GB2035390A - Machine for knitting a tubular fabric - Google Patents
Machine for knitting a tubular fabric Download PDFInfo
- Publication number
- GB2035390A GB2035390A GB7935009A GB7935009A GB2035390A GB 2035390 A GB2035390 A GB 2035390A GB 7935009 A GB7935009 A GB 7935009A GB 7935009 A GB7935009 A GB 7935009A GB 2035390 A GB2035390 A GB 2035390A
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- GB
- United Kingdom
- Prior art keywords
- shaft
- tube
- cylinder holder
- section
- cylinder
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
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- 239000004744 fabric Substances 0.000 title claims abstract description 29
- 238000009940 knitting Methods 0.000 title claims abstract description 18
- 238000004891 communication Methods 0.000 claims abstract description 9
- 230000008878 coupling Effects 0.000 claims description 8
- 238000010168 coupling process Methods 0.000 claims description 8
- 238000005859 coupling reaction Methods 0.000 claims description 8
- 230000013011 mating Effects 0.000 claims description 4
- 239000012530 fluid Substances 0.000 claims description 3
- 230000033001 locomotion Effects 0.000 description 24
- 238000004519 manufacturing process Methods 0.000 description 10
- 238000005520 cutting process Methods 0.000 description 6
- 238000012423 maintenance Methods 0.000 description 2
- 239000000047 product Substances 0.000 description 2
- 230000000284 resting effect Effects 0.000 description 2
- 239000002699 waste material Substances 0.000 description 2
- 241000826860 Trapezium Species 0.000 description 1
- 239000007795 chemical reaction product Substances 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000003247 decreasing effect Effects 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000002349 favourable effect Effects 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
Classifications
-
- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B9/00—Circular knitting machines with independently-movable needles
- D04B9/42—Circular knitting machines with independently-movable needles specially adapted for producing goods of particular configuration
- D04B9/46—Circular knitting machines with independently-movable needles specially adapted for producing goods of particular configuration stockings, or portions thereof
-
- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B15/00—Details of, or auxiliary devices incorporated in, weft knitting machines, restricted to machines of this kind
- D04B15/94—Driving-gear not otherwise provided for
Landscapes
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Knitting Machines (AREA)
Abstract
Machine for knitting a tubular fabric, in particular stocking articles, comprising a needle cylinder (80), a cylinder holder (7), a dial (14), suction and discharge ducts (24) for the produced tubular fabric and means (12, 13) for driving the cylinder holder. A shaft (34) extends coaxially through the needle cylinder (8) and the cylinder holder (7). A tube-like body (18) is mounted coaxially within the cylinder holder (7) wherewith it is rotatively rigid. The tube-like body (18) is displaceable axially in the cylinder holder (7) from a position whereat it is coupled directly to and made rotatively rigid with the shaft (34), to a position whereat it forms with the shaft (34) at least one annular passage for communication with the suction and discharge ducts (24) for the produced tubular fabric. A control member (31) is provided of essentially lever-like configuration for axially displacing the tube-like body (18). The needle cylinder may be allowed to continue to rotate while the dial is stationary to form a closed toe. <IMAGE>
Description
SPECIFICATION
Machine for knitting a tubular fabric
This invention relates to a machine for knitting a tubular fabric, in particular stocking articles, of the type which comprises a needle cylinder mounted coaxially to a cylinder holder, wherewith it rotates about a common vertical axis, a dial carried above the needle cylinder in a predetermined spaced-apart relationship therewith and set for rotation about said vertical axis, a tubular fabric intake and discharge duct in fluid conducting communication, on one side with the inside of said cylinder holder, and on the other side with a suction source, and means for powering the cylinder holder.To produce a tubular fabric on a machine of the aforesaid type (commonly referred to as a circular knitting machine), it is mandatory that the dial and needle cylinder rotate in preestablished timed or in-phase relationship to each other and maintain such timing throughout the production or knitting cycle.
Any undesired out-of-time, or out-of-phase, condition, however small, generally results in such plainly visible faults in the fabric as to require discarding of the end product.
In currently available circular knitting machines, the operational rotary movements of the needle cylinder and dial are derived from a common drive shaft. In general, whereas the rotation of the needle cylinder is obtained through a pair of bevel gears, one whereof is keyed to the drive shaft and the other to the cylinder holder, the rotation of the dial is derived from said drive shaft through a drive train having rigid component members and which extends to the machine outside and, which in most favorable of cases, includes at least three pairs of bevel gears. It will be appreciated that, in spite of a most careful manufacturing of the bevel gears, their meshing unavoidably involves the presence of backlash, which increases with wear as the machine is being operated.In the drive train from the drive shaft to the dial, said backlash of each bevel gear pair adds up in a sort of negative synergism, with a resulting real danger of the dial going out of time or phase with respect to the needle cylinder.
That danger, which grows continuously in time as the bevel gear wear progresses, has been unavoidable heretofore, to the point that a more or less
pronounced production waste is normally accepted
(albeit forcibly so) in the art. In order to limit the magnitude of said production waste or loss, the experts' attention has concentrated so far upon
improvements to the bevel gear manufacturing technology, as well as the meshing thereof, and on
an increase of the maintenance frequency, such as to
prevent the damage induced by wear.However, whereas on one side, the production loss caused by the out-of-phase relationship between the dial and
needle cylinder, due essentially to the aforementioned drive train remains substantial, on the other side, the costs related to the manufacturing and
maintenance of the bevel gear pairs and, more
generally, of the whole drive train are increased
considerably.
Another major drawback is the space requirements which result from the currently adopted arrangement of said drive train externally to the circular knitting machine.
In the German patent specification No. 1,103,505, there is disclosed a circular knitting machine of large diameter, wherein the operational rotary movement of the dial is derived from the motion of the cylinder holder through a drive train which extends inside of the cylinder holder; in that machine, the resulting tubular product is cut, as it is being knitted, along a generatrix thereof and discharged from the machine in the form of a flat fabric. That lengthwise cutting operation is a strict necessity, according to the teachings of the German patent, as otherwise it would not be possible to discharge the tubular fabric, because owing to its encircling the drive train right from the start, it would be withheld by the drive train itself, and get caught and entangled within the machine.
The problem with which this invention deals is that of providing a machine for knitting a tubular fabric, in particular hoses or stocking articles, having such constructional and operational features as to overcome or alleviate at least some of the technical and economical drawbacks cited above with reference to the prior art status.
For the solution of this problem, according to one aspect of the present invention, the machine comprises: - a shaft extending coaxiallythrough said needle cylinder and said cylinder holder, with the inner walls whereof it forms an annular chamber, said shaft being rotatively rigid at the top with said dial; -an essentially tube-like body mounted coaxially within said cylinder holder, wherewith it is rotatively rigid, said tube-like body being displaceable axially in said cylinder holder from a position whereat it is coupled coaxially and rotatively rigid with said shaft, to a position whereat it forms with said shaft at least one annular passage for communicating said annular chamber with said intake and discharge duct for the produced tubular fabric; - an essentially lever-like control member for axially displacing said tube-like body.
According to a first embodiment of the invention, said tube-like body has a bottom end portion which extends to the outside of the cylinder holder and is in sealed sliding and rotating engagement within said intake and discharge duct for the produced tubular fabric, and its other end, internal to said cylinder holder, provided with clutch means intended for detachably engaging corresponding mating counterclutch means formed at the free bottom end of said shaft, said tube-like body being axially displaceable from a position whereat it is rotatively rigid with said shaft by mutual engagement of said clutch means and mating counter-clutch means, to a position wereat its top end is spaced apart, in the direction of said axis, from the free bottom end of said shaft.
According to a preferred embodiment, a machine for knitting a tubular fabric, according to this invention, is characterized in that said shaft has a portion, extending coaxially within said cylinder holder, which comprises one top shaft section and at least one bottom shaft section mutually spaced apart by an intermediate section having a reduced diameter cross-section, each said top and bottom shaft section being provided, at diametrically opposite positions, with two longitudinally extending grooves, and in that said essentially tube-like body is provided internally with two tooth pairs mutually spaced apart, in the direction of said axis, by a predetermined distance, said tooth pairs being operative to engage detachably the grooves of the top section and respectively bottom section of said shaft portion, the teeth of each pair extending radially and on diametrically opposit sides of said tube-like body and having free facing ends which are mutually spaced apart by a greater distance than the diameter of the reduced cross-section shaft section.
Further features and advantages of the invention will be more clearly apparent from the following description of an exemplary embodiment of a machine for knitting a tubular fabric, in particular hoses or stocking articles, according to the invention, with reference to the accompanying drawings, where:
Figure 1 shows schematically in a vertical section a machine according to this invention in an operative stage thereof;
Figure 2 is an enlarged scale view of a portion of
Figure 1;
Figure 3 shows schematically the same machine as shown in Figure 1 but in a different operative stage thereof;
Figure 4 is an enlarged scale view of a portion of
Figures 3;
Figures 5to 7 are enlarged scale views of some details of the construction of the machine illustrated in the previous figures; and
Figure 8shows schematically a modification of the machine according to the invention.
With reference to Figures 1 to 4 of the drawings, there is generally indicated at 1 a machine for knitting tubular fabric, in particular stocking articles.
In that machine, a machine bed or head 2, anchored to the floor in a conventional manner not shown, comprises an essentially cylindrical body having its axis vertically arranged and being provided at the top with a flange portion 3 which defines a resting surface 4 and has a through aperture 5 extending axially thereto. An annular rim 6, formed coaxially within the head 2, divides said aperture 5 into two coaxial contiguous portions, an upper one 5a and lower one Sb.
The reference numeral 7 denotes a needle cylinder holder, positioned coaxially inside the aperture 5 in the head 2, whereby it is carried pivotally with the interposition, for example, of a bearing 10. A conical or bevel gear 11, having a predetermined diameter and number of teeth, is attached coaxially external to the cylinder holder 7 (or formed integrally therewith). This gear 11 defines in the cylinder holder 7 a lower portion 7b, of shorter length, which fully extends through the portion 5a of the aperture 5 in said head 2 and an upper portion 7a, of longer length, which extends externally to the head 2 above the resting surface 4 thereof. The gear 11 is in mesh engagement with a gear 12 located externally to the head 2 and keyed to a drive shaft 13.
A needle cylinder 8 is detachably and coaxially mounted to the upper portion 7a of the cylinder holder 7. The needle cylinder 8 is made rotatively rigid with the cylinder holder 7 by means of a conventional coupling means, e.g. a key 8a. At the upper or top mouth 8b of the needle cylinder 8, there is rigidly and coaxially associated, in a conventional manner, a flanged bush member 9, intended for cooperation with a dial, generally and schematically indicated at 14.
A cylindrical tube or sleeve 15 is positioned coaxially within the aperture 5 of the head 2, contiguously to the cylinder holder 7. More specifically, said sleeve 15, which has an outside diameter only marginally smaller than the inside diameter of the annular rim 6, formed in said head 2, is provided at the top with a circular flange portion 16, butt joined to the lower or bottom end of the portion 7b of the cylinder holder 7, through a plurality of screws 17. The tube 15, which is accordingly rigid rotationwise with the cylinder holder 7, has a predetermined length and extends downwardly outside the head 2.
Within the sleeve 15, there is coaxially and pivotally mounted, with the interposition of a bearing schematically indicated at 18a, a second tube or sleeve 18. This tube 18, having a preset inside diameter and being enabled to perform guided axial movements with respect to the tube 15, is provided with a lower end section extending to the outside of said tube 15 and formed with a flanged edge 19, with a predetermined outside diameter equal to or only slightly greater than the outside diameter of the tube 15.
The reference numeral 20 denotes generally a barrel (hereinafter termed "lower entraining barrel") which is attached coaxiallyto the lower or bottom end of the tube 18. In particular, said barrel 20 is equipped, at an intermediate position thereof, with a circular flange 21, attached to the free end of the edge 19 of the tube 18through a plurality of screws 22. This barrel 20, which has an inside diameter equal to the inside diameter of the tube 18, extends partly within said tube and partly outside of it.
This latter portion of the barrel 20 extends coaxially, over a predetermined length and with the interposition of a gasket 23a, into the mouth 23 of a duct, schematically indicated at 24, which is equipped with a product discharge device 25a connected to a suction source 25 (Figure 8). Itshould be noted that the barrel 20, which is practically integral with the tube 18, is mounted in the mouth 23 of the duct 24 with the possibility of axially moving along and rotating about its own axis.
To the tube 18 itself, on the side of said edge 19 thereof, opposite to the barrel 20, there is attached externally and coaxially a ring 26 having an outside diameter dimension equal to the outside diameter of said flange 21. This ring 26 (Figure 5) is formed with a tooth 27 of predetermined circumferential extension and thickness, which tooth engages with a respective recess 28 formed in a lower end section of the tube 15. The engagement of the tooth 27 with the recess 28 is such as to make the tube 18 and lower barrel 20 rotatively rigid with the tube 15, and accordingly the cylinder holder 7.
The ring 26 and flange 21 of the lower entrainment barrel 20 define, with the outside wall of the edge 19 of said tube 18, an annular groove, indicated at 29, wherein an idle roller 30 is engaged which is carried by a lever 31 (Figure 2). This lever 31 is pivoted at 32 to the stationary structure of the head 2 of the machine according to the invention. By operating the lever 31, the assembly or unit comprising the tube 18 and lower entrainment barrel 20 is displaceable axially with respect to the tube 15 and mouth 23 of the duct 24.
Said tube 18/barrel 20 assembly is provided internally with two pairs of teeth, an upper one 32,32 and lower one 33,33, which are intended for engaging and rotatively driving a shaft 34, in a manner that will be explained hereinafter.
More specifically, and in accordance with a preferred embodiment, the teeth 33 of the lower tooth pair in said tube 18/barrel 20 assembly comprise respective plate-like projections, lying in a common axial plane of said assembly and formed internally to the entrainment barrel 20 close to the lower portion thereof which is engaged in the mouth 23 of the suction duct 24. Said projections have a predetermined thickness and a profile which has essentially a rounded up isosceles trapezium shape, with respective minor bases 33a, 33a facing each other and spaced apart by a predetermined distance and parallel to the axis of the tube 18/barrel 20 assembly.
The teeth 32 of the upper tooth pair in said assembly are similar to the teeth 33 described hereinabove, and are coplanar therewith. According to a preferred embodiment, the teeth 32 are formed inside an annular bush 35, attached coaxially to the tube 18 inside, at a predetermined distance from the tooth pair 33 described above.
The shaft 34, which extends axially through the tube 18/barrel 20 assembly, the cylinder holder 7 and the dial 14, has an upper or top portion 34a with grooved profiles (Figure 1), whereby it is internally coupled for rotation therewith, to a shank 14a which equips axially the dial 14. The portion 34a with grooved profiles of the shaft 34 extends above the dial 14 with an end section 34b intended for engagement by a supporting assembly (not shown because of conventional configuration).
That portion of said shaft 34 which extends through the head 2 of the machine of this invention, comprises three successive sections 36,37,38 (Figure 2) having the same outside diameter and separated by respective sections 39,40 having reduced diameter cross-sections, in particular cross-sections with smaller diameter than the predetermined distance separating the facing sides of the teeth 32,33 of the upper, respectively lower, tooth pairs in the tube 18/barrel 20 assembly.
The upper sections 36 and lower ones 38 are provided, at diametrically opposite locations, with longitudinally arranged identical grooves, respectively 36a36a and 38a,38a; these grooves have a width dimension equal to the thickness dimension of the teeth 32,33 and predetermined depths adapted for accommodating predetermined end portions of said teeth. In the drawing figures, the section 37 of the shaft 34 also appears as formed with similar longitudinal grooves 37a,37a, but these grooves are merely due to manufacturing requirements.
The length of the grooved sections 36,38 and their distance within the shaft 34, are selected such that on the occasion of axial movements of the tube 18/barrel 20 assembly, prior to the teeth 32 coming out of engagement with the grooves 36a,36a of the respective section 36 of the shaft 34, the teeth 33 already engage the grooves 38a,38a of the respective section 38, and viceversa. Thus, continuous rotation of the shaft 34 is ensured, and accordingly of the dial 14 during said axial movements of the assembly 18/20.
Moreover, the magnitude of the axial movements of said assembly, the lengths of the grooved sections 36 and 38, the size of the teeth 32,33 as measured along the rotation axis of the shaft 34, and the lengths of the reduced diameter sections 39 and 40, are selected such that as, during said axial movements of the assembly 18/20, the pairs of teeth 32 or 33 are positioned at the reduced diameter sectons 39, respectively 40, between said teeth and said sections 39,40 there are defined respective axial passages 41, 42 of a predetermined size (Figure 4 and 2).
The passage 41 provides communication between the annular chamber 43 formed between the cylinder holder 7 and shaft 34 and the annular chamber 44, formed between the tube 18 and the section 37 of said shaft 34. The passage 42 provides communication between said chamber 44 and the suction duct 24.
The axial movements of the tube 18/barrel 20 assembly are controlled by the angular movements of the lever 31 about its pivot axis 32. For the angular movements of this lever 31, according to a preferred embodiment, a cam is utilized, shown schematically at 45, which is mounted to a power shaft 46 having a raised profile portion 45a. With this cam, a crank lever 47 cooperates which is pivoted at 47a and one arm 48 whereof is provided with a projection 48a constituting the follower for said cam. The free end of said arm 48 is connected, through a connecting rod 49, to the free end 31a of the lever 31. The angular movements in a counterclockwise (as viewed in the figures) direction of said lever 31 are antagonized buy a spring 50.Obviously, for the angular movements of the lever 31, other control systems may be utilized which are known perse and well within the abilities of an expert in the art. It should be noted that the magnitude of the angular movements of the lever 30 as controlled by the cam 45, whilst on one side produce said engagement and disengagement movements of the tooth pairs 32,33 with and from the respective grooves 36a, 38a, on the other side cause no disengagement of the tooth 27 from its respective recess 28.
The machine just described operates as follows. In a condition of start of the production cycle (Figures 1 and 2), the follower 48 of the crank lever 46 contacts the low profile of the cam 45, thereby the lever 31 is held in the "raised" position by the spring 50.
Consequently, the tube 18/barrel 20 assembly is fully inserted into the tube 15 and the upper teeth 32,32 of said assembly engage in the corresponding grooves 36a,36a of the grooved section 36 of the shaft 34. The lower teeth 33,33 of said tube 18/barrel 20 assembly are positioned at the section 40 of reduced diameter in said shaft 34, thereby the passage 42 formed therebetween is open both to the chamber 44 and the suction duct 24.
At this stage, the following members are activated simultaneously: the suction fan 25, drive shaft 13, and shaft 46a for rotating the cam 45. From the drive shaft 13, the operative motion is transmitted to the needle cylinder 8 through the bevel gear 11 and cylinder holder7, whilst through that same cylinder holder 7, the tube 15 rigid therewith, the tooth 27, tube 18, and teeth 32,32 engaging in the respective grooves 36a,36a said motion is transmitted to the shaft 34 which rotates the dial 14 rigidly therewith.
The machine thus begins to knit a tubular fabric, such as a hose or stocking, as shown schematically at C in Figure 1, which is held taught by the suction applied by the fan 25. During this per se known knitting step, the follower 48a of the crank lever 47 runs over the low profile of the cam 45 which rotates at a predetermined speed. Whilst the rotary movement of the machine is continuous, the knitting of this first portion of the fabric is discontinued by cutting in a perse known manner the yarn(s) upon the tubular fabric reaching a predetermined length.It should be noted that upon completion of this operation (cutting of the yarn(s)), the cam 45 has already completed one revolution about its own axis, such as to bring closer to the follower the raised profile 45a. After the cutting of the yarn, the tubular fabric, notwithstanding the suction applied by the fan 25, is withheld inside the chamber 43 by the upper teeth 32,32 of the tube 18, which teeth are still engaging the respective grooves 36a, 36a of the grooved section 36 of the shaft 34. However, immediately after, or simultaneously with the cutting of the yarns, the follower 48 of the crank lever 46 is lifted off the raised profile 45a of the cam 45, thereby the lever 31 is rotated counterclockwise against the spring 50.Thus, the tube 18/barrel 20 assembly is forcibly moved downwards with respect to the tube 15, which movement is accompanied by a disengagement movement of the teeth 32,32 from the corresponding grooves 36a, 36a and engagement movement of the lower teeth 33,33 with the respective grooves 38a, 38a of the end section 38 of the shaft 34. As already mentioned hereinabove, prior to the teeth 32 being fully released from the respective grooves 36a, 36a, the teeth 33 have already engaged the grooves 38a,38a, thereby the rotary motion of the dial 14 is not interrupted.With said displacement (disengagement) of the upper teeth 32,32, the latter move to a position at the section 39 of reduced diameter of the shaft 34, thereby the passage 41 formed therebetween communicates the upper chamber 43 with the underlying chamber 44. Consequently, and owing to the continuous suction provided by the fan 25, the tubular fabric which was previously withheld by the teeth 32 being engaged in the grooves 36a,36a, is passed into the chamber 44, wherein it is withheld by the teeth 33 being engaged in the grooves 38a,38a. During this transfer move ment,the knitting of a second section C' of tubular fabric (or second hose) is started, while the follower 48a of the crank lever 47 has completed its travel along the raised portion of the cam 45.Upon this follower resuming its contact with the low profile of the cam 45, the spring 50 brings the lever 31 back to its starting position of the cycle and the tube 18/barrel 20 assembly is fully reinserted into the tube 15. Upon reinsertion of that assembly, the upper teeth 32 once again engage the corresponding grooves 36a,36a, whilst the lower teeth 33 of that assembly disengage from the grooves 38a,38a and position themselves at the reduced diameter section 40 of the shaft 34. Consequently, while retaining the continuous rotary motion of the machine in operation, the first section (or first hose) of the tubular fabric, previously withheld by the teeth 33 being engaged in the grooves 38a,38a, is passed now through the passage 42 in the suction duct 24 and hence to a subsequent handling station.
It should be noted that with the circular machine of this invention, one is enabled to produce, as and when required, the so-called "closed tip" of a tubular article (hose or stocking). In fact, for thins purpose, it will be sufficient that the lever 31 be actuated manually to fully disengage the tooth 27 of the barrel 20 from the corresponding recess 28. As a result, the tube 18/barrel 20 assembly is released from the tube 15, rigid with the cylinder holder 7. Whilst said assembly, and with it the dial 14, can be stopped in a conventional manner, the needle cylinder 8 con tinges to rotate for a predetermined number of revolutions. Thus, the desired "tip closure" is obtained in the tubular fabric at the dial 14.
Figure 8 illustrates a variation of the machine described above with reference to Figures 1 to 4. In this figure, elements which are similar or equivalent to those described with reference to Figures 1 to 4 are denoted with like reference numbers.
According to this variation, the head or stationary support 2 of the machine is extended coaxially downwards by means of a tubular body 51 comprising essentially three successive sections 52,53,54 having their inside diameter of decreasing sizes. The cylinder holder 7 is extended coaxially downwards by means of a cylindrical tubular body 55, having the same inside diameter as said cylinder holder, and its outside diameter equal to the inside diameter of the intermediate section 53 of the cylindrical body 52 described above.
This cylindrical body 55, a lower portion whereof is pivotally engaged, with the interposition of a gasket 56, in said intermediate section 53, forms together with the upper section 52 of the cylindrical body 51, an annular interspace 57 in fluid conducting communication, through a duct 58 and a shut-off valve schematically indicated at 59, with a suction duct 60. The inside of the cylindrical tubular body 55, and accordingly of the cylinder holder 7, is in air communication with the interspace 57 through a plurality of radial holes 61 formed in the cylindrical tubular body itself. There is generally indicated at 62 a cylindrical tube pivotally engaged in sealed relationship in the lower reduced diameter section 54 of the cylindrical body 51, with respect whereto it is also displaceable axially.This tube 62 is provided with an external and coaxial annular edge or rim 63, wherein an annular groove 64 is defined circumferentially which is intended for engagement by an idle roller 30 carried by the lever 31 extending externally to the cylindrical body 51. In particular, in order to allow for the engagement of the idle roller 30 and groove 64, at the intermediate portion 53 of the cylindrical body 51, there is formed a longitudinal slot 65 of length and width dimensions which are predetermined. The tube 62 is made rigid at the top, e.g. through a spline profile coupling 66, with the cylindrical tubular body 55 for rotation therewith, whilst it is displaceable axially with respect to said tubular body.
The shaft 34, which extends internally to the cylinder holder 7 and cylindrical tubular body 55, is provided at the bottom with a truncated cone head 67 which is tapered towards the top and the free end whereof is spaced apart from the bottom of the cylindrical tubular body 55 by a predetermined distance. At that same free end, the truncated cone head 67 is provided with conventional means 68 for butt clutch coupling thereof to the upper free end of the tube 62. By effecting that butt coupling, the shaft 34 is made rigid for rotation with the tube 62, and accordingly the cylinder holder 7.
After establishing that connection or coupling, by actuating the lever 31, e.g. as described with reference to Figures 1 to 4, and after starting the drive shaft 13, the machine begins its knitting cycle for the production oftubularfabric C (or hose or stocking), and during that cycle, by suitably manipulating the valve 59, a suction is maintained within the machine through the duct 58, annular interspace 57, plurality of holes 61, whereas the suction through the duct 24 is cut off. Upon completion of the article, simultaneously with the cutting of the yarn(s), the tube 62 is disengaged from the shaft 34 and at the same time, by suitable manipulation of the valve 59, the suction is discontinued through the duct 58, whilst the suction is activated through the duct 24. The completed article is thus sucked through said duct and conveyed to a successive handling station.
Claims (6)
1. A machine for knitting a tubular fabric, in particular stocking articles, of the type comprising a needle cylinder mounted coaxially to a cylinder holder, wherewith said needle cylinder is rigid for rotation about a common vertical axis, a dial carried at the top of said needle cylinder at a predetermined distance away therefrom and set for rotation about said vertical axis, a suction and discharge duct for the produced tubular fabric in fluid conducting communication on one side with the inside of said cylinder holder and on the other side with a suction source, and means for driving said cylinder holder, characterized in that it comprises:: - a shaft extending coaxially through said needle cylinder and said cylinder holder with the inner walls whereof it forms an annular chamber, said shaft being made rigid at the top for rotation with said dial; - an essentially tube-like body mounted coaxially within said cylinder holder wherewith it is rotatively rigid, said tube-like body being displaceable axially in said cylinder holder from a position whereat it is coupled directly to and made rotatively rigid with said shaft, to a position whereat it forms with said shaft at least one annular passage for communication between said annular chamber and said suction and discharge duct for the produced tubular fabric; - a control member of essentially lever-like configuration for axially displacing said tube-like body.
2. A machine according to Claim 1, characterized in that said tube-like body has a lower end portion extending externally to said cylinder holder and slidably and pivotally engaging in sealed relationship the inside of said suction and discharge duct for the produced tubular fabric and the other end, located inside said cylinder holder, provided with connection or coupling means for detachably engaging correspondingly mating coupling means formed at the lower free end of said shaft, said tube-like body being axially displaceable from a position whreat it is rotatively rigid with said shaft owing to mutual engagement of said coupling means and mating means to position whereat its upper end is spaced apart, in the direction of said axis, from the lower free end of said shaft.
3. A machine according to Claim 2, characterized in that it comprises a further suction duct in communication, on one side, with said suction source, and on the other side with the inside of said cylinder holder, through a plurality of holes formed in the sidewall thereof.
4. A machine according to Claim 1, characterized in that said shaft has a portion, extending coaxially within said cylinder holder, comprising an upper shaft section and at least one lower shaft section, said sections being mutually spaced apart by an intermediate section having a reduced diameter cross-section, each said upper and lower shaft sections being provided, at diametrically opposed locations, with two longitudinally extending grooves, and in that said essentially tube-like body is provided internally with two pairs of teeth, said teeth pairs being mutually spaced apart, in the direction of said axis, by a predetermined distance and adapted for engaging in a detachable manner said grooves in the upper section, respectively lower section, of said shaft portion, the teeth of each tooth pair extending radially on diametrically opposied sides of said tube-like body and having facing free ends, said facing free ends being mutually set apart by a distance greater than the diameter of said reduced cross-section shaft section.
5. Amachineforknitting atubularfabric,in particular stocking articles, substantially as herein described with reference to the accompanying drawings.
6. Any novel element, or combination of elements, herein described and/or shown in the accompanying drawings, irrespective of whether the present claim is within the scope of, or relates to the same invention as, any of the preceding claims.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
IT28721/78A IT1099924B (en) | 1978-10-13 | 1978-10-13 | PERFECTED MACHINE FOR THE PRODUCTION OF TUBULAR FABRIC, IN PARTICULAR OF SOCKS |
Publications (2)
Publication Number | Publication Date |
---|---|
GB2035390A true GB2035390A (en) | 1980-06-18 |
GB2035390B GB2035390B (en) | 1983-04-13 |
Family
ID=11224062
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
GB7935009A Expired GB2035390B (en) | 1978-10-13 | 1979-10-09 | Machine for knitting a tubular fabric |
Country Status (6)
Country | Link |
---|---|
JP (1) | JPS5571846A (en) |
CS (1) | CS226192B2 (en) |
DE (1) | DE2941190A1 (en) |
FR (1) | FR2438699A1 (en) |
GB (1) | GB2035390B (en) |
IT (1) | IT1099924B (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4454729A (en) * | 1981-05-08 | 1984-06-19 | Lonati S.P.A. | Circular knitting machine of the cylinder and dial type, in particular for knitting hosiery |
US5231856A (en) * | 1991-05-31 | 1993-08-03 | Lonati S.R.L. | Twin-cylinder circular knitting machine for manufacturing socks and stockings with a knitted fabric tensioning device |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
IT1153330B (en) * | 1982-10-29 | 1987-01-14 | Lonati Spa | CIRCULAR MACHINE FOR CYLINDER AND SANDING KNITWEAR, IN PARTICULAR SUITABLE FOR THE MANUFACTURE OF SOCKS |
IT1245837B (en) * | 1990-11-15 | 1994-10-24 | S F I M Srl | CIRCULAR SINGLE-CYLINDER MACHINE WITH DRIVE OF THE PAD, PERFECTED IN PARTICULAR FOR THE PRODUCTION OF SOCKS |
-
1978
- 1978-10-13 IT IT28721/78A patent/IT1099924B/en active
-
1979
- 1979-10-09 FR FR7925068A patent/FR2438699A1/en active Granted
- 1979-10-09 GB GB7935009A patent/GB2035390B/en not_active Expired
- 1979-10-11 DE DE19792941190 patent/DE2941190A1/en not_active Withdrawn
- 1979-10-12 CS CS796948A patent/CS226192B2/en unknown
- 1979-10-12 JP JP13096379A patent/JPS5571846A/en active Pending
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4454729A (en) * | 1981-05-08 | 1984-06-19 | Lonati S.P.A. | Circular knitting machine of the cylinder and dial type, in particular for knitting hosiery |
US5231856A (en) * | 1991-05-31 | 1993-08-03 | Lonati S.R.L. | Twin-cylinder circular knitting machine for manufacturing socks and stockings with a knitted fabric tensioning device |
Also Published As
Publication number | Publication date |
---|---|
FR2438699B1 (en) | 1983-11-18 |
GB2035390B (en) | 1983-04-13 |
DE2941190A1 (en) | 1980-04-24 |
IT7828721A0 (en) | 1978-10-13 |
FR2438699A1 (en) | 1980-05-09 |
CS226192B2 (en) | 1984-03-19 |
IT1099924B (en) | 1985-09-28 |
JPS5571846A (en) | 1980-05-30 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
PCNP | Patent ceased through non-payment of renewal fee |