according to any one of claims 1 to 8, inclusive. 10. A circular knitting machine arranged for carrying out the process according to either of claims 6, 7 and 8, characterized in that all the adjacent needles forming the intermediate group grip the yarn at the end. one of the feed points and form loops with this thread without felling loops already held on the needles, then grab the thread at the other of the feed points and then pull the seized threads together through the loops already held on the needles to form stitches containing the soft threads. 11.- Circular knitting Madonna according to claim 10, characterized in that the loops are formed <Desc / Clms Page number 25> on the nose of the turntables. 12. - Circular knitting machine according to claim 10, characterized in that it comprises a Statue drop wedge which acts on the needles of the intermediate group. 13.- Circular knitted fabric obtained by the process followed one or the other of claims 1 to 8 inclusive.